def deploy_vnf(self):
"""Deploy Clearwater IMS."""
start_time = time.time()
self.__logger.info("Upload VNFD")
cfy_client = self.orchestrator['object']
descriptor = self.vnf['descriptor']
cfy_client.blueprints.upload(
descriptor.get('file_name'), descriptor.get('name'))
self.__logger.info("Get or create flavor for all clearwater vm")
flavor_settings = FlavorConfig(
name="{}-{}".format(
self.vnf['requirements']['flavor']['name'],
self.uuid),
ram=self.vnf['requirements']['flavor']['ram_min'],
disk=25,
vcpus=2)
flavor_creator = OpenStackFlavor(self.snaps_creds, flavor_settings)
flavor_creator.create()
self.created_object.append(flavor_creator)
self.vnf['inputs'].update(dict(
flavor_id=flavor_settings.name,
))
self.__logger.info("Create VNF Instance")
cfy_client.deployments.create(descriptor.get('name'),
descriptor.get('name'),
self.vnf.get('inputs'))
wait_for_execution(cfy_client,
_get_deployment_environment_creation_execution(
cfy_client, descriptor.get('name')),
self.__logger,
timeout=300)
self.__logger.info("Start the VNF Instance deployment")
execution = cfy_client.executions.start(descriptor.get('name'),
'install')
# Show execution log
execution = wait_for_execution(
cfy_client, execution, self.__logger, timeout=3600)
duration = time.time() - start_time
self.__logger.info(execution)
if execution.status == 'terminated':
self.details['vnf'].update(status='PASS', duration=duration)
self.result += 1/3 * 100
result = True
else:
self.details['vnf'].update(status='FAIL', duration=duration)
result = False
return result
def deploy_vnf(self):
"""Deploy ABOT-OAI-EPC."""
self.__logger.info("Upload VNFD")
descriptor = self.vnf['descriptor']
self.__logger.info("Get or create flavor for all Abot-EPC")
flavor_settings = FlavorConfig(
name=self.vnf['requirements']['flavor']['name'],
ram=self.vnf['requirements']['flavor']['ram_min'],
disk=10,
vcpus=1)
flavor_creator = OpenStackFlavor(self.snaps_creds, flavor_settings)
flavor_creator.create()
self.created_object.append(flavor_creator)
self.__logger.info("Deploying Abot-epc bundle file ...")
os.system('juju deploy {}'.format('/' + descriptor.get('file_name')))
self.__logger.info("Waiting for instances .....")
status = os.system('juju-wait')
self.__logger.info("juju wait completed: %s", status)
self.__logger.info("Deployed Abot-epc on Openstack")
nova_client = nova_utils.nova_client(self.snaps_creds)
neutron_client = neutron_utils.neutron_client(self.snaps_creds)
if status == 0:
instances = os_utils.get_instances(nova_client)
for items in instances:
metadata = get_instance_metadata(nova_client, items)
if 'juju-units-deployed' in metadata:
sec_group = ('juju-' + metadata['juju-controller-uuid'] +
'-' + metadata['juju-model-uuid'])
self.sec_group_id = os_utils.get_security_group_id(
neutron_client, sec_group)
break
self.__logger.info("Adding Security group rule....")
os_utils.create_secgroup_rule(
neutron_client, self.sec_group_id, 'ingress', 132)
self.__logger.info("Copying the feature files to Abot_node ")
os.system('juju scp -- -r {}/featureFiles abot-'
'epc-basic/0:~/'.format(self.case_dir))
self.__logger.info("Copying the feature files in Abot_node ")
os.system("juju ssh abot-epc-basic/0 'sudo rsync -azvv "
"~/featureFiles /etc/rebaca-test-suite"
"/featureFiles'")
count = 0
while count < 10:
epcstatus = os.system('juju status oai-epc | '
'grep {} | grep {} | grep {}'
.format('EPC', 'is', 'running'))
if epcstatus == 0:
break
else:
time.sleep(60)
count = count + 1
os.system('juju-wait')
return True
return False
def create_flavor(self, name, ram, disk, vcpus):
logger.info("Creating the flavor...")
flavor_settings = FlavorConfig(name=name,
ram=ram,
disk=disk,
vcpus=vcpus)
flavor_creator = OpenStackFlavor(self.os_creds, flavor_settings)
flavor = flavor_creator.create()
self.creators.append(flavor_creator)
return flavor
def setUp(self):
"""
Instantiates the CreateImage object that is responsible for downloading
and creating an OS image file within OpenStack
"""
guid = self.__class__.__name__ + '-' + str(uuid.uuid4())
self.flavor_settings = FlavorConfig(
name=guid + '-name', flavor_id=guid + '-id', ram=1, disk=1,
vcpus=1, ephemeral=1, swap=2, rxtx_factor=3.0, is_public=False)
self.nova = nova_utils.nova_client(self.os_creds, self.os_session)
self.flavor = None
def test_name_ram_disk_vcpus_only(self):
settings = FlavorConfig(name='foo', ram=1, disk=2, vcpus=3)
self.assertEqual('foo', settings.name)
self.assertEqual('auto', settings.flavor_id)
self.assertEqual(1, settings.ram)
self.assertEqual(2, settings.disk)
self.assertEqual(3, settings.vcpus)
self.assertEqual(0, settings.ephemeral)
self.assertEqual(0, settings.swap)
self.assertEqual(1.0, settings.rxtx_factor)
self.assertEqual(True, settings.is_public)
self.assertEqual(None, settings.metadata)
def test_create_flavor(self):
"""
Tests the creation of an OpenStack flavor.
"""
# Create Flavor
flavor_settings = FlavorConfig(name=self.flavor_name,
ram=1,
disk=1,
vcpus=1)
self.flavor_creator = OpenStackFlavor(self.os_creds, flavor_settings)
flavor = self.flavor_creator.create()
self.assertTrue(validate_flavor(self.nova, flavor_settings, flavor))
def test_config_with_name_ram_disk_vcpus_only(self):
settings = FlavorConfig(
**{'name': 'foo', 'ram': 1, 'disk': 2, 'vcpus': 3})
self.assertEqual('foo', settings.name)
self.assertEqual('auto', settings.flavor_id)
self.assertEqual(1, settings.ram)
self.assertEqual(2, settings.disk)
self.assertEqual(3, settings.vcpus)
self.assertEqual(0, settings.ephemeral)
self.assertEqual(0, settings.swap)
self.assertEqual(1.0, settings.rxtx_factor)
self.assertEqual(True, settings.is_public)
self.assertEqual(None, settings.metadata)
def create_flavor_config(flavor):
"""
Returns a FlavorConfig object
:param flavor: a FlavorConfig object
"""
return FlavorConfig(name=flavor.name,
flavor_id=flavor.id,
ram=flavor.ram,
disk=flavor.disk,
vcpus=flavor.vcpus,
ephemeral=flavor.ephemeral,
swap=flavor.swap,
rxtx_factor=flavor.rxtx_factor,
is_public=flavor.is_public)
def test_all(self):
metadata = {'foo': 'bar'}
settings = FlavorConfig(
name='foo', flavor_id='bar', ram=1, disk=2, vcpus=3, ephemeral=4,
swap=5, rxtx_factor=6.0, is_public=False, metadata=metadata)
self.assertEqual('foo', settings.name)
self.assertEqual('bar', settings.flavor_id)
self.assertEqual(1, settings.ram)
self.assertEqual(2, settings.disk)
self.assertEqual(3, settings.vcpus)
self.assertEqual(4, settings.ephemeral)
self.assertEqual(5, settings.swap)
self.assertEqual(6.0, settings.rxtx_factor)
self.assertEqual(False, settings.is_public)
self.assertEqual(metadata, settings.metadata)
def prepare_flavor(self):
"""Create Open Baton flavor if it doesn't exist yet"""
self.logger.info(
"Create Flavor for Open Baton NFVO if not yet existing")
flavor_settings = FlavorConfig(
name=self.mano['requirements']['flavor']['name'],
ram=self.mano['requirements']['flavor']['ram_min'],
disk=self.mano['requirements']['flavor']['disk'],
vcpus=self.mano['requirements']['flavor']['vcpus'])
flavor = OpenStackFlavor(self.snaps_creds, flavor_settings)
flavor_info = flavor.create()
self.created_resources.append(flavor)
self.mano['details']['flavor'] = {}
self.mano['details']['flavor']['name'] = flavor_settings.name
self.mano['details']['flavor']['id'] = flavor_info.id
def test_create_flavor_existing(self):
"""
Tests the creation of an OpenStack flavor then starts another creator
to ensure it has not been done twice.
"""
# Create Flavor
flavor_settings = FlavorConfig(name=self.flavor_name,
ram=1,
disk=1,
vcpus=1)
self.flavor_creator = OpenStackFlavor(self.os_creds, flavor_settings)
flavor = self.flavor_creator.create()
self.assertTrue(validate_flavor(self.nova, flavor_settings, flavor))
flavor_creator_2 = OpenStackFlavor(self.os_creds, flavor_settings)
flavor2 = flavor_creator_2.create()
self.assertEqual(flavor.id, flavor2.id)
def test_config_all(self):
metadata = {'foo': 'bar'}
settings = FlavorConfig(
**{'name': 'foo', 'flavor_id': 'bar', 'ram': 1, 'disk': 2,
'vcpus': 3,
'ephemeral': 4, 'swap': 5, 'rxtx_factor': 6.0,
'is_public': False,
'metadata': metadata})
self.assertEqual('foo', settings.name)
self.assertEqual('bar', settings.flavor_id)
self.assertEqual(1, settings.ram)
self.assertEqual(2, settings.disk)
self.assertEqual(3, settings.vcpus)
self.assertEqual(4, settings.ephemeral)
self.assertEqual(5, settings.swap)
self.assertEqual(6.0, settings.rxtx_factor)
self.assertEqual(False, settings.is_public)
self.assertEqual(metadata, settings.metadata)
def test_create_clean_flavor(self):
"""
Tests the creation and cleanup of an OpenStack flavor.
"""
# Create Flavor
flavor_settings = FlavorConfig(name=self.flavor_name,
ram=1,
disk=1,
vcpus=1)
self.flavor_creator = OpenStackFlavor(self.os_creds, flavor_settings)
flavor = self.flavor_creator.create()
self.assertTrue(validate_flavor(self.nova, flavor_settings, flavor))
# Clean Flavor
self.flavor_creator.clean()
self.assertIsNone(self.flavor_creator.get_flavor())
self.assertIsNone(
nova_utils.get_flavor_by_name(self.nova, flavor_settings.name))
def _create_flavor(self, name):
"""Create flavor for tests."""
scenario = CONST.__getattribute__('DEPLOY_SCENARIO')
flavor_metadata = None
if 'ovs' in scenario or 'fdio' in scenario:
flavor_metadata = create_flavor.MEM_PAGE_SIZE_LARGE
flavor_creator = OpenStackFlavor(
self.os_creds,
FlavorConfig(
name=name,
ram=CONST.__getattribute__('openstack_flavor_ram'),
disk=CONST.__getattribute__('openstack_flavor_disk'),
vcpus=CONST.__getattribute__('openstack_flavor_vcpus'),
metadata=flavor_metadata))
flavor = flavor_creator.create()
if flavor is None:
raise Exception('Failed to create flavor')
self.creators.append(flavor_creator)
return flavor.id
def setUp(self):
"""
Instantiates OpenStack instances that cannot be spawned by Heat
"""
guid = self.__class__.__name__ + '-' + str(uuid.uuid4())
stack_name1 = guid + '-stack1'
stack_name2 = guid + '-stack2'
self.network_name = guid + '-net'
self.subnet_name = guid + '-subnet'
self.vm_inst_name = guid + '-inst'
self.image_creator = OpenStackImage(
self.os_creds,
openstack_tests.cirros_image_settings(
name=guid + '-image', image_metadata=self.image_metadata))
self.image_creator.create()
# Create Flavor
self.flavor_creator = OpenStackFlavor(
self.os_creds,
FlavorConfig(name=guid + '-flavor', ram=256, disk=10, vcpus=1))
self.flavor_creator.create()
env_values = {
'image_name': self.image_creator.image_settings.name,
'flavor_name': self.flavor_creator.flavor_settings.name,
'net_name': self.network_name,
'subnet_name': self.subnet_name,
'inst_name': self.vm_inst_name
}
heat_tmplt_path = pkg_resources.resource_filename(
'snaps.openstack.tests.heat', 'test_heat_template.yaml')
self.stack_settings1 = StackConfig(name=stack_name1,
template_path=heat_tmplt_path,
env_values=env_values)
self.stack_settings2 = StackConfig(name=stack_name2,
template_path=heat_tmplt_path,
env_values=env_values)
self.stack1 = None
self.stack2 = None
self.heat_client = heat_utils.heat_client(self.os_creds,
self.os_session)
def setUp(self):
self.guid = self.__class__.__name__ + '-' + str(uuid.uuid4())
self.cluster_type_name = self.guid + '-cluster-type'
self.magnum = magnum_utils.magnum_client(
self.os_creds, self.os_session)
metadata = self.image_metadata
if not metadata:
metadata = dict()
if 'extra_properties' not in metadata:
metadata['extra_properties'] = dict()
metadata['extra_properties']['os_distro'] = 'cirros'
os_image_settings = openstack_tests.cirros_image_settings(
name=self.guid + '-image', image_metadata=metadata)
self.image_creator = OpenStackImage(self.os_creds, os_image_settings)
self.flavor_creator = OpenStackFlavor(
self.os_creds, FlavorConfig(
name=self.guid + '-flavor', ram=512, disk=10, vcpus=1))
keypair_priv_filepath = 'tmp/' + self.guid
keypair_pub_filepath = keypair_priv_filepath + '.pub'
self.keypair_creator = OpenStackKeypair(
self.os_creds, KeypairConfig(
name=self.guid + '-keypair',
public_filepath=keypair_pub_filepath,
private_filepath=keypair_priv_filepath))
self.cluster_template = None
try:
self.image_creator.create()
self.flavor_creator.create()
self.keypair_creator.create()
except:
self.tearDown()
raise
def test_create_delete_flavor(self):
"""
Tests the creation of an OpenStack Flavor, the deletion, then
cleanup to ensure clean() does not
raise any exceptions.
"""
# Create Flavor
flavor_settings = FlavorConfig(name=self.flavor_name,
ram=1,
disk=1,
vcpus=1)
self.flavor_creator = OpenStackFlavor(self.os_creds, flavor_settings)
flavor = self.flavor_creator.create()
self.assertTrue(validate_flavor(self.nova, flavor_settings, flavor))
# Delete Flavor
nova_utils.delete_flavor(self.nova, flavor)
self.assertIsNone(
nova_utils.get_flavor_by_name(self.nova, flavor_settings.name))
# Attempt to cleanup
self.flavor_creator.clean()
self.assertIsNone(self.flavor_creator.get_flavor())
def _prepare_env(self):
"""Create resources needed by test scenarios."""
LOGGER.debug('Validating the test name...')
if self.test_name not in self.TESTS:
raise Exception("Test name '%s' is invalid" % self.test_name)
network_name = self.RALLY_PRIVATE_NET_NAME + self.guid
subnet_name = self.RALLY_PRIVATE_SUBNET_NAME + self.guid
router_name = self.RALLY_ROUTER_NAME + self.guid
self.image_name = self.GLANCE_IMAGE_NAME + self.guid
self.flavor_name = self.FLAVOR_NAME + self.guid
self.flavor_alt_name = self.FLAVOR_ALT_NAME + self.guid
self.ext_net_name = snaps_utils.get_ext_net_name(self.os_creds)
self.compute_cnt = snaps_utils.get_active_compute_cnt(self.os_creds)
LOGGER.debug("Creating image '%s'...", self.image_name)
image_creator = deploy_utils.create_image(
self.os_creds, ImageConfig(
name=self.image_name,
image_file=self.GLANCE_IMAGE_PATH,
img_format=self.GLANCE_IMAGE_FORMAT,
image_user=self.GLANCE_IMAGE_USERNAME,
public=True,
extra_properties=self.GLANCE_IMAGE_EXTRA_PROPERTIES))
if image_creator is None:
raise Exception("Failed to create image")
self.creators.append(image_creator)
LOGGER.debug("Creating network '%s'...", network_name)
rally_network_type = None
rally_physical_network = None
rally_segmentation_id = None
if hasattr(CONST, 'rally_network_type'):
rally_network_type = CONST.__getattribute__(
'rally_network_type')
if hasattr(CONST, 'rally_physical_network'):
rally_physical_network = CONST.__getattribute__(
'rally_physical_network')
if hasattr(CONST, 'rally_segmentation_id'):
rally_segmentation_id = CONST.__getattribute__(
'rally_segmentation_id')
network_creator = deploy_utils.create_network(
self.os_creds, NetworkConfig(
name=network_name,
shared=True,
network_type=rally_network_type,
physical_network=rally_physical_network,
segmentation_id=rally_segmentation_id,
subnet_settings=[SubnetConfig(
name=subnet_name,
cidr=self.RALLY_PRIVATE_SUBNET_CIDR)]))
if network_creator is None:
raise Exception("Failed to create private network")
self.priv_net_id = network_creator.get_network().id
self.creators.append(network_creator)
LOGGER.debug("Creating router '%s'...", router_name)
router_creator = deploy_utils.create_router(
self.os_creds, RouterConfig(
name=router_name,
external_gateway=self.ext_net_name,
internal_subnets=[subnet_name]))
if router_creator is None:
raise Exception("Failed to create router")
self.creators.append(router_creator)
LOGGER.debug("Creating flavor '%s'...", self.flavor_name)
flavor_creator = OpenStackFlavor(
self.os_creds, FlavorConfig(
name=self.flavor_name, ram=self.FLAVOR_RAM, disk=1, vcpus=1,
metadata=self.FLAVOR_EXTRA_SPECS))
if flavor_creator is None or flavor_creator.create() is None:
raise Exception("Failed to create flavor")
self.creators.append(flavor_creator)
LOGGER.debug("Creating flavor '%s'...", self.flavor_alt_name)
flavor_alt_creator = OpenStackFlavor(
self.os_creds, FlavorConfig(
name=self.flavor_alt_name, ram=self.FLAVOR_RAM_ALT, disk=1,
vcpus=1, metadata=self.FLAVOR_EXTRA_SPECS))
if flavor_alt_creator is None or flavor_alt_creator.create() is None:
raise Exception("Failed to create flavor")
self.creators.append(flavor_alt_creator)
def run(self, **kwargs): # pylint: disable=too-many-locals
"""
Begins the test execution which should originate from the subclass
"""
self.logger.info('Begin virtual environment setup')
self.start_time = time.time()
self.logger.info(
"vPing Start Time:'%s'",
datetime.fromtimestamp(
self.start_time).strftime('%Y-%m-%d %H:%M:%S'))
image_base_name = '{}-{}'.format(getattr(CONST, 'vping_image_name'),
str(self.guid))
os_image_settings = openstack_tests.cirros_image_settings(
image_base_name, image_metadata=self.cirros_image_config)
self.logger.info("Creating image with name: '%s'", image_base_name)
self.image_creator = deploy_utils.create_image(self.os_creds,
os_image_settings)
self.creators.append(self.image_creator)
private_net_name = getattr(CONST, 'vping_private_net_name') + self.guid
private_subnet_name = getattr(CONST,
'vping_private_subnet_name') + self.guid
private_subnet_cidr = getattr(CONST, 'vping_private_subnet_cidr')
vping_network_type = None
vping_physical_network = None
vping_segmentation_id = None
if hasattr(CONST, 'vping_network_type'):
vping_network_type = getattr(CONST, 'vping_network_type')
if hasattr(CONST, 'vping_physical_network'):
vping_physical_network = getattr(CONST, 'vping_physical_network')
if hasattr(CONST, 'vping_segmentation_id'):
vping_segmentation_id = getattr(CONST, 'vping_segmentation_id')
self.logger.info("Creating network with name: '%s'", private_net_name)
self.network_creator = deploy_utils.create_network(
self.os_creds,
NetworkConfig(name=private_net_name,
network_type=vping_network_type,
physical_network=vping_physical_network,
segmentation_id=vping_segmentation_id,
subnet_settings=[
SubnetConfig(name=private_subnet_name,
cidr=private_subnet_cidr)
]))
self.creators.append(self.network_creator)
# Creating router to external network
log = "Creating router with name: '%s'" % self.router_name
self.logger.info(log)
ext_net_name = snaps_utils.get_ext_net_name(self.os_creds)
self.router_creator = deploy_utils.create_router(
self.os_creds,
RouterConfig(name=self.router_name,
external_gateway=ext_net_name,
internal_subnets=[private_subnet_name]))
self.creators.append(self.router_creator)
self.logger.info("Creating flavor with name: '%s'", self.flavor_name)
scenario = getattr(CONST, 'DEPLOY_SCENARIO')
flavor_metadata = None
flavor_ram = 512
if 'ovs' in scenario or 'fdio' in scenario:
flavor_metadata = create_flavor.MEM_PAGE_SIZE_LARGE
flavor_ram = 1024
flavor_creator = OpenStackFlavor(
self.os_creds,
FlavorConfig(name=self.flavor_name,
ram=flavor_ram,
disk=1,
vcpus=1,
metadata=flavor_metadata))
flavor_creator.create()
self.creators.append(flavor_creator)
def deploy_vnf(self):
start_time = time.time()
self.__logger.info("Upload VNFD")
cfy_client = self.orchestrator['object']
descriptor = self.vnf['descriptor']
self.deployment_name = descriptor.get('name')
cfy_client.blueprints.upload(descriptor.get('file_name'),
descriptor.get('name'))
self.__logger.info("Get or create flavor for vrouter")
flavor_settings = FlavorConfig(
name=self.vnf['requirements']['flavor']['name'],
ram=self.vnf['requirements']['flavor']['ram_min'],
disk=25,
vcpus=1)
flavor_creator = OpenStackFlavor(self.snaps_creds, flavor_settings)
flavor = flavor_creator.create()
self.created_object.append(flavor_creator)
# set image name
glance = glance_utils.glance_client(self.snaps_creds)
image = glance_utils.get_image(glance, "vyos1.1.7")
user_creator = OpenStackUser(
self.snaps_creds,
UserConfig(name='cloudify_network_bug-{}'.format(self.uuid),
password=str(uuid.uuid4()),
project_name=self.tenant_name,
domain=self.snaps_creds.user_domain_name,
roles={'_member_': self.tenant_name}))
user_creator.create()
self.created_object.append(user_creator)
snaps_creds = user_creator.get_os_creds(self.snaps_creds.project_name)
self.__logger.debug("snaps creds: %s", snaps_creds)
self.vnf['inputs'].update(dict(target_vnf_image_id=image.id))
self.vnf['inputs'].update(dict(reference_vnf_image_id=image.id))
self.vnf['inputs'].update(dict(target_vnf_flavor_id=flavor.id))
self.vnf['inputs'].update(dict(reference_vnf_flavor_id=flavor.id))
self.vnf['inputs'].update(dict(keystone_username=snaps_creds.username))
self.vnf['inputs'].update(dict(keystone_password=snaps_creds.password))
self.vnf['inputs'].update(
dict(keystone_tenant_name=snaps_creds.project_name))
self.vnf['inputs'].update(
dict(keystone_user_domain_name=snaps_creds.user_domain_name))
self.vnf['inputs'].update(
dict(keystone_project_domain_name=snaps_creds.project_domain_name))
self.vnf['inputs'].update(dict(region=snaps_creds.region_name))
self.vnf['inputs'].update(
dict(keystone_url=keystone_utils.get_endpoint(
snaps_creds, 'identity')))
self.__logger.info("Create VNF Instance")
cfy_client.deployments.create(descriptor.get('name'),
descriptor.get('name'),
self.vnf.get('inputs'))
wait_for_execution(cfy_client,
get_execution_id(cfy_client,
descriptor.get('name')),
self.__logger,
timeout=7200)
self.__logger.info("Start the VNF Instance deployment")
execution = cfy_client.executions.start(descriptor.get('name'),
'install')
# Show execution log
execution = wait_for_execution(cfy_client, execution, self.__logger)
duration = time.time() - start_time
self.__logger.info(execution)
if execution.status == 'terminated':
self.details['vnf'].update(status='PASS', duration=duration)
result = True
else:
self.details['vnf'].update(status='FAIL', duration=duration)
result = False
return result
def deploy_vnf(self):
start_time = time.time()
self.logger.info("Deploying %s...", self.vnf['name'])
main_agent = MainAgent(nfvo_ip=self.mano['details']['fip'].ip,
nfvo_port=8080,
https=False,
version=1,
username=self.mano['credentials']['username'],
password=self.mano['credentials']['password'])
self.logger.info("Create %s Flavor if not existing", self.vnf['name'])
flavor_settings = FlavorConfig(
name=self.vnf['requirements']['flavor']['name'],
ram=self.vnf['requirements']['flavor']['ram_min'],
disk=self.vnf['requirements']['flavor']['disk'],
vcpus=self.vnf['requirements']['flavor']['vcpus'])
flavor = OpenStackFlavor(self.snaps_creds, flavor_settings)
flavor_info = flavor.create()
self.logger.debug("Flavor id: %s", flavor_info.id)
self.logger.info("Getting project 'default'...")
project_agent = main_agent.get_agent("project", "")
for project in json.loads(project_agent.find()):
if project.get("name") == "default":
self.mano['details']['project_id'] = project.get("id")
self.logger.info("Found project 'default': %s", project)
break
vim_json = self.get_vim_descriptor()
self.logger.info("Registering VIM: %s", vim_json)
main_agent.get_agent(
"vim", project_id=self.mano['details']['project_id']).create(
entity=json.dumps(vim_json))
market_agent = main_agent.get_agent(
"market", project_id=self.mano['details']['project_id'])
try:
self.logger.info("sending: %s", self.vnf['descriptor']['url'])
nsd = market_agent.create(entity=self.vnf['descriptor']['url'])
if nsd.get('id') is None:
self.logger.error("NSD not onboarded correctly")
duration = time.time() - start_time
self.details["vnf"].update(status='FAIL', duration=duration)
return False
self.mano['details']['nsd_id'] = nsd.get('id')
self.logger.info("Onboarded NSD: " + nsd.get("name"))
nsr_agent = main_agent.get_agent(
"nsr", project_id=self.mano['details']['project_id'])
self.mano['details']['nsr'] = nsr_agent.create(
self.mano['details']['nsd_id'])
except NfvoException as exc:
self.logger.error(exc.message)
duration = time.time() - start_time
self.details["vnf"].update(status='FAIL', duration=duration)
return False
if self.mano['details']['nsr'].get('code') is not None:
self.logger.error("%s cannot be deployed: %s -> %s",
self.vnf['name'],
self.mano['details']['nsr'].get('code'),
self.mano['details']['nsr'].get('message'))
self.logger.error("%s cannot be deployed", self.vnf['name'])
duration = time.time() - start_time
self.details["vnf"].update(status='FAIL', duration=duration)
return False
timeout = 0
self.logger.info("Waiting for NSR to go to ACTIVE...")
while self.mano['details']['nsr'].get("status") != 'ACTIVE' \
and self.mano['details']['nsr'].get("status") != 'ERROR':
timeout += 1
self.logger.info("NSR is not yet ACTIVE... (%ss)", 60 * timeout)
if timeout == 30:
self.logger.error("INACTIVE NSR after %s sec..", 60 * timeout)
duration = time.time() - start_time
self.details["vnf"].update(status='FAIL', duration=duration)
return False
time.sleep(60)
self.mano['details']['nsr'] = json.loads(
nsr_agent.find(self.mano['details']['nsr'].get('id')))
duration = time.time() - start_time
if self.mano['details']['nsr'].get("status") == 'ACTIVE':
self.details["vnf"].update(status='PASS', duration=duration)
self.logger.info("Sleep for 60s to ensure that all "
"services are up and running...")
time.sleep(60)
result = True
else:
self.details["vnf"].update(status='FAIL', duration=duration)
self.logger.error("NSR: %s", self.mano['details'].get('nsr'))
result = False
return result
def deploy_orchestrator(self):
# pylint: disable=too-many-locals,too-many-statements
"""
Deploy Cloudify Manager.
network, security group, fip, VM creation
"""
start_time = time.time()
# orchestrator VM flavor
self.__logger.info("Get or create flavor for cloudify manager vm ...")
flavor_settings = FlavorConfig(
name="{}-{}".format(
self.orchestrator['requirements']['flavor']['name'],
self.uuid),
ram=self.orchestrator['requirements']['flavor']['ram_min'],
disk=50,
vcpus=2)
flavor_creator = OpenStackFlavor(self.snaps_creds, flavor_settings)
flavor_creator.create()
self.created_object.append(flavor_creator)
self.__logger.info("Creating a second user to bypass issues ...")
user_creator = OpenStackUser(
self.snaps_creds,
UserConfig(
name='cloudify_network_bug-{}'.format(self.uuid),
password=str(uuid.uuid4()),
project_name=self.tenant_name,
domain_name=self.snaps_creds.user_domain_name,
roles={'_member_': self.tenant_name}))
user_creator.create()
self.created_object.append(user_creator)
snaps_creds = user_creator.get_os_creds(self.snaps_creds.project_name)
self.__logger.debug("snaps creds: %s", snaps_creds)
self.__logger.info("Creating keypair ...")
kp_file = os.path.join(self.data_dir, "cloudify_ims.pem")
keypair_settings = KeypairConfig(
name='cloudify_ims_kp-{}'.format(self.uuid),
private_filepath=kp_file)
keypair_creator = OpenStackKeypair(snaps_creds, keypair_settings)
keypair_creator.create()
self.created_object.append(keypair_creator)
# needs some images
self.__logger.info("Upload some OS images if it doesn't exist")
for image_name, image_file in self.images.iteritems():
self.__logger.info("image: %s, file: %s", image_name, image_file)
if image_file and image_name:
image_creator = OpenStackImage(
snaps_creds,
ImageConfig(
name=image_name, image_user='******',
img_format='qcow2', image_file=image_file))
image_creator.create()
self.created_object.append(image_creator)
# network creation
self.__logger.info("Creating full network ...")
subnet_settings = SubnetConfig(
name='cloudify_ims_subnet-{}'.format(self.uuid),
cidr='10.67.79.0/24',
dns_nameservers=[env.get('NAMESERVER')])
network_settings = NetworkConfig(
name='cloudify_ims_network-{}'.format(self.uuid),
subnet_settings=[subnet_settings])
network_creator = OpenStackNetwork(snaps_creds, network_settings)
network_creator.create()
self.created_object.append(network_creator)
ext_net_name = snaps_utils.get_ext_net_name(snaps_creds)
router_creator = OpenStackRouter(
snaps_creds,
RouterConfig(
name='cloudify_ims_router-{}'.format(self.uuid),
external_gateway=ext_net_name,
internal_subnets=[subnet_settings.name]))
router_creator.create()
self.created_object.append(router_creator)
# security group creation
self.__logger.info("Creating security group for cloudify manager vm")
sg_rules = list()
sg_rules.append(
SecurityGroupRuleConfig(
sec_grp_name="sg-cloudify-manager-{}".format(self.uuid),
direction=Direction.ingress, protocol=Protocol.tcp,
port_range_min=1, port_range_max=65535))
sg_rules.append(
SecurityGroupRuleConfig(
sec_grp_name="sg-cloudify-manager-{}".format(self.uuid),
direction=Direction.ingress, protocol=Protocol.udp,
port_range_min=1, port_range_max=65535))
security_group_creator = OpenStackSecurityGroup(
snaps_creds,
SecurityGroupConfig(
name="sg-cloudify-manager-{}".format(self.uuid),
rule_settings=sg_rules))
security_group_creator.create()
self.created_object.append(security_group_creator)
image_settings = ImageConfig(
name=self.orchestrator['requirements']['os_image'],
image_user='******',
exists=True)
port_settings = PortConfig(
name='cloudify_manager_port-{}'.format(self.uuid),
network_name=network_settings.name)
manager_settings = VmInstanceConfig(
name='cloudify_manager-{}'.format(self.uuid),
flavor=flavor_settings.name,
port_settings=[port_settings],
security_group_names=[
security_group_creator.sec_grp_settings.name],
floating_ip_settings=[FloatingIpConfig(
name='cloudify_manager_fip-{}'.format(self.uuid),
port_name=port_settings.name,
router_name=router_creator.router_settings.name)])
manager_creator = OpenStackVmInstance(
snaps_creds, manager_settings, image_settings,
keypair_settings)
self.__logger.info("Creating cloudify manager VM")
manager_creator.create()
self.created_object.append(manager_creator)
public_auth_url = keystone_utils.get_endpoint(snaps_creds, 'identity')
cfy_creds = dict(
keystone_username=snaps_creds.username,
keystone_password=snaps_creds.password,
keystone_tenant_name=snaps_creds.project_name,
keystone_url=public_auth_url,
region=snaps_creds.region_name,
user_domain_name=snaps_creds.user_domain_name,
project_domain_name=snaps_creds.project_domain_name)
self.__logger.info("Set creds for cloudify manager %s", cfy_creds)
cfy_client = CloudifyClient(
host=manager_creator.get_floating_ip().ip,
username='******', password='******', tenant='default_tenant')
self.orchestrator['object'] = cfy_client
self.__logger.info("Attemps running status of the Manager")
for loop in range(10):
try:
self.__logger.debug(
"status %s", cfy_client.manager.get_status())
cfy_status = cfy_client.manager.get_status()['status']
self.__logger.info(
"The current manager status is %s", cfy_status)
if str(cfy_status) != 'running':
raise Exception("Cloudify Manager isn't up and running")
self.__logger.info("Put OpenStack creds in manager")
secrets_list = cfy_client.secrets.list()
for k, val in cfy_creds.iteritems():
if not any(d.get('key', None) == k for d in secrets_list):
cfy_client.secrets.create(k, val)
else:
cfy_client.secrets.update(k, val)
break
except Exception: # pylint: disable=broad-except
self.logger.info(
"try %s: Cloudify Manager isn't up and running", loop + 1)
time.sleep(30)
else:
self.logger.error("Cloudify Manager isn't up and running")
return False
duration = time.time() - start_time
if manager_creator.vm_ssh_active(block=True):
self.__logger.info("Put private keypair in manager")
ssh = manager_creator.ssh_client()
scp = SCPClient(ssh.get_transport(), socket_timeout=15.0)
scp.put(kp_file, '~/')
cmd = "sudo cp ~/cloudify_ims.pem /etc/cloudify/"
self.run_blocking_ssh_command(ssh, cmd)
cmd = "sudo chmod 444 /etc/cloudify/cloudify_ims.pem"
self.run_blocking_ssh_command(ssh, cmd)
# cmd2 is badly unpinned by Cloudify
cmd = "sudo yum install -y gcc python-devel python-cmd2"
self.run_blocking_ssh_command(
ssh, cmd, "Unable to install packages on manager")
self.run_blocking_ssh_command(ssh, 'cfy status')
else:
self.__logger.error("Cannot connect to manager")
return False
self.details['orchestrator'].update(status='PASS', duration=duration)
self.vnf['inputs'].update(dict(
external_network_name=ext_net_name,
network_name=network_settings.name,
key_pair_name=keypair_settings.name
))
self.result = 1/3 * 100
return True
def create(self,
use_custom_images=False,
use_custom_flavors=False,
create_project=False):
if create_project:
logger.debug("Creating project (tenant) for Tempest suite")
project_name = CONST.__getattribute__(
'tempest_identity_tenant_name') + self.guid
project_creator = deploy_utils.create_project(
self.os_creds,
ProjectConfig(name=project_name,
description=CONST.__getattribute__(
'tempest_identity_tenant_description')))
if (project_creator is None
or project_creator.get_project() is None):
raise Exception("Failed to create tenant")
project_id = project_creator.get_project().id
self.creators.append(project_creator)
logger.debug("Creating user for Tempest suite")
user_creator = deploy_utils.create_user(
self.os_creds,
UserConfig(
name=CONST.__getattribute__('tempest_identity_user_name') +
self.guid,
password=CONST.__getattribute__(
'tempest_identity_user_password'),
project_name=project_name))
if user_creator is None or user_creator.get_user() is None:
raise Exception("Failed to create user")
user_id = user_creator.get_user().id
self.creators.append(user_creator)
else:
project_name = None
project_id = None
user_id = None
logger.debug("Creating private network for Tempest suite")
network_creator = deploy_utils.create_network(
self.os_creds,
NetworkConfig(
name=CONST.__getattribute__('tempest_private_net_name') +
self.guid,
project_name=project_name,
subnet_settings=[
SubnetConfig(name=CONST.__getattribute__(
'tempest_private_subnet_name') + self.guid,
cidr=CONST.__getattribute__(
'tempest_private_subnet_cidr'))
]))
if network_creator is None or network_creator.get_network() is None:
raise Exception("Failed to create private network")
self.creators.append(network_creator)
image_id = None
image_id_alt = None
flavor_id = None
flavor_id_alt = None
logger.debug("Creating image for Tempest suite")
image_base_name = CONST.__getattribute__(
'openstack_image_name') + self.guid
os_image_settings = openstack_tests.cirros_image_settings(
image_base_name,
public=True,
image_metadata=self.cirros_image_config)
logger.debug("Creating image for Tempest suite")
image_creator = deploy_utils.create_image(self.os_creds,
os_image_settings)
if image_creator is None:
raise Exception('Failed to create image')
self.creators.append(image_creator)
image_id = image_creator.get_image().id
if use_custom_images:
logger.debug("Creating 2nd image for Tempest suite")
image_base_name_alt = CONST.__getattribute__(
'openstack_image_name_alt') + self.guid
os_image_settings_alt = openstack_tests.cirros_image_settings(
image_base_name_alt,
public=True,
image_metadata=self.cirros_image_config)
logger.debug("Creating 2nd image for Tempest suite")
image_creator_alt = deploy_utils.create_image(
self.os_creds, os_image_settings_alt)
if image_creator_alt is None:
raise Exception('Failed to create image')
self.creators.append(image_creator_alt)
image_id_alt = image_creator_alt.get_image().id
if (CONST.__getattribute__('tempest_use_custom_flavors') == 'True'
or use_custom_flavors):
logger.info("Creating flavor for Tempest suite")
scenario = CONST.__getattribute__('DEPLOY_SCENARIO')
flavor_metadata = None
if 'ovs' in scenario or 'fdio' in scenario:
flavor_metadata = create_flavor.MEM_PAGE_SIZE_LARGE
flavor_creator = OpenStackFlavor(
self.os_creds,
FlavorConfig(
name=CONST.__getattribute__('openstack_flavor_name') +
self.guid,
ram=CONST.__getattribute__('openstack_flavor_ram'),
disk=CONST.__getattribute__('openstack_flavor_disk'),
vcpus=CONST.__getattribute__('openstack_flavor_vcpus'),
metadata=flavor_metadata))
flavor = flavor_creator.create()
if flavor is None:
raise Exception('Failed to create flavor')
self.creators.append(flavor_creator)
flavor_id = flavor.id
if use_custom_flavors:
logger.info("Creating 2nd flavor for Tempest suite")
scenario = CONST.__getattribute__('DEPLOY_SCENARIO')
flavor_metadata_alt = None
if 'ovs' in scenario or 'fdio' in scenario:
flavor_metadata_alt = create_flavor.MEM_PAGE_SIZE_LARGE
CONST.__setattr__('openstack_flavor_ram', 1024)
flavor_creator_alt = OpenStackFlavor(
self.os_creds,
FlavorConfig(
name=CONST.__getattribute__('openstack_flavor_name_alt') +
self.guid,
ram=CONST.__getattribute__('openstack_flavor_ram'),
disk=CONST.__getattribute__('openstack_flavor_disk'),
vcpus=CONST.__getattribute__('openstack_flavor_vcpus'),
metadata=flavor_metadata_alt))
flavor_alt = flavor_creator_alt.create()
if flavor_alt is None:
raise Exception('Failed to create flavor')
self.creators.append(flavor_creator_alt)
flavor_id_alt = flavor_alt.id
print("RESOURCES CREATE: image_id: %s, image_id_alt: %s, "
"flavor_id: %s, flavor_id_alt: %s" % (
image_id,
image_id_alt,
flavor_id,
flavor_id_alt,
))
result = {
'image_id': image_id,
'image_id_alt': image_id_alt,
'flavor_id': flavor_id,
'flavor_id_alt': flavor_id_alt
}
if create_project:
result['project_id'] = project_id
result['tenant_id'] = project_id # for compatibility
result['user_id'] = user_id
return result
def deploy_orchestrator(self):
"""
Deploy Cloudify Manager.
network, security group, fip, VM creation
"""
# network creation
start_time = time.time()
self.__logger.info("Creating keypair ...")
kp_file = os.path.join(self.data_dir, "cloudify_ims.pem")
keypair_settings = KeypairConfig(name='cloudify_ims_kp',
private_filepath=kp_file)
keypair_creator = OpenStackKeypair(self.snaps_creds, keypair_settings)
keypair_creator.create()
self.created_object.append(keypair_creator)
self.__logger.info("Creating full network ...")
subnet_settings = SubnetConfig(name='cloudify_ims_subnet',
cidr='10.67.79.0/24')
network_settings = NetworkConfig(name='cloudify_ims_network',
subnet_settings=[subnet_settings])
network_creator = OpenStackNetwork(self.snaps_creds, network_settings)
network_creator.create()
self.created_object.append(network_creator)
ext_net_name = snaps_utils.get_ext_net_name(self.snaps_creds)
router_creator = OpenStackRouter(
self.snaps_creds,
RouterConfig(name='cloudify_ims_router',
external_gateway=ext_net_name,
internal_subnets=[subnet_settings.name]))
router_creator.create()
self.created_object.append(router_creator)
# security group creation
self.__logger.info("Creating security group for cloudify manager vm")
sg_rules = list()
sg_rules.append(
SecurityGroupRuleConfig(sec_grp_name="sg-cloudify-manager",
direction=Direction.ingress,
protocol=Protocol.tcp,
port_range_min=1,
port_range_max=65535))
sg_rules.append(
SecurityGroupRuleConfig(sec_grp_name="sg-cloudify-manager",
direction=Direction.ingress,
protocol=Protocol.udp,
port_range_min=1,
port_range_max=65535))
securit_group_creator = OpenStackSecurityGroup(
self.snaps_creds,
SecurityGroupConfig(name="sg-cloudify-manager",
rule_settings=sg_rules))
securit_group_creator.create()
self.created_object.append(securit_group_creator)
# orchestrator VM flavor
self.__logger.info("Get or create flavor for cloudify manager vm ...")
flavor_settings = FlavorConfig(
name=self.orchestrator['requirements']['flavor']['name'],
ram=self.orchestrator['requirements']['flavor']['ram_min'],
disk=50,
vcpus=2)
flavor_creator = OpenStackFlavor(self.snaps_creds, flavor_settings)
flavor_creator.create()
self.created_object.append(flavor_creator)
image_settings = ImageConfig(
name=self.orchestrator['requirements']['os_image'],
image_user='******',
exists=True)
port_settings = PortConfig(name='cloudify_manager_port',
network_name=network_settings.name)
manager_settings = VmInstanceConfig(
name='cloudify_manager',
flavor=flavor_settings.name,
port_settings=[port_settings],
security_group_names=[securit_group_creator.sec_grp_settings.name],
floating_ip_settings=[
FloatingIpConfig(
name='cloudify_manager_fip',
port_name=port_settings.name,
router_name=router_creator.router_settings.name)
])
manager_creator = OpenStackVmInstance(self.snaps_creds,
manager_settings, image_settings,
keypair_settings)
self.__logger.info("Creating cloudify manager VM")
manager_creator.create()
self.created_object.append(manager_creator)
public_auth_url = keystone_utils.get_endpoint(self.snaps_creds,
'identity')
self.__logger.info("Set creds for cloudify manager")
cfy_creds = dict(keystone_username=self.snaps_creds.username,
keystone_password=self.snaps_creds.password,
keystone_tenant_name=self.snaps_creds.project_name,
keystone_url=public_auth_url)
cfy_client = CloudifyClient(host=manager_creator.get_floating_ip().ip,
username='******',
password='******',
tenant='default_tenant')
self.orchestrator['object'] = cfy_client
self.__logger.info("Attemps running status of the Manager")
cfy_status = None
retry = 10
while str(cfy_status) != 'running' and retry:
try:
cfy_status = cfy_client.manager.get_status()['status']
self.__logger.debug("The current manager status is %s",
cfy_status)
except Exception: # pylint: disable=broad-except
self.__logger.warning("Cloudify Manager isn't " +
"up and running. Retrying ...")
retry = retry - 1
time.sleep(30)
if str(cfy_status) == 'running':
self.__logger.info("Cloudify Manager is up and running")
else:
raise Exception("Cloudify Manager isn't up and running")
self.__logger.info("Put OpenStack creds in manager")
secrets_list = cfy_client.secrets.list()
for k, val in cfy_creds.iteritems():
if not any(d.get('key', None) == k for d in secrets_list):
cfy_client.secrets.create(k, val)
else:
cfy_client.secrets.update(k, val)
duration = time.time() - start_time
self.__logger.info("Put private keypair in manager")
if manager_creator.vm_ssh_active(block=True):
ssh = manager_creator.ssh_client()
scp = SCPClient(ssh.get_transport(), socket_timeout=15.0)
scp.put(kp_file, '~/')
cmd = "sudo cp ~/cloudify_ims.pem /etc/cloudify/"
run_blocking_ssh_command(ssh, cmd)
cmd = "sudo chmod 444 /etc/cloudify/cloudify_ims.pem"
run_blocking_ssh_command(ssh, cmd)
cmd = "sudo yum install -y gcc python-devel"
run_blocking_ssh_command(
ssh, cmd, "Unable to install packages \
on manager")
self.details['orchestrator'].update(status='PASS', duration=duration)
self.vnf['inputs'].update(
dict(external_network_name=ext_net_name,
network_name=network_settings.name))
self.result = 1 / 3 * 100
return True
# Network
from snaps.config.network import NetworkConfig, SubnetConfig
from snaps.openstack.create_network import OpenStackNetwork
subnet_settings = SubnetConfig(name='test-subnet', cidr='10.0.0.1/24')
network_settings = NetworkConfig(name='test-net',
subnet_settings=[subnet_settings])
network = OpenStackNetwork(os_creds, network_settings)
network.create()
# Flavors
from snaps.config.flavor import FlavorConfig
from snaps.openstack.create_flavor import OpenStackFlavor
flavor_settings = FlavorConfig(name='test-flavor', ram=256, disk=10, vcpus=2)
flavor = OpenStackFlavor(os_creds, flavor_settings)
flavor.create()
# Instances
from snaps.config.network import PortConfig
from snaps.openstack.create_instance import OpenStackVmInstance
port_settings = PortConfig(name='test-port',
network_name=network_settings.name)
instance_settings = VmInstanceConfig(name='test-inst',
flavor=flavor_settings.name,
port_settings=[port_settings])
vm_inst = OpenStackVmInstance(os_creds, instance_settings, image_settings)
vm_inst.create(block=True)
def deploy_orchestrator(self): # pylint: disable=too-many-locals
"""
Create network, subnet, router
Bootstrap juju
"""
self.__logger.info("Deployed Orchestrator")
private_net_name = getattr(
CONST, 'vnf_{}_private_net_name'.format(self.case_name))
private_subnet_name = getattr(
CONST, 'vnf_{}_private_subnet_name'.format(self.case_name))
private_subnet_cidr = getattr(
CONST, 'vnf_{}_private_subnet_cidr'.format(self.case_name))
abot_router = getattr(
CONST, 'vnf_{}_external_router'.format(self.case_name))
self.__logger.info("Creating full network ...")
subnet_settings = SubnetConfig(
name=private_subnet_name, cidr=private_subnet_cidr)
network_settings = NetworkConfig(
name=private_net_name, subnet_settings=[subnet_settings])
network_creator = OpenStackNetwork(self.snaps_creds, network_settings)
net_id = network_creator.create().id
self.created_object.append(network_creator)
ext_net_name = snaps_utils.get_ext_net_name(self.snaps_creds)
self.__logger.info("Creating network Router ....")
router_creator = OpenStackRouter(
self.snaps_creds, RouterConfig(
name=abot_router,
external_gateway=ext_net_name,
internal_subnets=[subnet_settings.name]))
router_creator.create()
self.created_object.append(router_creator)
self.__logger.info("Creating Flavor ....")
flavor_settings = FlavorConfig(
name=self.orchestrator['requirements']['flavor']['name'],
ram=self.orchestrator['requirements']['flavor']['ram_min'],
disk=10, vcpus=1)
flavor_creator = OpenStackFlavor(self.snaps_creds, flavor_settings)
flavor_creator.create()
self.created_object.append(flavor_creator)
self.__logger.info("Upload some OS images if it doesn't exist")
images = get_config("tenant_images", self.config_file)
self.__logger.info("Images needed for vEPC: %s", images)
for image_name, image_file in images.iteritems():
self.__logger.info("image: %s, file: %s", image_name, image_file)
if image_file and image_name:
image_creator = OpenStackImage(self.snaps_creds, ImageConfig(
name=image_name, image_user='******', img_format='qcow2',
image_file=image_file))
image_id = image_creator.create().id
os.system(
'juju metadata generate-image -d ~ -i {} -s {} -r '
'{} -u {}'.format(
image_id, image_name,
os.environ.get(
"OS_REGION_NAME", self.default_region_name),
self.public_auth_url))
self.created_object.append(image_creator)
self.__logger.info("Credential information : %s", net_id)
juju_bootstrap_command = (
'juju bootstrap abot-epc abot-controller --config network={} '
'--metadata-source ~ --config ssl-hostname-verification=false '
'--constraints mem=2G --bootstrap-series xenial '
'--config use-floating-ip=true --debug '
'--config use-default-secgroup=true'.format(net_id))
os.system(juju_bootstrap_command)
return True
def deploy_orchestrator(self): # pylint: disable=too-many-locals
"""
Create network, subnet, router
Bootstrap juju
"""
self.__logger.info("Deployed Orchestrator")
private_net_name = getattr(
config.CONF, 'vnf_{}_private_net_name'.format(self.case_name))
private_subnet_name = '{}-{}'.format(
getattr(config.CONF,
'vnf_{}_private_subnet_name'.format(self.case_name)),
self.uuid)
private_subnet_cidr = getattr(
config.CONF, 'vnf_{}_private_subnet_cidr'.format(self.case_name))
abot_router = '{}-{}'.format(
getattr(config.CONF,
'vnf_{}_external_router'.format(self.case_name)),
self.uuid)
self.__logger.info("Creating full network ...")
subnet_settings = SubnetConfig(name=private_subnet_name,
cidr=private_subnet_cidr,
dns_nameservers=[env.get('NAMESERVER')])
network_settings = NetworkConfig(name=private_net_name,
subnet_settings=[subnet_settings])
network_creator = OpenStackNetwork(self.snaps_creds, network_settings)
net_id = network_creator.create().id
self.created_object.append(network_creator)
ext_net_name = snaps_utils.get_ext_net_name(self.snaps_creds)
self.__logger.info("Creating network Router ....")
router_creator = OpenStackRouter(
self.snaps_creds,
RouterConfig(name=abot_router,
external_gateway=ext_net_name,
internal_subnets=[subnet_settings.name]))
router_creator.create()
self.created_object.append(router_creator)
self.__logger.info("Creating Flavor ....")
flavor_settings = FlavorConfig(
name=self.orchestrator['requirements']['flavor']['name'],
ram=self.orchestrator['requirements']['flavor']['ram_min'],
disk=10,
vcpus=1)
flavor_creator = OpenStackFlavor(self.snaps_creds, flavor_settings)
flavor_creator.create()
self.created_object.append(flavor_creator)
self.__logger.info("Upload some OS images if it doesn't exist")
images = get_config("tenant_images", self.config_file)
self.__logger.info("Images needed for vEPC: %s", images)
for image_name, image_file in images.iteritems():
self.__logger.info("image: %s, file: %s", image_name, image_file)
if image_file and image_name:
image_creator = OpenStackImage(
self.snaps_creds,
ImageConfig(name=image_name,
image_user='******',
img_format='qcow2',
image_file=image_file))
image_id = image_creator.create().id
cmd = [
'timeout', '-t', JujuEpc.juju_timeout, 'juju', 'metadata',
'generate-image', '-d', '/root', '-i', image_id, '-s',
image_name, '-r', self.snaps_creds.region_name, '-u',
self.public_auth_url
]
output = subprocess.check_output(cmd, stderr=subprocess.STDOUT)
self.__logger.info("%s\n%s", " ".join(cmd), output)
self.created_object.append(image_creator)
self.__logger.info("Network ID : %s", net_id)
cmd = [
'timeout', '-t', JujuEpc.juju_timeout, 'juju', 'bootstrap',
'abot-epc', 'abot-controller', '--metadata-source', '/root',
'--constraints', 'mem=2G', '--bootstrap-series', 'xenial',
'--config', 'network={}'.format(net_id), '--config',
'ssl-hostname-verification=false', '--config',
'use-floating-ip=true', '--config', 'use-default-secgroup=true',
'--debug'
]
output = subprocess.check_output(cmd, stderr=subprocess.STDOUT)
self.__logger.info("%s\n%s", " ".join(cmd), output)
return True
def deploy_vnf(self):
"""Deploy ABOT-OAI-EPC."""
self.__logger.info("Upload VNFD")
descriptor = self.vnf['descriptor']
self.__logger.info("Get or create flavor for all Abot-EPC")
flavor_settings = FlavorConfig(
name=self.vnf['requirements']['flavor']['name'],
ram=self.vnf['requirements']['flavor']['ram_min'],
disk=10,
vcpus=1)
flavor_creator = OpenStackFlavor(self.snaps_creds, flavor_settings)
flavor_creator.create()
self.created_object.append(flavor_creator)
self.__logger.info("Deploying Abot-epc bundle file ...")
cmd = [
'timeout', '-t', JujuEpc.juju_timeout, 'juju', 'deploy',
'{}'.format(descriptor.get('file_name'))
]
output = subprocess.check_output(cmd, stderr=subprocess.STDOUT)
self.__logger.info("%s\n%s", " ".join(cmd), output)
self.__logger.info("Waiting for instances .....")
cmd = ['timeout', '-t', JujuEpc.juju_timeout, 'juju-wait']
output = subprocess.check_output(cmd, stderr=subprocess.STDOUT)
self.__logger.info("%s\n%s", " ".join(cmd), output)
self.__logger.info("Deployed Abot-epc on Openstack")
nova_client = nova_utils.nova_client(self.snaps_creds)
instances = get_instances(nova_client)
self.__logger.info("List of Instance: %s", instances)
for items in instances:
metadata = get_instance_metadata(nova_client, items)
if 'juju-units-deployed' in metadata:
sec_group = 'juju-{}-{}'.format(
metadata['juju-controller-uuid'],
metadata['juju-model-uuid'])
self.__logger.info("Instance: %s", sec_group)
break
self.__logger.info("Adding Security group rule....")
# This will add sctp rule to a common Security Group Created
# by juju and shared to all deployed units.
self._add_custom_rule(sec_group)
cmd = ['juju', 'status']
output = subprocess.check_output(cmd, stderr=subprocess.STDOUT)
self.__logger.debug("%s\n%s", " ".join(cmd), output)
for app in ['abot-epc-basic', 'oai-epc', 'oai-hss']:
if not self.check_app(app):
return False
self.__logger.info("Copying the feature files to Abot_node ")
cmd = [
'timeout', '-t', JujuEpc.juju_timeout, 'juju', 'scp', '--', '-r',
'-v', '{}/featureFiles'.format(self.case_dir),
'abot-epc-basic/0:~/'
]
output = subprocess.check_output(cmd, stderr=subprocess.STDOUT)
self.__logger.info("%s\n%s", " ".join(cmd), output)
self.__logger.info("Copying the feature files in Abot_node ")
cmd = [
'timeout', '-t', JujuEpc.juju_timeout, 'juju', 'ssh',
'abot-epc-basic/0', 'sudo', 'rsync', '-azvv', '~/featureFiles',
'/etc/rebaca-test-suite/featureFiles'
]
output = subprocess.check_output(cmd, stderr=subprocess.STDOUT)
self.__logger.info("%s\n%s", " ".join(cmd), output)
return True
def test_vnf(self):
"""Run IXIA Stress test on clearwater ims instance."""
start_time = time.time()
cfy_client = self.orchestrator['object']
outputs = cfy_client.deployments.outputs.get(
self.vnf['descriptor'].get('name'))['outputs']
dns_ip = outputs['dns_ip']
ellis_ip = outputs['ellis_ip']
self.__logger.info("Creating full IXIA network ...")
subnet_settings = SubnetConfig(name='ixia_management_subnet',
cidr='10.10.10.0/24',
dns_nameservers=[env.get('NAMESERVER')])
network_settings = NetworkConfig(name='ixia_management_network',
subnet_settings=[subnet_settings])
network_creator = OpenStackNetwork(self.snaps_creds, network_settings)
network_creator.create()
self.created_object.append(network_creator)
ext_net_name = snaps_utils.get_ext_net_name(self.snaps_creds)
router_creator = OpenStackRouter(
self.snaps_creds,
RouterConfig(name='ixia_management_router',
external_gateway=ext_net_name,
internal_subnets=[subnet_settings.name]))
router_creator.create()
self.created_object.append(router_creator)
# security group creation
self.__logger.info("Creating security groups for IXIA VMs")
sg_rules = list()
sg_rules.append(
SecurityGroupRuleConfig(sec_grp_name="ixia_management",
direction=Direction.ingress,
protocol=Protocol.tcp,
port_range_min=1,
port_range_max=65535))
sg_rules.append(
SecurityGroupRuleConfig(sec_grp_name="ixia_management",
direction=Direction.ingress,
protocol=Protocol.udp,
port_range_min=1,
port_range_max=65535))
sg_rules.append(
SecurityGroupRuleConfig(sec_grp_name="ixia_management",
direction=Direction.ingress,
protocol=Protocol.icmp))
ixia_managment_sg_settings = SecurityGroupConfig(
name="ixia_management", rule_settings=sg_rules)
securit_group_creator = OpenStackSecurityGroup(
self.snaps_creds, ixia_managment_sg_settings)
securit_group_creator.create()
self.created_object.append(securit_group_creator)
sg_rules = list()
sg_rules.append(
SecurityGroupRuleConfig(sec_grp_name="ixia_ssh_http",
direction=Direction.ingress,
protocol=Protocol.tcp,
port_range_min=1,
port_range_max=65535))
ixia_ssh_http_sg_settings = SecurityGroupConfig(name="ixia_ssh_http",
rule_settings=sg_rules)
securit_group_creator = OpenStackSecurityGroup(
self.snaps_creds, ixia_ssh_http_sg_settings)
securit_group_creator.create()
self.created_object.append(securit_group_creator)
chassis_flavor_settings = FlavorConfig(name="ixia_vChassis",
ram=4096,
disk=40,
vcpus=2)
flavor_creator = OpenStackFlavor(self.snaps_creds,
chassis_flavor_settings)
flavor_creator.create()
self.created_object.append(flavor_creator)
card_flavor_settings = FlavorConfig(name="ixia_vCard",
ram=4096,
disk=4,
vcpus=2)
flavor_creator = OpenStackFlavor(self.snaps_creds,
card_flavor_settings)
flavor_creator.create()
self.created_object.append(flavor_creator)
load_flavor_settings = FlavorConfig(name="ixia_vLoad",
ram=8192,
disk=100,
vcpus=4)
flavor_creator = OpenStackFlavor(self.snaps_creds,
load_flavor_settings)
flavor_creator.create()
self.created_object.append(flavor_creator)
chassis_image_settings = ImageConfig(
name=self.test['requirements']['chassis']['image'],
image_user='******',
exists=True)
card_image_settings = ImageConfig(
name=self.test['requirements']['card']['image'],
image_user='******',
exists=True)
load_image_settings = ImageConfig(
name=self.test['requirements']['load']['image'],
image_user='******',
exists=True)
chassis_port_settings = PortConfig(name='ixia_chassis_port',
network_name=network_settings.name)
card1_port1_settings = PortConfig(name='ixia_card1_port1',
network_name=network_settings.name)
card2_port1_settings = PortConfig(name='ixia_card2_port1',
network_name=network_settings.name)
card1_port2_settings = PortConfig(name='ixia_card1_port2',
network_name="cloudify_ims_network")
card2_port2_settings = PortConfig(name='ixia_card2_port2',
network_name="cloudify_ims_network")
load_port_settings = PortConfig(name='ixia_load_port',
network_name=network_settings.name)
chassis_settings = VmInstanceConfig(
name='ixia_vChassis',
flavor=chassis_flavor_settings.name,
port_settings=[chassis_port_settings],
security_group_names=[
ixia_ssh_http_sg_settings.name, ixia_managment_sg_settings.name
],
floating_ip_settings=[
FloatingIpConfig(
name='ixia_vChassis_fip',
port_name=chassis_port_settings.name,
router_name=router_creator.router_settings.name)
])
vm_creator = OpenStackVmInstance(self.snaps_creds, chassis_settings,
chassis_image_settings)
self.__logger.info("Creating Ixia vChassis VM")
vm_creator.create()
fip_chassis = vm_creator.get_floating_ip().ip
self.created_object.append(vm_creator)
card1_settings = VmInstanceConfig(
name='ixia_vCard1',
flavor=card_flavor_settings.name,
port_settings=[card1_port1_settings, card1_port2_settings],
security_group_names=[ixia_managment_sg_settings.name])
vm_creator = OpenStackVmInstance(self.snaps_creds, card1_settings,
card_image_settings)
self.__logger.info("Creating Ixia vCard1 VM")
vm_creator.create()
vcard_ips = list()
vcard_ips_p2 = list()
vcard_ips.append(vm_creator.get_port_ip('ixia_card1_port1'))
vcard_ips_p2.append(vm_creator.get_port_ip('ixia_card1_port2'))
self.created_object.append(vm_creator)
card2_settings = VmInstanceConfig(
name='ixia_vCard2',
flavor=card_flavor_settings.name,
port_settings=[card2_port1_settings, card2_port2_settings],
security_group_names=[ixia_managment_sg_settings.name])
vm_creator = OpenStackVmInstance(self.snaps_creds, card2_settings,
card_image_settings)
self.__logger.info("Creating Ixia vCard2 VM")
vm_creator.create()
vcard_ips.append(vm_creator.get_port_ip('ixia_card2_port1'))
vcard_ips_p2.append(vm_creator.get_port_ip('ixia_card2_port2'))
self.created_object.append(vm_creator)
load_settings = VmInstanceConfig(
name='ixia_vLoad',
flavor=load_flavor_settings.name,
port_settings=[load_port_settings],
security_group_names=[
ixia_ssh_http_sg_settings.name, ixia_managment_sg_settings.name
],
floating_ip_settings=[
FloatingIpConfig(
name='ixia_vLoad_fip',
port_name=load_port_settings.name,
router_name=router_creator.router_settings.name)
])
vm_creator = OpenStackVmInstance(self.snaps_creds, load_settings,
load_image_settings)
self.__logger.info("Creating Ixia vLoad VM")
vm_creator.create()
fip_load = vm_creator.get_floating_ip().ip
self.created_object.append(vm_creator)
self.__logger.info("Chassis IP is: %s", fip_chassis)
login_url = "https://" + str(fip_chassis) + "/api/v1/auth/session"
cards_url = "https://" + str(fip_chassis) + "/api/v2/ixos/cards/"
payload = json.dumps({
"username": "******",
"password": "******",
"rememberMe": "false"
})
api_key = json.loads(
(IxChassisUtils.ChassisRestAPI.postWithPayload(login_url,
payload)))["apiKey"]
self.__logger.info("Adding 2 card back inside the ixia chassis...")
for ip in vcard_ips:
payload = {"ipAddress": str(ip)}
response = json.loads(
IxChassisUtils.ChassisRestAPI.postOperation(
cards_url, api_key, payload))
count = 0
while (int(
IxChassisUtils.ChassisRestAPI.getWithHeaders(
response['url'], api_key)['progress']) != 100):
self.__logger.debug("Operation did not finish yet. \
Waiting for 1 more second..")
time.sleep(1)
if count > 60:
raise Exception("Adding card take more than 60 seconds")
count += 1
ssh = paramiko.SSHClient()
ssh.set_missing_host_key_policy(paramiko.MissingHostKeyPolicy())
ssh.connect(fip_chassis, username="******", password="******")
cmd = "set license-check disable"
run_blocking_ssh_command(ssh, cmd)
cmd = "restart-service ixServer"
run_blocking_ssh_command(ssh, cmd)
self.config_ellis(ellis_ip)
# Get IPs of P-CSCF
resolver = dns.resolver.Resolver()
resolver.nameservers = [dns_ip]
result = resolver.query("bono.clearwater.local")
iplistims = ''
i = 0
for rdata in result:
i = i + 1
print rdata.address
iplistims += str(rdata.address)
if i != len(result):
iplistims += ';'
kResourcesUrl = 'http://%s:%s/api/v0/resources' % (fip_load, 8080)
kRxfPath = r"REG_CALL_OPNFV_v13.rxf"
test_filname = self.test['inputs']['test_filname']
kGatewaySharedFolder = '/mnt/ixload-share/'
kRxfRelativeUploadPath = 'uploads/%s' % os.path.split(kRxfPath)[1]
kRxfAbsoluteUploadPath = os.path.join(kGatewaySharedFolder,
kRxfRelativeUploadPath)
kChassisList = [str(fip_chassis)]
dataFileNameList = [
test_filname, 'Registration_only_LPS.tst', 'SIPCall.tst'
]
kPortListPerCommunityCommunity = {
"VoIP1@VM1": [(1, 1, 1)],
"VoIP2@VM2": [(1, 2, 1)]
}
kStatsToDisplayDict = self.test['inputs']['stats']
connection = IxRestUtils.getConnection(fip_load, 8080)
self.__logger.info("Creating a new session...")
sessionUrl = IxLoadUtils.createSession(connection,
self.test['version'])
license_server = self.test['inputs']['licenseServer']
IxLoadUtils.configureLicenseServer(connection, sessionUrl,
license_server)
files_dir = os.path.join(self.case_dir, 'ixia/files')
target_file = open(os.path.join(files_dir, test_filname), 'w')
j2_env = Environment(loader=FileSystemLoader(files_dir),
trim_blocks=True)
self.test['inputs'].update(
dict(ipchassis=fip_chassis,
ipcard1=vcard_ips_p2[0],
ipcard2=vcard_ips_p2[1],
iplistims=iplistims))
target_file.write(
j2_env.get_template(test_filname + '.template').render(
self.test['inputs']))
target_file.close()
self.__logger.info('Uploading files %s...' % kRxfPath)
for dataFile in dataFileNameList:
localFilePath = os.path.join(files_dir, dataFile)
remoteFilePath = os.path.join(kGatewaySharedFolder,
'uploads/%s' % dataFile)
IxLoadUtils.uploadFile(connection, kResourcesUrl, localFilePath,
remoteFilePath)
self.__logger.info('Upload file finished.')
self.__logger.info("Loading repository %s..." % kRxfAbsoluteUploadPath)
IxLoadUtils.loadRepository(connection, sessionUrl,
kRxfAbsoluteUploadPath)
self.__logger.info("Clearing chassis list...")
IxLoadUtils.clearChassisList(connection, sessionUrl)
self.__logger.info("Adding chassis %s..." % (kChassisList))
IxLoadUtils.addChassisList(connection, sessionUrl, kChassisList)
self.__logger.info("Assigning new ports...")
IxLoadUtils.assignPorts(connection, sessionUrl,
kPortListPerCommunityCommunity)
self.__logger.info("Starting the test...")
IxLoadUtils.runTest(connection, sessionUrl)
self.__logger.info("Polling values for stats %s..." %
(kStatsToDisplayDict))
result = IxLoadUtils.pollStats(connection, sessionUrl,
kStatsToDisplayDict)
self.__logger.info("Test finished.")
self.__logger.info("Checking test status...")
testRunError = IxLoadUtils.getTestRunError(connection, sessionUrl)
self.__logger.info(result)
duration = time.time() - start_time
self.details['test_vnf'].update(status='PASS',
result=result,
duration=duration)
if testRunError:
self.__logger.info("The test exited with following error: %s" %
(testRunError))
self.details['test_vnf'].update(status='FAIL', duration=duration)
return False
else:
self.__logger.info("The test completed successfully.")
self.details['test_vnf'].update(status='PASS', duration=duration)
self.result += 1 / 3 * 100
return True
def deploy_vnf(self):
start_time = time.time()
self.__logger.info("Upload VNFD")
cfy_client = self.orchestrator['object']
descriptor = self.vnf['descriptor']
self.deployment_name = descriptor.get('name')
vrouter_blueprint_dir = os.path.join(self.data_dir,
self.util.blueprint_dir)
if not os.path.exists(vrouter_blueprint_dir):
Repo.clone_from(descriptor.get('url'),
vrouter_blueprint_dir,
branch=descriptor.get('version'))
cfy_client.blueprints.upload(
vrouter_blueprint_dir + self.util.blueprint_file_name,
descriptor.get('name'))
self.__logger.info("Get or create flavor for vrouter")
flavor_settings = FlavorConfig(
name=self.vnf['requirements']['flavor']['name'],
ram=self.vnf['requirements']['flavor']['ram_min'],
disk=25,
vcpus=1)
flavor_creator = OpenStackFlavor(self.snaps_creds, flavor_settings)
flavor = flavor_creator.create()
self.created_object.append(flavor_creator)
# set image name
glance = glance_utils.glance_client(self.snaps_creds)
image = glance_utils.get_image(glance, "vyos1.1.7")
self.vnf['inputs'].update(dict(target_vnf_image_id=image.id))
self.vnf['inputs'].update(dict(reference_vnf_image_id=image.id))
# set flavor id
self.vnf['inputs'].update(dict(target_vnf_flavor_id=flavor.id))
self.vnf['inputs'].update(dict(reference_vnf_flavor_id=flavor.id))
self.vnf['inputs'].update(dict(keystone_username=self.tenant_name))
self.vnf['inputs'].update(dict(keystone_password=self.tenant_name))
self.vnf['inputs'].update(dict(keystone_tenant_name=self.tenant_name))
self.vnf['inputs'].update(
dict(keystone_url=keystone_utils.get_endpoint(
self.snaps_creds, 'identity')))
self.__logger.info("Create VNF Instance")
cfy_client.deployments.create(descriptor.get('name'),
descriptor.get('name'),
self.vnf.get('inputs'))
wait_for_execution(cfy_client,
get_execution_id(cfy_client,
descriptor.get('name')),
self.__logger,
timeout=7200)
self.__logger.info("Start the VNF Instance deployment")
execution = cfy_client.executions.start(descriptor.get('name'),
'install')
# Show execution log
execution = wait_for_execution(cfy_client, execution, self.__logger)
duration = time.time() - start_time
self.__logger.info(execution)
if execution.status == 'terminated':
self.details['vnf'].update(status='PASS', duration=duration)
result = True
else:
self.details['vnf'].update(status='FAIL', duration=duration)
result = False
return result