def test_02_storage_migrate_root_and_data_disks(self):
primarystorage2 = self.testdata[TestData.primaryStorage2]
primary_storage_2 = StoragePool.create(self.apiClient,
primarystorage2,
clusterid=self.cluster_1.id)
primary_storage_3 = StoragePool.create(self.apiClient,
primarystorage2,
clusterid=self.cluster_2.id)
src_host, dest_host = self._get_source_and_dest_hosts()
virtual_machine = VirtualMachine.create(
self.apiClient,
self.testdata[TestData.virtualMachine],
accountid=self.account.name,
zoneid=self.zone.id,
serviceofferingid=self.compute_offering_3.id,
templateid=self.template.id,
domainid=self.domain.id,
hostid=src_host.id,
startvm=True)
cs_data_volume = Volume.create(self.apiClient,
self.testdata[TestData.volume_1],
account=self.account.name,
domainid=self.domain.id,
zoneid=self.zone.id,
diskofferingid=self.disk_offering_1.id)
self.cleanup = [
virtual_machine, cs_data_volume, primary_storage_2,
primary_storage_3
]
cs_data_volume = virtual_machine.attach_volume(self.apiClient,
cs_data_volume)
sf_account_id = sf_util.get_sf_account_id(
self.cs_api, self.account.id, self.primary_storage.id, self,
TestVMMigrationWithStorage.
_sf_account_id_should_be_non_zero_int_err_msg)
sf_volumes = sf_util.get_active_sf_volumes(self.sfe, sf_account_id)
sf_data_volume = sf_util.check_and_get_sf_volume(
sf_volumes, cs_data_volume.name, self)
sf_data_volume = self._migrate_and_verify_one_disk_only(
virtual_machine, dest_host, cs_data_volume, sf_account_id,
sf_data_volume, self.xen_session_1, self.xen_session_2)
src_host, dest_host = dest_host, src_host
self._migrate_and_verify_one_disk_only(virtual_machine, dest_host,
cs_data_volume, sf_account_id,
sf_data_volume,
self.xen_session_2,
self.xen_session_1)
def test_add_remove_host_with_solidfire_plugin_3(self):
if TestData.hypervisor_type != TestData.xenServer:
return
primarystorage = self.testdata[TestData.primaryStorage]
primary_storage = StoragePool.create(
self.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=self.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor]
)
self.cleanup.append(primary_storage)
self.virtual_machine = VirtualMachine.create(
self.apiClient,
self.testdata[TestData.virtualMachine],
accountid=self.account.name,
zoneid=self.zone.id,
serviceofferingid=self.compute_offering.id,
templateid=self.template.id,
domainid=self.domain.id,
startvm=True
)
root_volume = self._get_root_volume(self.virtual_machine)
sf_iscsi_name = sf_util.get_iqn(self.cs_api, root_volume, self)
primarystorage2 = self.testdata[TestData.primaryStorage2]
primary_storage_2 = StoragePool.create(
self.apiClient,
primarystorage2,
scope=primarystorage2[TestData.scope],
zoneid=self.zone.id,
clusterid=self.cluster.id,
provider=primarystorage2[TestData.provider],
tags=primarystorage2[TestData.tags],
capacityiops=primarystorage2[TestData.capacityIops],
capacitybytes=primarystorage2[TestData.capacityBytes],
hypervisor=primarystorage2[TestData.hypervisor]
)
self.cleanup.append(primary_storage_2)
self._perform_add_remove_xenserver_host(primary_storage.id, sf_iscsi_name)
def test_add_remove_host_with_solidfire_plugin_3(self):
if TestData.hypervisor_type != TestData.xenServer:
return
primarystorage = self.testdata[TestData.primaryStorage]
primary_storage = StoragePool.create(
self.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=self.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor])
self.cleanup.append(primary_storage)
self.virtual_machine = VirtualMachine.create(
self.apiClient,
self.testdata[TestData.virtualMachine],
accountid=self.account.name,
zoneid=self.zone.id,
serviceofferingid=self.compute_offering.id,
templateid=self.template.id,
domainid=self.domain.id,
startvm=True)
root_volume = self._get_root_volume(self.virtual_machine)
sf_iscsi_name = sf_util.get_iqn(self.cs_api, root_volume, self)
primarystorage2 = self.testdata[TestData.primaryStorage2]
primary_storage_2 = StoragePool.create(
self.apiClient,
primarystorage2,
scope=primarystorage2[TestData.scope],
zoneid=self.zone.id,
clusterid=self.cluster.id,
provider=primarystorage2[TestData.provider],
tags=primarystorage2[TestData.tags],
capacityiops=primarystorage2[TestData.capacityIops],
capacitybytes=primarystorage2[TestData.capacityBytes],
hypervisor=primarystorage2[TestData.hypervisor])
self.cleanup.append(primary_storage_2)
self._perform_add_remove_xenserver_host(primary_storage.id,
sf_iscsi_name)
def test12_primary_storage_with_zero_iops(self):
primarystorage5 = self.testdata[TestData.primaryStorage5]
primary_storage5 = StoragePool.create(
self.apiClient,
primarystorage5,
scope=primarystorage5[TestData.scope],
zoneid=self.zone.id,
clusterid=self.cluster.id,
provider=primarystorage5[TestData.provider],
tags=primarystorage5[TestData.tags],
capacityiops=primarystorage5[TestData.capacityIops],
capacitybytes=primarystorage5[TestData.capacityBytes],
hypervisor=primarystorage5[TestData.hypervisor])
self.cleanup.append(primary_storage5)
primary_storage_name = "cloudstack-" + primary_storage5.id
self.assertEqual(
any(primary_storage_name == app_instance['name']
for app_instance in self.datera_api.app_instances.list()),
True, "app instance not created")
primary_storage_url = primarystorage5[TestData.url]
self._verify_attributes(primary_storage5.id, primary_storage_url)
def create_sp_template_and_storage_pool(self, apiclient, template_name,
primary_storage, zoneid):
spapiRemote = spapi.Api.fromConfig()
logging.debug("================ %s" % spapiRemote)
sp_api = spapi.Api.fromConfig(multiCluster=True)
logging.debug("================ %s" % sp_api)
remote_cluster = self.get_remote_storpool_cluster()
logging.debug("================ %s" % remote_cluster)
newTemplate = sptypes.VolumeTemplateCreateDesc(name=template_name,
placeAll="ssd",
placeTail="ssd",
placeHead="ssd",
replication=1)
template_on_remote = spapiRemote.volumeTemplateCreate(
newTemplate, clusterName=remote_cluster)
template_on_local = spapiRemote.volumeTemplateCreate(newTemplate)
storage_pool = StoragePool.create(
apiclient,
primary_storage,
zoneid=zoneid,
)
return storage_pool, spapiRemote, sp_api
def test09_add_vm_with_datera_storage(self):
primarystorage = self.testdata[TestData.primaryStorage]
primary_storage = StoragePool.create(
self.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=self.zone.id,
clusterid=self.cluster.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor]
)
primary_storage_url = primarystorage[TestData.url]
self._verify_attributes(
primary_storage.id, primary_storage_url)
self.cleanup.append(primary_storage)
self.virtual_machine = VirtualMachine.create(
self.apiClient,
self.testdata[TestData.virtualMachine],
accountid=self.account.name,
zoneid=self.zone.id,
serviceofferingid=self.compute_offering.id,
templateid=self.template.id,
domainid=self.domain.id,
startvm=True
)
self._validate_storage(primary_storage, self.virtual_machine)
def test09_add_vm_with_datera_storage(self):
primarystorage = self.testdata[TestData.primaryStorage]
primary_storage = StoragePool.create(
self.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=self.zone.id,
clusterid=self.cluster.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor])
primary_storage_url = primarystorage[TestData.url]
self._verify_attributes(primary_storage.id, primary_storage_url)
self.cleanup.append(primary_storage)
self.virtual_machine = VirtualMachine.create(
self.apiClient,
self.testdata[TestData.virtualMachine],
accountid=self.account.name,
zoneid=self.zone.id,
serviceofferingid=self.compute_offering.id,
templateid=self.template.id,
domainid=self.domain.id,
startvm=True)
self._validate_storage(primary_storage, self.virtual_machine)
def test12_primary_storage_with_zero_iops(self):
primarystorage5 = self.testdata[TestData.primaryStorage5]
primary_storage5 = StoragePool.create(
self.apiClient,
primarystorage5,
scope=primarystorage5[TestData.scope],
zoneid=self.zone.id,
clusterid=self.cluster.id,
provider=primarystorage5[TestData.provider],
tags=primarystorage5[TestData.tags],
capacityiops=primarystorage5[TestData.capacityIops],
capacitybytes=primarystorage5[TestData.capacityBytes],
hypervisor=primarystorage5[TestData.hypervisor]
)
self.cleanup.append(primary_storage5)
primary_storage_name = "cloudstack-" + primary_storage5.id
self.assertEqual(
any(primary_storage_name == app_instance['name']
for app_instance in self.datera_api.app_instances.list()),
True, "app instance not created")
primary_storage_url = primarystorage5[TestData.url]
self._verify_attributes(
primary_storage5.id, primary_storage_url)
def test10_add_vm_with_datera_storage_and_volume(self):
primarystorage = self.testdata[TestData.primaryStorage]
primary_storage = StoragePool.create(
self.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=self.zone.id,
clusterid=self.cluster.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor]
)
primary_storage_url = primarystorage[TestData.url]
self._verify_attributes(
primary_storage.id, primary_storage_url)
self.cleanup.append(primary_storage)
self.virtual_machine = VirtualMachine.create(
self.apiClient,
self.testdata[TestData.virtualMachine],
accountid=self.account.name,
zoneid=self.zone.id,
serviceofferingid=self.compute_offering.id,
templateid=self.template.id,
domainid=self.domain.id,
startvm=True
)
self._validate_storage(primary_storage, self.virtual_machine)
volume = Volume.create(
self.apiClient,
self.testdata[TestData.volume_1],
account=self.account.name,
domainid=self.domain.id,
zoneid=self.zone.id,
diskofferingid=self.disk_offering.id
)
virtual_machine.attach_volume(
self.apiClient,
volume
)
storage_pools_response = list_storage_pools(
self.apiClient, id=primary_storage.id)
for key, value in self.xen_session.xenapi.SR.get_all_records().items():
if value['name_description'] == primary_storage.id:
xen_server_response = value
self.assertNotEqual(
int(storage_pools_response[0].disksizeused),
int(xen_server_response['physical_utilisation']))
def test10_add_vm_with_datera_storage_and_volume(self):
primarystorage = self.testdata[TestData.primaryStorage]
primary_storage = StoragePool.create(
self.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=self.zone.id,
clusterid=self.cluster.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor])
primary_storage_url = primarystorage[TestData.url]
self._verify_attributes(primary_storage.id, primary_storage_url)
self.cleanup.append(primary_storage)
self.virtual_machine = VirtualMachine.create(
self.apiClient,
self.testdata[TestData.virtualMachine],
accountid=self.account.name,
zoneid=self.zone.id,
serviceofferingid=self.compute_offering.id,
templateid=self.template.id,
domainid=self.domain.id,
startvm=True)
self._validate_storage(primary_storage, self.virtual_machine)
volume = Volume.create(self.apiClient,
self.testdata[TestData.volume_1],
account=self.account.name,
domainid=self.domain.id,
zoneid=self.zone.id,
diskofferingid=self.disk_offering.id)
virtual_machine.attach_volume(self.apiClient, volume)
storage_pools_response = list_storage_pools(self.apiClient,
id=primary_storage.id)
for key, value in self.xen_session.xenapi.SR.get_all_records().items():
if value['name_description'] == primary_storage.id:
xen_server_response = value
self.assertNotEqual(int(storage_pools_response[0].disksizeused),
int(xen_server_response['physical_utilisation']))
def test_add_remove_host_with_solidfire_plugin_2(self):
primarystorage2 = self.testdata[TestData.primaryStorage2]
primary_storage_2 = StoragePool.create(
self.apiClient,
primarystorage2,
scope=primarystorage2[TestData.scope],
zoneid=self.zone.id,
clusterid=self.cluster.id,
provider=primarystorage2[TestData.provider],
tags=primarystorage2[TestData.tags],
capacityiops=primarystorage2[TestData.capacityIops],
capacitybytes=primarystorage2[TestData.capacityBytes],
hypervisor=primarystorage2[TestData.hypervisor])
self.cleanup.append(primary_storage_2)
sf_iscsi_name = self._get_iqn_2(primary_storage_2)
self._perform_add_remove_host(primary_storage_2.id, sf_iscsi_name)
def test_add_remove_host_with_solidfire_plugin_2(self):
primarystorage2 = self.testdata[TestData.primaryStorage2]
primary_storage_2 = StoragePool.create(
self.apiClient,
primarystorage2,
scope=primarystorage2[TestData.scope],
zoneid=self.zone.id,
clusterid=self.cluster.id,
provider=primarystorage2[TestData.provider],
tags=primarystorage2[TestData.tags],
capacityiops=primarystorage2[TestData.capacityIops],
capacitybytes=primarystorage2[TestData.capacityBytes],
hypervisor=primarystorage2[TestData.hypervisor]
)
self.cleanup.append(primary_storage_2)
sf_iscsi_name = self._get_iqn_2(primary_storage_2)
self._perform_add_remove_host(primary_storage_2.id, sf_iscsi_name)
def setUp(self):
primarystorage = self.testdata[TestData.primaryStorage]
self.primary_storage = StoragePool.create(
self.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=self.zone.id,
clusterid=self.cluster.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor])
self.primary_storage_id = self.primary_storage.id
self._primary_storage = [self.primary_storage]
self.primary_tag = primarystorage[TestData.tags]
self.cleanup = [self.primary_storage]
primary_storage_url = primarystorage[TestData.url]
self._verify_priamry_storage(self.primary_storage_id,
primary_storage_url)
def setUp(self):
primarystorage = self.testdata[TestData.primaryStorage]
self.primary_storage = StoragePool.create(
self.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=self.zone.id,
clusterid=self.cluster.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor]
)
self.primary_storage_id = self.primary_storage.id
self._primary_storage = [self.primary_storage]
self.primary_tag = primarystorage[TestData.tags]
self.cleanup = [self.primary_storage]
primary_storage_url = primarystorage[TestData.url]
self._verify_priamry_storage(
self.primary_storage_id, primary_storage_url)
def setUpClass(cls):
# Set up API client
testclient = super(TestManagedClusteredFilesystems,
cls).getClsTestClient()
cls.apiClient = testclient.getApiClient()
cls.configData = testclient.getParsedTestDataConfig()
cls.dbConnection = testclient.getDbConnection()
cls.testdata = TestData().testdata
sf_util.set_supports_resign(True, cls.dbConnection)
cls._connect_to_hypervisor()
# Set up SolidFire connection
solidfire = cls.testdata[TestData.solidFire]
cls.sfe = ElementFactory.create(solidfire[TestData.mvip],
solidfire[TestData.username],
solidfire[TestData.password])
# Get Resources from Cloud Infrastructure
cls.zone = get_zone(cls.apiClient,
zone_id=cls.testdata[TestData.zoneId])
cls.template = get_template(cls.apiClient,
cls.zone.id,
hypervisor=TestData.hypervisor_type)
cls.domain = get_domain(cls.apiClient, cls.testdata[TestData.domainId])
# Create test account
cls.account = Account.create(cls.apiClient,
cls.testdata["account"],
admin=1)
# Set up connection to make customized API calls
cls.user = User.create(cls.apiClient,
cls.testdata["user"],
account=cls.account.name,
domainid=cls.domain.id)
url = cls.testdata[TestData.url]
api_url = "http://" + url + ":8080/client/api"
userkeys = User.registerUserKeys(cls.apiClient, cls.user.id)
cls.cs_api = SignedAPICall.CloudStack(api_url, userkeys.apikey,
userkeys.secretkey)
primarystorage = cls.testdata[TestData.primaryStorage]
cls.primary_storage = StoragePool.create(
cls.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor])
cls.compute_offering = ServiceOffering.create(
cls.apiClient, cls.testdata[TestData.computeOffering])
# Resources that are to be destroyed
cls._cleanup = [cls.compute_offering, cls.user, cls.account]
def setUpCloudStack(cls):
super(TestMigrationFromUuidToGlobalIdVolumes, cls).setUpClass()
cls._cleanup = []
cls.helper = HelperUtil(cls)
with open(cls.ARGS.cfg) as json_text:
cfg.logger.info(cls.ARGS.cfg)
cfg.logger.info(json_text)
conf = json.load(json_text)
cfg.logger.info(conf)
zone = conf['mgtSvr'][0].get('zone')
cls.helper.build_commit(cls.ARGS.uuid, cls.ARGS)
cfg.logger.info("Starting CloudStack")
cls.mvn_proc = subprocess.Popen(
['mvn', '-pl', ':cloud-client-ui', 'jetty:run'],
cwd=cls.ARGS.forked,
preexec_fn=os.setsid,
stdout=cfg.misc,
stderr=subprocess.STDOUT,
)
cls.mvn_proc_grp = os.getpgid(cls.mvn_proc.pid)
cfg.logger.info("Started CloudStack in process group %d",
cls.mvn_proc_grp)
cfg.logger.info("Waiting for a while to give it a chance to start")
proc = subprocess.Popen(["tail", "-f", cfg.misc_name],
shell=False,
bufsize=0,
stdout=subprocess.PIPE)
while True:
line = proc.stdout.readline()
if not line:
cfg.logger.info("tail ended, was this expected?")
cfg.logger.info("Stopping CloudStack")
os.killpg(cls.mvn_proc_grp, signal.SIGINT)
break
if "[INFO] Started Jetty Server" in line:
cfg.logger.info("got it!")
break
proc.terminate()
proc.wait()
time.sleep(15)
cfg.logger.info("Processing with the setup")
cls.obj_marvininit = cls.helper.marvin_init(cls.ARGS.cfg)
cls.testClient = cls.obj_marvininit.getTestClient()
cls.apiclient = cls.testClient.getApiClient()
dbclient = cls.testClient.getDbConnection()
v = dbclient.execute(
"select * from configuration where name='sp.migration.to.global.ids.completed'"
)
cfg.logger.info("Configuration setting for update of db is %s", v)
if len(v) > 0:
update = dbclient.execute(
"update configuration set value='false' where name='sp.migration.to.global.ids.completed'"
)
cfg.logger.info("DB configuration table was updated %s", update)
td = TestData()
cls.testdata = td.testdata
cls.services = cls.testClient.getParsedTestDataConfig()
# Get Zone, Domain and templates
cls.domain = get_domain(cls.apiclient)
cls.zone = get_zone(cls.apiclient, zone_name=zone)
cls.cluster = list_clusters(cls.apiclient)[0]
cls.hypervisor = get_hypervisor_type(cls.apiclient)
cls.host = list_hosts(cls.apiclient, zoneid=cls.zone.id)
#The version of CentOS has to be supported
cls.template = get_template(cls.apiclient,
cls.zone.id,
account="system")
if cls.template == FAILED:
assert False, "get_template() failed to return template\
with description %s" % cls.services["ostype"]
cls.services["domainid"] = cls.domain.id
cls.services["small"]["zoneid"] = cls.zone.id
cls.services["templates"]["ostypeid"] = cls.template.ostypeid
cls.services["zoneid"] = cls.zone.id
cls.sp_template_1 = "-".join(["test-ssd-b", random_gen()])
cfg.logger.info(
pprint.pformat("############################ %s" % cls.zone))
storpool_primary_storage = {
"name":
cls.sp_template_1,
"zoneid":
cls.zone.id,
"url":
"SP_API_HTTP=10.2.87.30:81;SP_AUTH_TOKEN=1234567890;SP_TEMPLATE=%s"
% cls.sp_template_1,
"scope":
"zone",
"capacitybytes":
564325555333,
"capacityiops":
155466,
"hypervisor":
"kvm",
"provider":
"StorPool",
"tags":
cls.sp_template_1
}
cls.storpool_primary_storage = storpool_primary_storage
host, port, auth = cls.getCfgFromUrl(
url=storpool_primary_storage["url"])
cls.spapi = spapi.Api(host=host, port=port, auth=auth)
storage_pool = list_storage_pools(
cls.apiclient, name=storpool_primary_storage["name"])
if storage_pool is None:
newTemplate = sptypes.VolumeTemplateCreateDesc(
name=storpool_primary_storage["name"],
placeAll="ssd",
placeTail="ssd",
placeHead="ssd",
replication=1)
template_on_local = cls.spapi.volumeTemplateCreate(newTemplate)
storage_pool = StoragePool.create(cls.apiclient,
storpool_primary_storage)
else:
storage_pool = storage_pool[0]
cls.primary_storage = storage_pool
storpool_service_offerings_ssd = {
"name": cls.sp_template_1,
"displaytext": "SP_CO_2 (Min IOPS = 10,000; Max IOPS = 15,000)",
"cpunumber": 1,
"cpuspeed": 500,
"memory": 512,
"storagetype": "shared",
"customizediops": False,
"hypervisorsnapshotreserve": 200,
"tags": cls.sp_template_1
}
service_offerings_ssd = list_service_offering(
cls.apiclient, name=storpool_service_offerings_ssd["name"])
if service_offerings_ssd is None:
service_offerings_ssd = ServiceOffering.create(
cls.apiclient, storpool_service_offerings_ssd)
else:
service_offerings_ssd = service_offerings_ssd[0]
cls.service_offering = service_offerings_ssd
cls._cleanup.append(cls.service_offering)
cfg.logger.info(pprint.pformat(cls.service_offering))
cls.sp_template_2 = "-".join(["test-ssd2-b", random_gen()])
storpool_primary_storage2 = {
"name":
cls.sp_template_2,
"zoneid":
cls.zone.id,
"url":
"SP_API_HTTP=10.2.87.30:81;SP_AUTH_TOKEN=1234567890;SP_TEMPLATE=%s"
% cls.sp_template_2,
"scope":
"zone",
"capacitybytes":
564325555333,
"capacityiops":
1554,
"hypervisor":
"kvm",
"provider":
"StorPool",
"tags":
cls.sp_template_2
}
cls.storpool_primary_storage2 = storpool_primary_storage2
storage_pool = list_storage_pools(
cls.apiclient, name=storpool_primary_storage2["name"])
if storage_pool is None:
newTemplate = sptypes.VolumeTemplateCreateDesc(
name=storpool_primary_storage2["name"],
placeAll="ssd",
placeTail="ssd",
placeHead="ssd",
replication=1)
template_on_local = cls.spapi.volumeTemplateCreate(newTemplate)
storage_pool = StoragePool.create(cls.apiclient,
storpool_primary_storage2)
else:
storage_pool = storage_pool[0]
cls.primary_storage2 = storage_pool
storpool_service_offerings_ssd2 = {
"name": cls.sp_template_2,
"displaytext": "SP_CO_2",
"cpunumber": 1,
"cpuspeed": 500,
"memory": 512,
"storagetype": "shared",
"customizediops": False,
"tags": cls.sp_template_2
}
service_offerings_ssd2 = list_service_offering(
cls.apiclient, name=storpool_service_offerings_ssd2["name"])
if service_offerings_ssd2 is None:
service_offerings_ssd2 = ServiceOffering.create(
cls.apiclient, storpool_service_offerings_ssd2)
else:
service_offerings_ssd2 = service_offerings_ssd2[0]
cls.service_offering2 = service_offerings_ssd2
cls._cleanup.append(cls.service_offering2)
os.killpg(cls.mvn_proc_grp, signal.SIGTERM)
time.sleep(30)
cls.mvn_proc = subprocess.Popen(
['mvn', '-pl', ':cloud-client-ui', 'jetty:run'],
cwd=cls.ARGS.forked,
preexec_fn=os.setsid,
stdout=cfg.misc,
stderr=subprocess.STDOUT,
)
cls.mvn_proc_grp = os.getpgid(cls.mvn_proc.pid)
cfg.logger.info("Started CloudStack in process group %d",
cls.mvn_proc_grp)
cfg.logger.info("Waiting for a while to give it a chance to start")
proc = subprocess.Popen(["tail", "-f", cfg.misc_name],
shell=False,
bufsize=0,
stdout=subprocess.PIPE)
while True:
line = proc.stdout.readline()
if not line:
cfg.logger.info("tail ended, was this expected?")
cfg.logger.info("Stopping CloudStack")
os.killpg(cls.mvn_proc_grp, signal.SIGINT)
break
if "[INFO] Started Jetty Server" in line:
cfg.logger.info("got it!")
break
proc.terminate()
proc.wait()
time.sleep(15)
disk_offering = list_disk_offering(cls.apiclient, name="Small")
disk_offering_20 = list_disk_offering(cls.apiclient, name="Medium")
disk_offering_100 = list_disk_offering(cls.apiclient, name="Large")
assert disk_offering is not None
assert disk_offering_20 is not None
assert disk_offering_100 is not None
cls.disk_offering = disk_offering[0]
cls.disk_offering_20 = disk_offering_20[0]
cls.disk_offering_100 = disk_offering_100[0]
account = list_accounts(cls.apiclient, name="admin")
cls.account = account[0]
cls.virtual_machine = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=cls.template.id,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
rootdisksize=10)
cls._cleanup.append(cls.virtual_machine)
cls.virtual_machine2 = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=cls.template.id,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
rootdisksize=10)
cls._cleanup.append(cls.virtual_machine2)
cls.virtual_machine3 = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=cls.template.id,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
rootdisksize=10)
cls._cleanup.append(cls.virtual_machine3)
cls.virtual_machine4 = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=cls.template.id,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
rootdisksize=10)
cls._cleanup.append(cls.virtual_machine4)
cls.virtual_machine5 = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=cls.template.id,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
rootdisksize=10)
cls._cleanup.append(cls.virtual_machine5)
cls.virtual_machine6 = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=cls.template.id,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
rootdisksize=10)
cls._cleanup.append(cls.virtual_machine6)
cls.volume1 = Volume.create(cls.apiclient,
cls.testdata[TestData.volume_1],
account=cls.account.name,
domainid=cls.domain.id,
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id)
cls._cleanup.append(cls.volume1)
cls.volume2 = Volume.create(cls.apiclient,
cls.testdata[TestData.volume_2],
account=cls.account.name,
domainid=cls.domain.id,
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id)
cls._cleanup.append(cls.volume2)
cls.volume3 = Volume.create(cls.apiclient,
cls.testdata[TestData.volume_3],
account=cls.account.name,
domainid=cls.domain.id,
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id)
cls._cleanup.append(cls.volume3)
cls.volume4 = Volume.create(cls.apiclient,
cls.testdata[TestData.volume_4],
account=cls.account.name,
domainid=cls.domain.id,
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id)
cls._cleanup.append(cls.volume4)
cls.volume5 = Volume.create(cls.apiclient,
cls.testdata[TestData.volume_5],
account=cls.account.name,
domainid=cls.domain.id,
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id)
cls._cleanup.append(cls.volume5)
cls.volume6 = Volume.create(cls.apiclient,
cls.testdata[TestData.volume_6],
account=cls.account.name,
domainid=cls.domain.id,
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id)
cls._cleanup.append(cls.volume6)
cls.volume7 = Volume.create(cls.apiclient,
cls.testdata[TestData.volume_7],
account=cls.account.name,
domainid=cls.domain.id,
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id)
cls.volume8 = Volume.create(cls.apiclient,
cls.testdata[TestData.volume_7],
account=cls.account.name,
domainid=cls.domain.id,
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id)
cls.virtual_machine.stop(cls.apiclient, forced=True)
cls.volume_on_sp_1 = cls.virtual_machine.attach_volume(
cls.apiclient, cls.volume1)
vol = list_volumes(cls.apiclient, id=cls.volume3.id)
cls.virtual_machine.attach_volume(cls.apiclient, cls.volume3)
cls.virtual_machine.detach_volume(cls.apiclient, cls.volume3)
vol = list_volumes(cls.apiclient, id=cls.volume3.id)
cls.volume_on_sp_3 = vol[0]
cls.virtual_machine.attach_volume(cls.apiclient, cls.volume2)
cls.virtual_machine.detach_volume(cls.apiclient, cls.volume2)
cls.virtual_machine3.attach_volume(cls.apiclient, cls.volume4)
cls.virtual_machine3.detach_volume(cls.apiclient, cls.volume4)
cls.virtual_machine.attach_volume(cls.apiclient, cls.volume5)
cls.virtual_machine.detach_volume(cls.apiclient, cls.volume5)
cls.virtual_machine.attach_volume(cls.apiclient, cls.volume6)
cls.virtual_machine.detach_volume(cls.apiclient, cls.volume6)
cls.virtual_machine.attach_volume(cls.apiclient, cls.volume7)
cls.virtual_machine.detach_volume(cls.apiclient, cls.volume7)
cls.virtual_machine.attach_volume(cls.apiclient, cls.volume8)
cls.virtual_machine.detach_volume(cls.apiclient, cls.volume8)
cls.virtual_machine.start(cls.apiclient)
list_root = list_volumes(cls.apiclient,
virtualmachineid=cls.virtual_machine5.id,
type="ROOT")
cls.snapshot_uuid1 = Snapshot.create(cls.apiclient,
volume_id=list_root[0].id)
cls._cleanup.append(cls.snapshot_uuid1)
cls.snapshot_uuid2 = Snapshot.create(cls.apiclient,
volume_id=list_root[0].id)
cls._cleanup.append(cls.snapshot_uuid2)
#Snapshot on secondary
cls.helper.bypass_secondary(False)
cls.snapshot_uuid_on_secondary = Snapshot.create(
cls.apiclient, volume_id=list_root[0].id)
cls._cleanup.append(cls.snapshot_uuid_on_secondary)
cls.snapshot_uuid3 = Snapshot.create(cls.apiclient,
volume_id=cls.volume7.id)
cls._cleanup.append(cls.snapshot_uuid3)
cls.snapshot_uuid4 = Snapshot.create(cls.apiclient,
volume_id=cls.volume7.id)
cls._cleanup.append(cls.snapshot_uuid4)
cls.snapshot_uuid_bypassed = Snapshot.create(cls.apiclient,
volume_id=list_root[0].id)
cls._cleanup.append(cls.snapshot_uuid_bypassed)
Volume.delete(cls.volume7, cls.apiclient)
cls.helper.switch_to_globalid_commit(cls.ARGS.globalid, cls.ARGS)
cfg.logger.info("The setup is done, proceeding with the tests")
def setUpClass(cls):
testClient = super(TestStoragePool, cls).getClsTestClient()
cls.apiclient = testClient.getApiClient()
cls.unsupportedHypervisor = False
cls.hypervisor = testClient.getHypervisorInfo()
if cls.hypervisor.lower() in ("hyperv", "lxc"):
cls.unsupportedHypervisor = True
return
cls.services = testClient.getParsedTestDataConfig()
# Get Zone, Domain and templates
cls.domain = get_domain(cls.apiclient)
cls.zone = get_zone(cls.apiclient, testClient.getZoneForTests())
storpool_primary_storage = {
"name": "cloudLocal",
"zoneid": cls.zone.id,
"url": "cloudLocal",
"scope": "zone",
"capacitybytes": 4500000,
"capacityiops": 155466464221111121,
"hypervisor": "kvm",
"provider": "StorPool",
"tags": "cloudLocal"
}
storpool_service_offerings = {
"name": "tags",
"displaytext": "SP_CO_2 (Min IOPS = 10,000; Max IOPS = 15,000)",
"cpunumber": 1,
"cpuspeed": 500,
"memory": 512,
"storagetype": "shared",
"customizediops": False,
"hypervisorsnapshotreserve": 200,
"tags": "test_tags"
}
storage_pool = list_storage_pools(cls.apiclient, name='cloudLocal')
service_offerings = list_service_offering(cls.apiclient, name='tags')
disk_offerings = list_disk_offering(cls.apiclient, name="Small")
cls.debug(pprint.pformat(storage_pool))
if storage_pool is None:
storage_pool = StoragePool.create(cls.apiclient,
storpool_primary_storage)
else:
storage_pool = storage_pool[0]
cls.debug(pprint.pformat(storage_pool))
if service_offerings is None:
service_offerings = ServiceOffering.create(
cls.apiclient, storpool_service_offerings)
else:
service_offerings = service_offerings[0]
#The version of CentOS has to be supported
template = get_template(apiclient=cls.apiclient,
zone_id=cls.zone.id,
template_filter='self',
template_name="centos6",
domain_id=cls.domain.id,
hypervisor=cls.hypervisor)
cls.debug(pprint.pformat(template))
cls.debug(pprint.pformat(cls.hypervisor))
if template == FAILED:
assert False, "get_template() failed to return template\
with description %s" % cls.services["ostype"]
cls.services["domainid"] = cls.domain.id
cls.services["small"]["zoneid"] = cls.zone.id
cls.services["templates"]["ostypeid"] = template.ostypeid
cls.services["zoneid"] = cls.zone.id
cls.service_offering = service_offerings
cls.debug(pprint.pformat(cls.service_offering))
cls.volume_1 = Volume.create(
cls.apiclient,
{"diskname": "StorPoolDisk-1"},
zoneid=cls.zone.id,
diskofferingid=disk_offerings[0].id,
)
cls.volume_2 = Volume.create(
cls.apiclient,
{"diskname": "StorPoolDisk-2"},
zoneid=cls.zone.id,
diskofferingid=disk_offerings[0].id,
)
cls.virtual_machine = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%d" % random.randint(0, 100)},
zoneid=cls.zone.id,
templateid=template.id,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
rootdisksize=10)
cls.random_data_0 = random_gen(size=100)
cls.test_dir = "/tmp"
cls.random_data = "random.data"
cls._cleanup = []
cls._cleanup.append(cls.virtual_machine)
cls._cleanup.append(cls.volume_1)
cls._cleanup.append(cls.volume_2)
return
def test_vag_per_host_5(self):
hosts = list_hosts(self.apiClient, clusterid=self.cluster.id)
self.assertTrue(
len(hosts) >= 2,
"There needs to be at least two hosts."
)
unique_vag_ids = self._get_unique_vag_ids(hosts)
self.assertTrue(len(hosts) == len(unique_vag_ids), "To run this test, each host should be in its own VAG.")
primarystorage = self.testdata[TestData.primaryStorage]
primary_storage = StoragePool.create(
self.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=self.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor]
)
self.cleanup.append(primary_storage)
self.virtual_machine = VirtualMachine.create(
self.apiClient,
self.testdata[TestData.virtualMachine],
accountid=self.account.name,
zoneid=self.zone.id,
serviceofferingid=self.compute_offering.id,
templateid=self.template.id,
domainid=self.domain.id,
startvm=True
)
root_volume = self._get_root_volume(self.virtual_machine)
sf_account_id = sf_util.get_sf_account_id(self.cs_api, self.account.id, primary_storage.id, self, TestAddRemoveHosts._sf_account_id_should_be_non_zero_int_err_msg)
sf_volumes = sf_util.get_active_sf_volumes(self.sfe, sf_account_id)
sf_volume = sf_util.check_and_get_sf_volume(sf_volumes, root_volume.name, self)
sf_vag_ids = sf_util.get_vag_ids(self.cs_api, self.cluster.id, primary_storage.id, self)
sf_util.check_vags(sf_volume, sf_vag_ids, self)
host = Host(hosts[0].__dict__)
host_iqn = self._get_host_iqn(host)
all_vags = sf_util.get_all_vags(self.sfe)
host_vag = self._get_host_vag(host_iqn, all_vags)
self.assertTrue(host_vag != None, "The host should be in a VAG.")
host.delete(self.apiClient)
sf_volumes = sf_util.get_active_sf_volumes(self.sfe, sf_account_id)
sf_volume = sf_util.check_and_get_sf_volume(sf_volumes, root_volume.name, self)
sf_util.check_vags(sf_volume, sf_vag_ids, self)
all_vags = sf_util.get_all_vags(self.sfe)
host_vag = self._get_host_vag(host_iqn, all_vags)
self.assertTrue(host_vag == None, "The host should not be in a VAG.")
details = {
TestData.username: "******",
TestData.password: "******",
TestData.url: "http://" + host.ipaddress,
TestData.podId : host.podid,
TestData.zoneId: host.zoneid
}
host = Host.create(
self.apiClient,
self.cluster,
details,
hypervisor=host.hypervisor
)
self.assertTrue(
isinstance(host, Host),
"'host' is not a 'Host'."
)
hosts = list_hosts(self.apiClient, clusterid=self.cluster.id)
unique_vag_ids = self._get_unique_vag_ids(hosts)
self.assertTrue(len(hosts) == len(unique_vag_ids) + 1, "There should be one more host than unique VAG.")
def setUpClass(cls):
# Set up API client
testclient = super(TestVMMigrationWithStorage, cls).getClsTestClient()
cls.apiClient = testclient.getApiClient()
cls.configData = testclient.getParsedTestDataConfig()
cls.dbConnection = testclient.getDbConnection()
cls.testdata = TestData().testdata
xenserver = cls.testdata[TestData.xenServer]
# Set up xenAPI connection
host_ip = "https://" + \
list_hosts(cls.apiClient, clusterid=cls.testdata[TestData.clusterId1], name="XenServer-6.5-1")[0].ipaddress
# Set up XenAPI connection
cls.xen_session_1 = XenAPI.Session(host_ip)
cls.xen_session_1.xenapi.login_with_password(
xenserver[TestData.username], xenserver[TestData.password])
# Set up xenAPI connection
host_ip = "https://" + \
list_hosts(cls.apiClient, clusterid=cls.testdata[TestData.clusterId2], name="XenServer-6.5-3")[0].ipaddress
# Set up XenAPI connection
cls.xen_session_2 = XenAPI.Session(host_ip)
cls.xen_session_2.xenapi.login_with_password(
xenserver[TestData.username], xenserver[TestData.password])
# Set up SolidFire connection
solidfire = cls.testdata[TestData.solidFire]
cls.sfe = ElementFactory.create(solidfire[TestData.mvip],
solidfire[TestData.username],
solidfire[TestData.password])
# Get Resources from Cloud Infrastructure
cls.zone = get_zone(cls.apiClient,
zone_id=cls.testdata[TestData.zoneId])
cls.cluster_1 = list_clusters(cls.apiClient,
id=cls.testdata[TestData.clusterId1])[0]
cls.cluster_2 = list_clusters(cls.apiClient,
id=cls.testdata[TestData.clusterId2])[0]
cls.template = get_template(cls.apiClient, cls.zone.id,
cls.configData["ostype"])
cls.domain = get_domain(cls.apiClient, cls.testdata[TestData.domainId])
# Create test account
cls.account = Account.create(cls.apiClient,
cls.testdata["account"],
admin=1)
# Set up connection to make customized API calls
cls.user = User.create(cls.apiClient,
cls.testdata["user"],
account=cls.account.name,
domainid=cls.domain.id)
url = cls.testdata[TestData.url]
api_url = "http://" + url + ":8080/client/api"
userkeys = User.registerUserKeys(cls.apiClient, cls.user.id)
cls.cs_api = SignedAPICall.CloudStack(api_url, userkeys.apikey,
userkeys.secretkey)
primarystorage = cls.testdata[TestData.primaryStorage]
cls.primary_storage = StoragePool.create(cls.apiClient, primarystorage)
cls.compute_offering_1 = ServiceOffering.create(
cls.apiClient, cls.testdata[TestData.computeOffering1])
cls.compute_offering_2 = ServiceOffering.create(
cls.apiClient, cls.testdata[TestData.computeOffering2])
cls.compute_offering_3 = ServiceOffering.create(
cls.apiClient, cls.testdata[TestData.computeOffering3])
cls.disk_offering_1 = DiskOffering.create(
cls.apiClient, cls.testdata[TestData.diskOffering1])
cls.disk_offering_2 = DiskOffering.create(
cls.apiClient, cls.testdata[TestData.diskOffering2])
# Resources that are to be destroyed
cls._cleanup = [
cls.compute_offering_1, cls.compute_offering_2,
cls.compute_offering_3, cls.disk_offering_1, cls.disk_offering_2,
cls.user, cls.account
]
def setUpCloudStack(cls):
cls._cleanup = []
cls.spapi = spapi.Api.fromConfig(multiCluster=True)
testClient = super(TestStoragePool, cls).getClsTestClient()
cls.apiclient = testClient.getApiClient()
cls.unsupportedHypervisor = False
cls.hypervisor = testClient.getHypervisorInfo()
if cls.hypervisor.lower() in ("hyperv", "lxc"):
cls.unsupportedHypervisor = True
return
cls.services = testClient.getParsedTestDataConfig()
# Get Zone, Domain and templates
cls.domain = get_domain(cls.apiclient)
cls.zone = None
zones = list_zones(cls.apiclient)
for z in zones:
if z.internaldns1 == cls.getClsConfig().mgtSvr[0].mgtSvrIp:
cls.zone = z
cls.debug("##################### zone %s" % cls.zone)
td = TestData()
cls.testdata = td.testdata
cls.helper = StorPoolHelper()
storpool_primary_storage = {
"name": "ssd",
TestData.scope: "ZONE",
"url": "ssd",
TestData.provider: "StorPool",
"path": "/dev/storpool",
TestData.capacityBytes: 2251799813685248,
TestData.hypervisor: "KVM"
}
storpool_without_qos = {
"name": "ssd",
"displaytext": "ssd",
"cpunumber": 1,
"cpuspeed": 500,
"memory": 512,
"storagetype": "shared",
"customizediops": False,
"hypervisorsnapshotreserve": 200,
"tags": "ssd"
}
storpool_qos_template = {
"name": "qos",
"displaytext": "qos",
"cpunumber": 1,
"cpuspeed": 500,
"memory": 512,
"storagetype": "shared",
"customizediops": False,
"hypervisorsnapshotreserve": 200,
"tags": "ssd"
}
disk_offering_ssd = {
"name": "ssd",
"displaytext": "SP_DO_1 (5GB Min IOPS = 300; Max IOPS = 500)",
"disksize": 10,
"customizediops": False,
"hypervisorsnapshotreserve": 200,
TestData.tags: "ssd",
"storagetype": "shared"
}
disk_offering_qos = {
"name": "qos",
"displaytext": "SP_DO_1 (5GB Min IOPS = 300; Max IOPS = 500)",
"disksize": 10,
"customizediops": False,
"hypervisorsnapshotreserve": 200,
TestData.tags: "ssd",
"storagetype": "shared"
}
cls.template_name = storpool_primary_storage.get("name")
cls.template_name_2 = "qos"
storage_pool = list_storage_pools(cls.apiclient, name="ssd")
cls.primary_storage = storage_pool[0]
if storage_pool is None:
storage_pool = StoragePool.create(cls.apiclient,
storpool_primary_storage)
else:
storage_pool = storage_pool[0]
cls.storage_pool = storage_pool
cls.debug(pprint.pformat(storage_pool))
service_offerings_ssd = list_service_offering(cls.apiclient,
name=cls.template_name)
service_offerings_qos = list_service_offering(cls.apiclient,
name=cls.template_name_2)
if service_offerings_ssd is None:
service_offerings_ssd = ServiceOffering.create(
cls.apiclient, storpool_without_qos)
else:
service_offerings_ssd = service_offerings_ssd[0]
if service_offerings_qos is None:
service_offerings_qos = ServiceOffering.create(
cls.apiclient, storpool_qos_template)
ResourceDetails.create(cls.apiclient,
resourceid=service_offerings_qos.id,
resourcetype="ServiceOffering",
details={"SP_TEMPLATE": "qos"},
fordisplay=True)
else:
service_offerings_qos = service_offerings_qos[0]
cls.service_offering_ssd = service_offerings_ssd
cls.service_offering_qos = service_offerings_qos
cls.disk_offering_ssd = list_disk_offering(cls.apiclient,
name=cls.template_name)
cls.disk_offering_qos = list_disk_offering(cls.apiclient,
name=cls.template_name_2)
if cls.disk_offering_ssd is None:
cls.disk_offering_ssd = DiskOffering.create(
cls.apiclient, disk_offering_ssd)
else:
cls.disk_offering_ssd = cls.disk_offering_ssd[0]
if cls.disk_offering_qos is None:
cls.disk_offering_qos = DiskOffering.create(
cls.apiclient, disk_offering_qos)
ResourceDetails.create(cls.apiclient,
resourceid=cls.disk_offering_qos.id,
resourcetype="DiskOffering",
details={"SP_TEMPLATE": "qos"},
fordisplay=True)
else:
cls.disk_offering_qos = cls.disk_offering_qos[0]
#The version of CentOS has to be supported
template = get_template(cls.apiclient, cls.zone.id, account="system")
if template == FAILED:
assert False, "get_template() failed to return template\
with description %s" % cls.services["ostype"]
cls.services["domainid"] = cls.domain.id
cls.services["small"]["zoneid"] = cls.zone.id
cls.services["templates"]["ostypeid"] = template.ostypeid
cls.services["zoneid"] = cls.zone.id
cls.services["diskofferingid"] = cls.disk_offering_ssd.id
cls.account = cls.helper.create_account(cls.apiclient,
cls.services["account"],
accounttype=1,
domainid=cls.domain.id,
roleid=1)
cls._cleanup.append(cls.account)
securitygroup = SecurityGroup.list(cls.apiclient,
account=cls.account.name,
domainid=cls.account.domainid)[0]
cls.helper.set_securityGroups(cls.apiclient,
account=cls.account.name,
domainid=cls.account.domainid,
id=securitygroup.id)
cls.volume_1 = Volume.create(cls.apiclient,
cls.services,
account=cls.account.name,
domainid=cls.account.domainid)
cls.volume_2 = Volume.create(cls.apiclient,
cls.services,
account=cls.account.name,
domainid=cls.account.domainid)
cls.virtual_machine = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=template.id,
accountid=cls.account.name,
domainid=cls.account.domainid,
serviceofferingid=cls.service_offering_ssd.id,
hypervisor=cls.hypervisor,
rootdisksize=10)
cls.virtual_machine.attach_volume(cls.apiclient, cls.volume_1)
cls.virtual_machine.attach_volume(cls.apiclient, cls.volume_2)
cls.template = template
cls.hostid = cls.virtual_machine.hostid
cls.random_data_0 = random_gen(size=100)
cls.test_dir = "/tmp"
cls.random_data = "random.data"
return
def setUpClass(cls):
# Set up API client
testclient = super(TestUploadDownload, cls).getClsTestClient()
cls.apiClient = testclient.getApiClient()
cls.configData = testclient.getParsedTestDataConfig()
cls.dbConnection = testclient.getDbConnection()
cls.testdata = TestData().testdata
# Set up SolidFire connection
solidfire = cls.testdata[TestData.solidFire]
cls.sfe = ElementFactory.create(solidfire[TestData.mvip],
solidfire[TestData.username],
solidfire[TestData.password])
# Get Resources from Cloud Infrastructure
cls.zone = get_zone(cls.apiClient,
zone_id=cls.testdata[TestData.zoneId])
cls.cluster = list_clusters(cls.apiClient)[0]
cls.template = get_template(cls.apiClient,
cls.zone.id,
hypervisor=TestData.hypervisor_type)
cls.domain = get_domain(cls.apiClient, cls.testdata[TestData.domainId])
# Create test account
cls.account = Account.create(cls.apiClient,
cls.testdata[TestData.account],
admin=1)
# Set up connection to make customized API calls
user = User.create(cls.apiClient,
cls.testdata[TestData.user],
account=cls.account.name,
domainid=cls.domain.id)
url = cls.testdata[TestData.url]
api_url = "http://" + url + ":8080/client/api"
userkeys = User.registerUserKeys(cls.apiClient, user.id)
cls.cs_api = SignedAPICall.CloudStack(api_url, userkeys.apikey,
userkeys.secretkey)
primarystorage = cls.testdata[TestData.primaryStorage]
cls.primary_storage = StoragePool.create(
cls.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor])
compute_offering = ServiceOffering.create(
cls.apiClient, cls.testdata[TestData.computeOffering])
cls.disk_offering = DiskOffering.create(
cls.apiClient, cls.testdata[TestData.diskOffering], custom=True)
# Create VM and volume for tests
cls.virtual_machine = VirtualMachine.create(
cls.apiClient,
cls.testdata[TestData.virtualMachine],
accountid=cls.account.name,
zoneid=cls.zone.id,
serviceofferingid=compute_offering.id,
templateid=cls.template.id,
domainid=cls.domain.id,
startvm=True)
cls._cleanup = [compute_offering, cls.disk_offering, user, cls.account]
def setUpCloudStack(cls):
super(TestRenameObjectsWithUuids, cls).setUpClass()
cls.spapi = spapi.Api.fromConfig(multiCluster=True)
cls.helper = HelperUtil(cls)
cls._cleanup = []
testClient = super(TestRenameObjectsWithUuids, cls).getClsTestClient()
cls.apiclient = testClient.getApiClient()
cls.unsupportedHypervisor = False
cls.hypervisor = testClient.getHypervisorInfo()
if cls.hypervisor.lower() in ("hyperv", "lxc"):
cls.unsupportedHypervisor = True
return
cls.services = testClient.getParsedTestDataConfig()
# Get Zone, Domain and templates
cls.domain = get_domain(cls.apiclient)
cls.zone = None
zones = list_zones(cls.apiclient)
for z in zones:
if z.internaldns1 == cls.getClsConfig().mgtSvr[0].mgtSvrIp:
cls.zone = z
storpool_primary_storage = {
"name" : "ssd",
"zoneid": cls.zone.id,
"url": "ssd",
"scope": "zone",
"capacitybytes": 4500000,
"capacityiops": 155466464221111121,
"hypervisor": "kvm",
"provider": "StorPool",
"tags": "ssd"
}
storpool_service_offerings = {
"name": "ssd",
"displaytext": "SP_CO_2 (Min IOPS = 10,000; Max IOPS = 15,000)",
"cpunumber": 1,
"cpuspeed": 500,
"memory": 512,
"storagetype": "shared",
"customizediops": False,
"hypervisorsnapshotreserve": 200,
"tags": "ssd"
}
storage_pool = list_storage_pools(
cls.apiclient,
name='ssd'
)
service_offerings = list_service_offering(
cls.apiclient,
name='ssd'
)
disk_offerings = list_disk_offering(
cls.apiclient,
name="Small"
)
disk_offering_20 = list_disk_offering(
cls.apiclient,
name="Medium"
)
disk_offering_100 = list_disk_offering(
cls.apiclient,
name="Large"
)
cls.disk_offering = disk_offerings[0]
cls.disk_offering_20 = disk_offering_20[0]
cls.disk_offering_100 = disk_offering_100[0]
cls.debug(pprint.pformat(storage_pool))
if storage_pool is None:
storage_pool = StoragePool.create(cls.apiclient, storpool_primary_storage)
else:
storage_pool = storage_pool[0]
cls.storage_pool = storage_pool
cls.debug(pprint.pformat(storage_pool))
if service_offerings is None:
service_offerings = ServiceOffering.create(cls.apiclient, storpool_service_offerings)
else:
service_offerings = service_offerings[0]
#The version of CentOS has to be supported
template = get_template(
cls.apiclient,
cls.zone.id,
account = "system"
)
cls.pools = StoragePool.list(cls.apiclient, zoneid=cls.zone.id)
cls.debug(pprint.pformat(template))
cls.debug(pprint.pformat(cls.hypervisor))
if template == FAILED:
assert False, "get_template() failed to return template\
with description %s" % cls.services["ostype"]
cls.services["domainid"] = cls.domain.id
cls.services["small"]["zoneid"] = cls.zone.id
cls.services["templates"]["ostypeid"] = template.ostypeid
cls.services["zoneid"] = cls.zone.id
cls.service_offering = service_offerings
cls.debug(pprint.pformat(cls.service_offering))
cls.local_cluster = cls.get_local_cluster(zoneid = cls.zone.id)
cls.host = cls.list_hosts_by_cluster_id(cls.local_cluster.id)
assert len(cls.host) > 1, "Hosts list is less than 1"
cls.host_on_local_1 = cls.host[0]
cls.host_on_local_2 = cls.host[1]
cls.remote_cluster = cls.get_remote_cluster(zoneid = cls.zone.id)
cls.host_remote = cls.list_hosts_by_cluster_id(cls.remote_cluster.id)
assert len(cls.host_remote) > 1, "Hosts list is less than 1"
cls.host_on_remote1 = cls.host_remote[0]
cls.host_on_remote2 = cls.host_remote[1]
cls.volume_1 = Volume.create(
cls.apiclient,
{"diskname":"StorPoolDisk-1" },
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id,
)
cls._cleanup.append(cls.volume_1)
cls.volume = Volume.create(
cls.apiclient,
{"diskname":"StorPoolDisk-3" },
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id,
)
cls._cleanup.append(cls.volume)
cls.virtual_machine = VirtualMachine.create(
cls.apiclient,
{"name":"StorPool-%s" % uuid.uuid4() },
zoneid=cls.zone.id,
templateid=template.id,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
hostid = cls.host_on_local_1.id,
rootdisksize=10
)
cls.volume_on_remote = Volume.create(
cls.apiclient,
{"diskname":"StorPoolDisk-3" },
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id,
)
cls._cleanup.append(cls.volume_on_remote)
cls.virtual_machine_on_remote = VirtualMachine.create(
cls.apiclient,
{"name":"StorPool-%s" % uuid.uuid4() },
zoneid=cls.zone.id,
templateid=template.id,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
hostid = cls.host_on_remote1.id,
rootdisksize=10
)
cls.template = template
cls.random_data_0 = random_gen(size=100)
cls.test_dir = "/tmp"
cls.random_data = "random.data"
return
def test_01_create_system_vms_on_managed_storage(self):
self._disable_zone_and_delete_system_vms(None, False)
primary_storage = self.testdata[TestData.primaryStorage]
primary_storage_1 = StoragePool.create(
self.apiClient,
primary_storage
)
self._prepare_to_use_managed_storage_for_system_vms()
enabled = "Enabled"
self.zone.update(self.apiClient, id=self.zone.id, allocationstate=enabled)
system_vms = self._wait_for_and_get_running_system_vms(2)
virtual_machine = VirtualMachine.create(
self.apiClient,
self.testdata[TestData.virtualMachine],
accountid=self.account.name,
zoneid=self.zone.id,
serviceofferingid=self.compute_offering.id,
templateid=self.template.id,
domainid=self.domain.id,
startvm=True
)
# This virtual machine was only created and started so that the virtual router would be created and started.
# Just delete this virtual machine once it has been created and started.
virtual_machine.delete(self.apiClient, True)
virtual_router = list_routers(self.apiClient, listall=True, state="Running")[0]
system_vms.append(virtual_router)
self._check_system_vms(system_vms, primary_storage_1.id)
primary_storage[TestData.name] = TestData.get_name_for_solidfire_storage()
primary_storage_2 = StoragePool.create(
self.apiClient,
primary_storage
)
StoragePool.enableMaintenance(self.apiClient, primary_storage_1.id)
self._wait_for_storage_cleanup_thread(system_vms)
sf_util.purge_solidfire_volumes(self.sfe)
system_vms = self._wait_for_and_get_running_system_vms(2)
virtual_router = list_routers(self.apiClient, listall=True, state="Running")[0]
system_vms.append(virtual_router)
self._check_system_vms(system_vms, primary_storage_2.id)
StoragePool.cancelMaintenance(self.apiClient, primary_storage_1.id)
primary_storage_1.delete(self.apiClient)
self._disable_zone_and_delete_system_vms(virtual_router)
self._wait_for_storage_cleanup_thread(system_vms)
sf_util.purge_solidfire_volumes(self.sfe)
primary_storage_2.delete(self.apiClient)
self._verify_no_active_solidfire_volumes()
self._prepare_to_stop_using_managed_storage_for_system_vms()
self.zone.update(self.apiClient, id=self.zone.id, allocationstate=enabled)
self._wait_for_and_get_running_system_vms(2)
def setUpClass(cls):
# Set up API client
testclient = super(TestVolumes, cls).getClsTestClient()
cls.apiClient = testclient.getApiClient()
cls.configData = testclient.getParsedTestDataConfig()
cls.dbConnection = testclient.getDbConnection()
cls.testdata = TestData().testdata
cls.supports_resign = True
sf_util.set_supports_resign(cls.supports_resign, cls.dbConnection)
# Set up xenAPI connection
host_ip = "https://" + \
list_hosts(cls.apiClient, clusterid=cls.testdata[TestData.clusterId], name="XenServer-6.5-1")[0].ipaddress
# Set up XenAPI connection
cls.xen_session = XenAPI.Session(host_ip)
xenserver = cls.testdata[TestData.xenServer]
cls.xen_session.xenapi.login_with_password(xenserver[TestData.username], xenserver[TestData.password])
# Set up SolidFire connection
solidfire = cls.testdata[TestData.solidFire]
cls.sfe = ElementFactory.create(solidfire[TestData.mvip], solidfire[TestData.username], solidfire[TestData.password])
# Get Resources from Cloud Infrastructure
cls.zone = get_zone(cls.apiClient, zone_id=cls.testdata[TestData.zoneId])
cls.cluster = list_clusters(cls.apiClient)[0]
cls.template = get_template(cls.apiClient, cls.zone.id, cls.configData["ostype"])
cls.domain = get_domain(cls.apiClient, cls.testdata[TestData.domainId])
# Create test account
cls.account = Account.create(
cls.apiClient,
cls.testdata["account"],
admin=1
)
# Set up connection to make customized API calls
cls.user = User.create(
cls.apiClient,
cls.testdata["user"],
account=cls.account.name,
domainid=cls.domain.id
)
url = cls.testdata[TestData.url]
api_url = "http://" + url + ":8080/client/api"
userkeys = User.registerUserKeys(cls.apiClient, cls.user.id)
cls.cs_api = SignedAPICall.CloudStack(api_url, userkeys.apikey, userkeys.secretkey)
primarystorage = cls.testdata[TestData.primaryStorage]
cls.primary_storage = StoragePool.create(
cls.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor]
)
cls.compute_offering = ServiceOffering.create(
cls.apiClient,
cls.testdata[TestData.computeOffering]
)
cls.disk_offering = DiskOffering.create(
cls.apiClient,
cls.testdata[TestData.diskOffering]
)
# Create VM and volume for tests
cls.virtual_machine = VirtualMachine.create(
cls.apiClient,
cls.testdata[TestData.virtualMachine],
accountid=cls.account.name,
zoneid=cls.zone.id,
serviceofferingid=cls.compute_offering.id,
templateid=cls.template.id,
domainid=cls.domain.id,
startvm=True
)
cls.volume = Volume.create(
cls.apiClient,
cls.testdata[TestData.volume_1],
account=cls.account.name,
domainid=cls.domain.id,
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id
)
# Resources that are to be destroyed
cls._cleanup = [
cls.volume,
cls.virtual_machine,
cls.compute_offering,
cls.disk_offering,
cls.user,
cls.account
]
def setUpClass(cls):
# Set up API client
testclient = super(TestCapacityManagement, cls).getClsTestClient()
cls.apiClient = testclient.getApiClient()
cls.configData = testclient.getParsedTestDataConfig()
cls.dbConnection = testclient.getDbConnection()
cls.testdata = TestData().testdata
sf_util.set_supports_resign(True, cls.dbConnection)
cls._connect_to_hypervisor()
# Set up SolidFire connection
solidfire = cls.testdata[TestData.solidFire]
cls.sfe = ElementFactory.create(solidfire[TestData.mvip], solidfire[TestData.username], solidfire[TestData.password])
# Get Resources from Cloud Infrastructure
cls.zone = get_zone(cls.apiClient, zone_id=cls.testdata[TestData.zoneId])
cls.template = get_template(cls.apiClient, cls.zone.id, hypervisor=TestData.hypervisor_type)
cls.domain = get_domain(cls.apiClient, cls.testdata[TestData.domainId])
# Create test account
cls.account = Account.create(
cls.apiClient,
cls.testdata["account"],
admin=1
)
# Set up connection to make customized API calls
cls.user = User.create(
cls.apiClient,
cls.testdata["user"],
account=cls.account.name,
domainid=cls.domain.id
)
url = cls.testdata[TestData.url]
api_url = "http://" + url + ":8080/client/api"
userkeys = User.registerUserKeys(cls.apiClient, cls.user.id)
cls.cs_api = SignedAPICall.CloudStack(api_url, userkeys.apikey, userkeys.secretkey)
primarystorage = cls.testdata[TestData.primaryStorage]
cls.primary_storage = StoragePool.create(
cls.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor]
)
primarystorage2 = cls.testdata[TestData.primaryStorage2]
cls.primary_storage_2 = StoragePool.create(
cls.apiClient,
primarystorage2,
scope=primarystorage2[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage2[TestData.provider],
tags=primarystorage2[TestData.tags],
capacityiops=primarystorage2[TestData.capacityIops],
capacitybytes=primarystorage2[TestData.capacityBytes],
hypervisor=primarystorage2[TestData.hypervisor]
)
cls.compute_offering = ServiceOffering.create(
cls.apiClient,
cls.testdata[TestData.computeOffering]
)
cls.compute_offering_2 = ServiceOffering.create(
cls.apiClient,
cls.testdata[TestData.computeOffering2]
)
# Resources that are to be destroyed
cls._cleanup = [
cls.compute_offering,
cls.compute_offering_2,
cls.user,
cls.account
]
def setUpClass(cls):
"""
1. Init ACS API and DB connection
2. Init Datera API connection
3. Create ACS Primary storage
4. Create ACS compute and disk offering.
5. Create ACS data disk without attaching to a VM
"""
logger.info("Setting up Class")
# Set up API client
testclient = super(TestVolumes, cls).getClsTestClient()
cls.apiClient = testclient.getApiClient()
cls.dbConnection = testclient.getDbConnection()
# Setup test data
td = TestData()
if cls.config.TestData and cls.config.TestData.Path:
td.update(cls.config.TestData.Path)
cls.testdata = td.testdata
# Get Resources from Cloud Infrastructure
cls.zone = get_zone(cls.apiClient, zone_name=cls.config.zones[0].name)
cls.cluster = list_clusters(cls.apiClient)[0]
cls.template = get_template(cls.apiClient, cls.zone.id)
cls.domain = get_domain(cls.apiClient, cls.testdata[TestData.domainId])
# Set up datera connection
datera = cls.testdata[TestData.Datera]
cls.dt_client = get_api(username=datera[TestData.login],
password=datera[TestData.password],
hostname=datera[TestData.mvip],
version="v2")
# Create test account
cls.account = Account.create(cls.apiClient,
cls.testdata["account"],
admin=1)
# Set up connection to make customized API calls
cls.user = User.create(cls.apiClient,
cls.testdata["user"],
account=cls.account.name,
domainid=cls.domain.id)
primarystorage = cls.testdata[TestData.primaryStorage]
cls.primary_storage = StoragePool.create(
cls.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor])
cls.disk_offering = DiskOffering.create(
cls.apiClient, cls.testdata[TestData.diskOffering])
cls.disk_offering_new = DiskOffering.create(
cls.apiClient,
cls.testdata['testdiskofferings']['newsizeandiopsdo'])
cls.supports_resign = cls._get_supports_resign()
# Set up hypervisor specific connections
if cls.cluster.hypervisortype.lower() == 'xenserver':
cls.setUpXenServer()
if cls.cluster.hypervisortype.lower() == 'kvm':
cls.setUpKVM()
# Create 1 data volume_1
cls.volume = Volume.create(cls.apiClient,
cls.testdata[TestData.volume_1],
account=cls.account.name,
domainid=cls.domain.id,
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id)
# Resources that are to be destroyed
cls._cleanup = [
cls.volume, cls.compute_offering, cls.disk_offering,
cls.disk_offering_new, cls.user, cls.account
]
def setUpCloudStack(cls):
cls._cleanup = []
cls.spapi = spapi.Api.fromConfig(multiCluster=True)
testClient = super(TestResizeVolumes, cls).getClsTestClient()
cls.apiclient = testClient.getApiClient()
cls.unsupportedHypervisor = False
cls.hypervisor = testClient.getHypervisorInfo()
if cls.hypervisor.lower() in ("hyperv", "lxc"):
cls.unsupportedHypervisor = True
return
cls.services = testClient.getParsedTestDataConfig()
# Get Zone, Domain and templates
cls.domain = get_domain(cls.apiclient)
cls.zone = None
zones = list_zones(cls.apiclient)
for z in zones:
if z.internaldns1 == cls.getClsConfig().mgtSvr[0].mgtSvrIp:
cls.zone = z
td = TestData()
cls.testdata = td.testdata
cls.helper = StorPoolHelper()
storpool_primary_storage = cls.testdata[TestData.primaryStorage]
cls.template_name = storpool_primary_storage.get("name")
storpool_service_offerings = cls.testdata[TestData.serviceOfferingsIops]
storpool_disk_offerings = {
"name": "iops",
"displaytext": "Testing IOPS on StorPool",
"customizediops": True,
"storagetype": "shared",
"tags" : cls.template_name,
}
storage_pool = list_storage_pools(
cls.apiclient,
name = cls.template_name
)
service_offerings = list_service_offering(
cls.apiclient,
name='iops'
)
disk_offerings = list_disk_offering(
cls.apiclient,
name="iops"
)
if disk_offerings is None:
disk_offerings = DiskOffering.create(cls.apiclient, storpool_disk_offerings, custom = True)
else:
disk_offerings = disk_offerings[0]
cls.disk_offerings = disk_offerings
if storage_pool is None:
storage_pool = StoragePool.create(cls.apiclient, storpool_primary_storage)
else:
storage_pool = storage_pool[0]
cls.storage_pool = storage_pool
cls.debug(pprint.pformat(storage_pool))
if service_offerings is None:
service_offerings = ServiceOffering.create(cls.apiclient, storpool_service_offerings)
else:
service_offerings = service_offerings[0]
template = get_template(
cls.apiclient,
cls.zone.id,
account = "system"
)
cls.debug(pprint.pformat(template))
cls.debug(pprint.pformat(cls.hypervisor))
if template == FAILED:
assert False, "get_template() failed to return template\
with description %s" % cls.services["ostype"]
cls.services["domainid"] = cls.domain.id
cls.services["small"]["zoneid"] = cls.zone.id
cls.services["templates"]["ostypeid"] = template.ostypeid
cls.services["zoneid"] = cls.zone.id
cls.account = cls.helper.create_account(
cls.apiclient,
cls.services["account"],
accounttype = 1,
domainid=cls.domain.id,
)
cls._cleanup.append(cls.account)
securitygroup = SecurityGroup.list(cls.apiclient, account = cls.account.name, domainid= cls.account.domainid)[0]
cls.helper.set_securityGroups(cls.apiclient, account = cls.account.name, domainid= cls.account.domainid, id = securitygroup.id)
cls.service_offering = service_offerings
cls.debug(pprint.pformat(cls.service_offering))
cls.local_cluster = cls.helper.get_local_cluster(cls.apiclient, zoneid = cls.zone.id)
cls.host = cls.helper.list_hosts_by_cluster_id(cls.apiclient, cls.local_cluster.id)
assert len(cls.host) > 1, "Hosts list is less than 1"
cls.host_on_local_1 = cls.host[0]
cls.host_on_local_2 = cls.host[1]
cls.remote_cluster = cls.helper.get_remote_cluster(cls.apiclient, zoneid = cls.zone.id)
cls.host_remote = cls.helper.list_hosts_by_cluster_id(cls.apiclient, cls.remote_cluster.id)
assert len(cls.host_remote) > 1, "Hosts list is less than 1"
cls.host_on_remote1 = cls.host_remote[0]
cls.host_on_remote2 = cls.host_remote[1]
cls.volume_1 = cls.helper.create_custom_disk(
cls.apiclient,
{"diskname":"StorPoolDisk" },
zoneid=cls.zone.id,
size = 5,
miniops = 2000,
maxiops = 5000,
account=cls.account.name,
domainid=cls.account.domainid,
diskofferingid=cls.disk_offerings.id,
)
cls.volume_2 = cls.helper.create_custom_disk(
cls.apiclient,
{"diskname":"StorPoolDisk" },
zoneid=cls.zone.id,
size = 5,
miniops = 2000,
maxiops = 5000,
account=cls.account.name,
domainid=cls.account.domainid,
diskofferingid=cls.disk_offerings.id,
)
cls.volume = cls.helper.create_custom_disk(
cls.apiclient,
{"diskname":"StorPoolDisk" },
zoneid=cls.zone.id,
size = 5,
miniops = 2000,
maxiops = 5000,
account=cls.account.name,
domainid=cls.account.domainid,
diskofferingid=cls.disk_offerings.id,
)
cls.virtual_machine = cls.helper.create_vm_custom(
cls.apiclient,
{"name":"StorPool-%s" % uuid.uuid4() },
zoneid=cls.zone.id,
templateid=template.id,
account=cls.account.name,
domainid=cls.account.domainid,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
minIops = 1000,
maxIops = 5000,
rootdisksize = 10
)
cls.virtual_machine2= cls.helper.create_vm_custom(
cls.apiclient,
{"name":"StorPool-%s" % uuid.uuid4() },
zoneid=cls.zone.id,
templateid=template.id,
account=cls.account.name,
domainid=cls.account.domainid,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
minIops = 1000,
maxIops = 5000,
rootdisksize = 10
)
cls.virtual_machine_live_migration_1 = cls.helper.create_vm_custom(
cls.apiclient,
{"name":"StorPool-%s" % uuid.uuid4() },
zoneid=cls.zone.id,
templateid=template.id,
account=cls.account.name,
domainid=cls.account.domainid,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
minIops = 1000,
maxIops = 5000,
hostid = cls.host_on_local_1.id,
rootdisksize = 10
)
cls.virtual_machine_live_migration_2= cls.helper.create_vm_custom(
cls.apiclient,
{"name":"StorPool-%s" % uuid.uuid4() },
zoneid=cls.zone.id,
templateid=template.id,
account=cls.account.name,
domainid=cls.account.domainid,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
minIops = 1000,
maxIops = 5000,
hostid = cls.host_on_remote1.id,
rootdisksize = 10
)
cls.template = template
cls.random_data_0 = random_gen(size=100)
cls.test_dir = "/tmp"
cls.random_data = "random.data"
return
def test_02_list_snapshots_with_removed_data_store(self):
"""Test listing volume snapshots with removed data stores
"""
# 1 - Create new volume -> V
# 2 - Create new Primary Storage -> PS
# 3 - Attach and detach volume V from vm
# 4 - Migrate volume V to PS
# 5 - Take volume V snapshot -> S
# 6 - List snapshot and verify it gets properly listed although Primary Storage was removed
# Create new volume
vol = Volume.create(
self.apiclient,
self.services["volume"],
diskofferingid=self.disk_offering.id,
zoneid=self.zone.id,
account=self.account.name,
domainid=self.account.domainid,
)
self.cleanup.append(vol)
self.assertIsNotNone(vol, "Failed to create volume")
vol_res = Volume.list(self.apiclient, id=vol.id)
self.assertEqual(
validateList(vol_res)[0], PASS,
"Invalid response returned for list volumes")
vol_uuid = vol_res[0].id
clusters = list_clusters(self.apiclient, zoneid=self.zone.id)
assert isinstance(clusters, list) and len(clusters) > 0
# Attach created volume to vm, then detach it to be able to migrate it
self.virtual_machine_with_disk.stop(self.apiclient)
self.virtual_machine_with_disk.attach_volume(self.apiclient, vol)
# Create new Primary Storage
storage = StoragePool.create(self.apiclient,
self.services["nfs2"],
clusterid=clusters[0].id,
zoneid=self.zone.id,
podid=self.pod.id)
self.cleanup.append(storage)
self.assertEqual(storage.state, 'Up', "Check primary storage state")
self.assertEqual(storage.type, 'NetworkFilesystem',
"Check storage pool type")
storage_pools_response = list_storage_pools(self.apiclient,
id=storage.id)
self.assertEqual(isinstance(storage_pools_response, list), True,
"Check list response returns a valid list")
self.assertNotEqual(len(storage_pools_response), 0,
"Check list Hosts response")
storage_response = storage_pools_response[0]
self.assertEqual(storage_response.id, storage.id,
"Check storage pool ID")
self.assertEqual(storage.type, storage_response.type,
"Check storage pool type ")
self.virtual_machine_with_disk.detach_volume(self.apiclient, vol)
# Migrate volume to new Primary Storage
Volume.migrate(self.apiclient, storageid=storage.id, volumeid=vol.id)
volume_response = list_volumes(
self.apiclient,
id=vol.id,
)
self.assertNotEqual(len(volume_response), 0,
"Check list Volumes response")
volume_migrated = volume_response[0]
self.assertEqual(volume_migrated.storageid, storage.id,
"Check volume storage id")
# Take snapshot of new volume
snapshot = Snapshot.create(self.apiclient,
volume_migrated.id,
account=self.account.name,
domainid=self.account.domainid)
self.debug("Snapshot created: ID - %s" % snapshot.id)
# Delete volume, VM and created Primary Storage
cleanup_resources(self.apiclient, self.cleanup)
# List snapshot and verify it gets properly listed although Primary Storage was removed
snapshot_response = Snapshot.list(self.apiclient, id=snapshot.id)
self.assertNotEqual(len(snapshot_response), 0,
"Check list Snapshot response")
self.assertEqual(snapshot_response[0].id, snapshot.id,
"Check snapshot id")
# Delete snapshot and verify it gets properly deleted (should not be listed)
self.cleanup = [snapshot]
cleanup_resources(self.apiclient, self.cleanup)
self.cleanup = []
snapshot_response_2 = Snapshot.list(self.apiclient, id=snapshot.id)
self.assertEqual(snapshot_response_2, None,
"Check list Snapshot response")
return
def setUpClass(cls):
# Set up API client
testclient = super(TestSnapshots, cls).getClsTestClient()
cls.apiClient = testclient.getApiClient()
cls.dbConnection = testclient.getDbConnection()
td = TestData()
if cls.config.TestData and cls.config.TestData.Path:
td.update(cls.config.TestData.Path)
cls.testdata = td.testdata
cls.supports_resign = cls._get_supports_resign()
# Set up xenAPI connection
hosts = list_hosts(cls.apiClient,
clusterid=cls.testdata[TestData.clusterId])
xenserver = cls.testdata[TestData.xenServer]
for h in hosts:
host_ip = "https://" + h.ipaddress
try:
cls.xen_session = XenAPI.Session(host_ip)
cls.xen_session.xenapi.login_with_password(
xenserver[TestData.username], xenserver[TestData.password])
break
except XenAPI.Failure as e:
pass
# Set up datera connection
datera = cls.testdata[TestData.Datera]
cls.dt_client = dfs_sdk.DateraApi(username=datera[TestData.login],
password=datera[TestData.password],
hostname=datera[TestData.mvip])
# Get Resources from Cloud Infrastructure
cls.zone = get_zone(cls.apiClient,
zone_id=cls.testdata[TestData.zoneId])
cls.cluster = list_clusters(cls.apiClient)[0]
cls.template = get_template(
cls.apiClient,
cls.zone.id,
template_name=cls.testdata[TestData.templateName])
cls.domain = get_domain(cls.apiClient, cls.testdata[TestData.domainId])
# Create test account
cls.account = Account.create(cls.apiClient,
cls.testdata["account"],
admin=1)
# Set up connection to make customized API calls
cls.user = User.create(cls.apiClient,
cls.testdata["user"],
account=cls.account.name,
domainid=cls.domain.id)
primarystorage = cls.testdata[TestData.primaryStorage]
cls.primary_storage = StoragePool.create(
cls.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor])
cls.compute_offering = ServiceOffering.create(
cls.apiClient, cls.testdata[TestData.computeOffering])
cls.disk_offering = DiskOffering.create(
cls.apiClient, cls.testdata[TestData.diskOffering])
# Resources that are to be destroyed
cls._cleanup = [
cls.compute_offering, cls.disk_offering, cls.user, cls.account
]
def setUpClass(cls):
# Set up API client
testclient = super(TestVMMigrationWithStorage, cls).getClsTestClient()
cls.apiClient = testclient.getApiClient()
cls.configData = testclient.getParsedTestDataConfig()
cls.dbConnection = testclient.getDbConnection()
cls.testdata = TestData().testdata
xenserver = cls.testdata[TestData.xenServer]
# Set up xenAPI connection
host_ip = "https://" + \
list_hosts(cls.apiClient, clusterid=cls.testdata[TestData.clusterId1], name="XenServer-6.5-1")[0].ipaddress
# Set up XenAPI connection
cls.xen_session_1 = XenAPI.Session(host_ip)
cls.xen_session_1.xenapi.login_with_password(xenserver[TestData.username], xenserver[TestData.password])
# Set up xenAPI connection
host_ip = "https://" + \
list_hosts(cls.apiClient, clusterid=cls.testdata[TestData.clusterId2], name="XenServer-6.5-3")[0].ipaddress
# Set up XenAPI connection
cls.xen_session_2 = XenAPI.Session(host_ip)
cls.xen_session_2.xenapi.login_with_password(xenserver[TestData.username], xenserver[TestData.password])
# Set up SolidFire connection
solidfire = cls.testdata[TestData.solidFire]
cls.sfe = ElementFactory.create(solidfire[TestData.mvip], solidfire[TestData.username], solidfire[TestData.password])
# Get Resources from Cloud Infrastructure
cls.zone = get_zone(cls.apiClient, zone_id=cls.testdata[TestData.zoneId])
cls.cluster_1 = list_clusters(cls.apiClient, id=cls.testdata[TestData.clusterId1])[0]
cls.cluster_2 = list_clusters(cls.apiClient, id=cls.testdata[TestData.clusterId2])[0]
cls.template = get_template(cls.apiClient, cls.zone.id, cls.configData["ostype"])
cls.domain = get_domain(cls.apiClient, cls.testdata[TestData.domainId])
# Create test account
cls.account = Account.create(
cls.apiClient,
cls.testdata["account"],
admin=1
)
# Set up connection to make customized API calls
cls.user = User.create(
cls.apiClient,
cls.testdata["user"],
account=cls.account.name,
domainid=cls.domain.id
)
url = cls.testdata[TestData.url]
api_url = "http://" + url + ":8080/client/api"
userkeys = User.registerUserKeys(cls.apiClient, cls.user.id)
cls.cs_api = SignedAPICall.CloudStack(api_url, userkeys.apikey, userkeys.secretkey)
primarystorage = cls.testdata[TestData.primaryStorage]
cls.primary_storage = StoragePool.create(
cls.apiClient,
primarystorage
)
cls.compute_offering_1 = ServiceOffering.create(
cls.apiClient,
cls.testdata[TestData.computeOffering1]
)
cls.compute_offering_2 = ServiceOffering.create(
cls.apiClient,
cls.testdata[TestData.computeOffering2]
)
cls.compute_offering_3 = ServiceOffering.create(
cls.apiClient,
cls.testdata[TestData.computeOffering3]
)
cls.disk_offering_1 = DiskOffering.create(
cls.apiClient,
cls.testdata[TestData.diskOffering1]
)
cls.disk_offering_2 = DiskOffering.create(
cls.apiClient,
cls.testdata[TestData.diskOffering2]
)
# Resources that are to be destroyed
cls._cleanup = [
cls.compute_offering_1,
cls.compute_offering_2,
cls.compute_offering_3,
cls.disk_offering_1,
cls.disk_offering_2,
cls.user,
cls.account
]
def setUpClass(cls):
# Set up API client
testclient = super(TestVMSnapshots, cls).getClsTestClient()
cls.apiClient = testclient.getApiClient()
cls.testdata = TestData().testdata
# Set up XenAPI connection
host_ip = "https://" + \
list_hosts(cls.apiClient, clusterid=cls.testdata[TestData.clusterId], name="XenServer-6.5-1")[0].ipaddress
cls.xen_session = XenAPI.Session(host_ip)
xenserver = cls.testdata[TestData.xenServer]
cls.xen_session.xenapi.login_with_password(xenserver[TestData.username], xenserver[TestData.password])
# Set up SolidFire connection
cls.sf_client = sf_api.SolidFireAPI(endpoint_dict=cls.testdata[TestData.solidFire])
# Get Resources from Cloud Infrastructure
cls.zone = get_zone(cls.apiClient, zone_id=cls.testdata[TestData.zoneId])
template = get_template(cls.apiClient, cls.zone.id, template_name=cls.testdata[TestData.templateName])
cls.domain = get_domain(cls.apiClient, cls.testdata[TestData.domainId])
# Create test account
cls.account = Account.create(
cls.apiClient,
cls.testdata[TestData.account],
admin=1
)
# Set up connection to make customized API calls
user = User.create(
cls.apiClient,
cls.testdata[TestData.user],
account=cls.account.name,
domainid=cls.domain.id
)
url = cls.testdata[TestData.url]
api_url = "http://" + url + ":8080/client/api"
userkeys = User.registerUserKeys(cls.apiClient, user.id)
cls.cs_api = SignedAPICall.CloudStack(api_url, userkeys.apikey, userkeys.secretkey)
primarystorage = cls.testdata[TestData.primaryStorage]
cls.primary_storage = StoragePool.create(
cls.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor]
)
compute_offering = ServiceOffering.create(
cls.apiClient,
cls.testdata[TestData.computeOffering]
)
cls.disk_offering = DiskOffering.create(
cls.apiClient,
cls.testdata[TestData.diskOffering]
)
# Create VM and volume for tests
cls.virtual_machine = VirtualMachine.create(
cls.apiClient,
cls.testdata[TestData.virtualMachine],
accountid=cls.account.name,
zoneid=cls.zone.id,
serviceofferingid=compute_offering.id,
templateid=template.id,
domainid=cls.domain.id,
startvm=True
)
cls._cleanup = [
cls.virtual_machine,
compute_offering,
cls.disk_offering,
user,
cls.account
]
def setUpCloudStack(cls):
cls.spapi = spapi.Api.fromConfig(multiCluster=True)
testClient = super(TestMigrateVMWithVolumes, cls).getClsTestClient()
cls.apiclient = testClient.getApiClient()
cls._cleanup = []
cls.unsupportedHypervisor = False
cls.hypervisor = testClient.getHypervisorInfo()
if cls.hypervisor.lower() in ("hyperv", "lxc"):
cls.unsupportedHypervisor = True
return
cls.services = testClient.getParsedTestDataConfig()
# Get Zone, Domain and templates
cls.domain = get_domain(cls.apiclient)
cls.zone = None
zones = list_zones(cls.apiclient)
for z in zones:
if z.internaldns1 == cls.getClsConfig().mgtSvr[0].mgtSvrIp:
cls.zone = z
td = TestData()
cls.testdata = td.testdata
cls.helper = StorPoolHelper()
storpool_primary_storage = cls.testdata[TestData.primaryStorage]
cls.template_name = storpool_primary_storage.get("name")
storpool_service_offerings = cls.testdata[TestData.serviceOffering]
nfs_service_offerings = cls.testdata[TestData.serviceOfferingsPrimary]
ceph_service_offerings = cls.testdata[TestData.serviceOfferingsCeph]
nfs_disk_offerings = cls.testdata[TestData.nfsDiskOffering]
ceph_disk_offerings = cls.testdata[TestData.cephDiskOffering]
storage_pool = list_storage_pools(cls.apiclient,
name=cls.template_name)
nfs_storage_pool = list_storage_pools(cls.apiclient, name='primary')
ceph_primary_storage = cls.testdata[TestData.primaryStorage4]
cls.ceph_storage_pool = list_storage_pools(
cls.apiclient, name=ceph_primary_storage.get("name"))[0]
service_offerings = list_service_offering(cls.apiclient,
name=cls.template_name)
nfs_service_offering = list_service_offering(cls.apiclient, name='nfs')
ceph_service_offering = list_service_offering(
cls.apiclient, name=ceph_primary_storage.get("name"))
if storage_pool is None:
storage_pool = StoragePool.create(cls.apiclient,
storpool_primary_storage)
else:
storage_pool = storage_pool[0]
cls.storage_pool = storage_pool
cls.debug(pprint.pformat(storage_pool))
if service_offerings is None:
service_offerings = ServiceOffering.create(
cls.apiclient, storpool_service_offerings)
else:
service_offerings = service_offerings[0]
if nfs_service_offering is None:
nfs_service_offering = ServiceOffering.create(
cls.apiclient, nfs_service_offerings)
else:
nfs_service_offering = nfs_service_offering[0]
if ceph_service_offering is None:
ceph_service_offering = ServiceOffering.create(
cls.apiclient, ceph_service_offerings)
else:
ceph_service_offering = ceph_service_offering[0]
nfs_disk_offering = list_disk_offering(cls.apiclient, name="nfs")
if nfs_disk_offering is None:
nfs_disk_offering = DiskOffering.create(cls.apiclient,
nfs_disk_offerings)
else:
cls.nfs_disk_offering = nfs_disk_offering[0]
ceph_disk_offering = list_disk_offering(cls.apiclient, name="ceph")
if ceph_disk_offering is None:
cls.ceph_disk_offering = DiskOffering.create(
cls.apiclient, ceph_disk_offerings)
else:
cls.ceph_disk_offering = ceph_disk_offering[0]
template = get_template(cls.apiclient, cls.zone.id, account="system")
cls.nfs_storage_pool = nfs_storage_pool[0]
if cls.nfs_storage_pool.state == "Maintenance":
cls.nfs_storage_pool = StoragePool.cancelMaintenance(
cls.apiclient, cls.nfs_storage_pool.id)
if cls.ceph_storage_pool.state == "Maintenance":
cls.ceph_storage_pool = StoragePool.cancelMaintenance(
cls.apiclient, cls.ceph_storage_pool.id)
cls.account = cls.helper.create_account(cls.apiclient,
cls.services["account"],
accounttype=1,
domainid=cls.domain.id,
roleid=1)
cls._cleanup.append(cls.account)
securitygroup = SecurityGroup.list(cls.apiclient,
account=cls.account.name,
domainid=cls.account.domainid)[0]
cls.helper.set_securityGroups(cls.apiclient,
account=cls.account.name,
domainid=cls.account.domainid,
id=securitygroup.id)
cls.vm = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=template.id,
accountid=cls.account.name,
domainid=cls.account.domainid,
serviceofferingid=nfs_service_offering.id,
diskofferingid=cls.nfs_disk_offering.id,
hypervisor=cls.hypervisor,
rootdisksize=10)
cls.vm2 = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=template.id,
accountid=cls.account.name,
domainid=cls.account.domainid,
serviceofferingid=ceph_service_offering.id,
diskofferingid=cls.ceph_disk_offering.id,
hypervisor=cls.hypervisor,
rootdisksize=10)
cls.debug(pprint.pformat(template))
cls.debug(pprint.pformat(cls.hypervisor))
if template == FAILED:
assert False, "get_template() failed to return template\
with description %s" % cls.services["ostype"]
cls.services["domainid"] = cls.domain.id
cls.services["small"]["zoneid"] = cls.zone.id
cls.services["templates"]["ostypeid"] = template.ostypeid
cls.services["zoneid"] = cls.zone.id
cls.service_offering = service_offerings
cls.nfs_service_offering = nfs_service_offering
cls.debug(pprint.pformat(cls.service_offering))
cls.template = template
cls.random_data_0 = random_gen(size=100)
cls.test_dir = "/tmp"
cls.random_data = "random.data"
return
def setUpClass(cls):
cls.spapi = spapi.Api.fromConfig(multiCluster=True)
testClient = super(TestStoragePool, cls).getClsTestClient()
cls.apiclient = testClient.getApiClient()
cls.userapiclient = testClient.getUserApiClient(
UserName="******", DomainName="ROOT")
cls.unsupportedHypervisor = False
cls.hypervisor = testClient.getHypervisorInfo()
if cls.hypervisor.lower() in ("hyperv", "lxc"):
cls.unsupportedHypervisor = True
return
cls.services = testClient.getParsedTestDataConfig()
# Get Zone, Domain and templates
cls.domain = get_domain(cls.apiclient)
cls.zone = None
zones = list_zones(cls.apiclient)
for z in zones:
if z.internaldns1 == cls.getClsConfig().mgtSvr[0].mgtSvrIp:
cls.zone = z
storpool_primary_storage = {
"name": "ssd",
"zoneid": cls.zone.id,
"url": "ssd",
"scope": "zone",
"capacitybytes": 4500000,
"capacityiops": 155466464221111121,
"hypervisor": "kvm",
"provider": "StorPool",
"tags": "ssd"
}
storpool_service_offerings = {
"name": "ssd",
"displaytext": "SP_CO_2 (Min IOPS = 10,000; Max IOPS = 15,000)",
"cpunumber": 1,
"cpuspeed": 500,
"memory": 512,
"storagetype": "shared",
"customizediops": False,
"hypervisorsnapshotreserve": 200,
"tags": "ssd"
}
storage_pool = list_storage_pools(cls.apiclient, name='ssd')
service_offerings = list_service_offering(cls.apiclient, name='ssd')
disk_offerings = list_disk_offering(cls.apiclient, name="Small")
cls.disk_offerings = disk_offerings[0]
if storage_pool is None:
storage_pool = StoragePool.create(cls.apiclient,
storpool_primary_storage)
else:
storage_pool = storage_pool[0]
cls.storage_pool = storage_pool
cls.debug(pprint.pformat(storage_pool))
if service_offerings is None:
service_offerings = ServiceOffering.create(
cls.apiclient, storpool_service_offerings)
else:
service_offerings = service_offerings[0]
template = get_template(cls.apiclient, cls.zone.id, account="system")
if template == FAILED:
assert False, "get_template() failed to return template\
with description %s" % cls.services["ostype"]
cls.services["domainid"] = cls.domain.id
cls.services["small"]["zoneid"] = cls.zone.id
cls.services["templates"]["ostypeid"] = template.ostypeid
cls.services["zoneid"] = cls.zone.id
cls.service_offering = service_offerings
user = list_users(cls.apiclient,
account='StorPoolUser',
domainid=cls.domain.id)
account = list_accounts(cls.apiclient, id=user[0].accountid)
if account is None:
role = Role.list(cls.apiclient, name='User')
cmd = createAccount.createAccountCmd()
cmd.email = '*****@*****.**'
cmd.firstname = 'StorPoolUser'
cmd.lastname = 'StorPoolUser'
cmd.password = '******'
cmd.username = '******'
cmd.roleid = role[0].id
account = cls.apiclient.createAccount(cmd)
else:
account = account[0]
cls.account = account
# cls.tmp_files = []
# cls.keypair = SSHKeyPair.create(
# cls.apiclient,
# name=random_gen() + ".pem",
# account=cls.account.name,
# domainid=cls.account.domainid)
#
# keyPairFilePath = tempfile.gettempdir() + os.sep + cls.keypair.name
# # Clenaup at end of execution
# cls.tmp_files.append(keyPairFilePath)
#
# cls.debug("File path: %s" % keyPairFilePath)
#
# f = open(keyPairFilePath, "w+")
# f.write(cls.keypair.privatekey)
# f.close()
#
# os.system("chmod 400 " + keyPairFilePath)
#
# cls.keyPairFilePath = keyPairFilePath
cls.volume_1 = Volume.create(
cls.userapiclient,
{"diskname": "StorPoolDisk-1"},
zoneid=cls.zone.id,
diskofferingid=cls.disk_offerings.id,
)
cls.volume_2 = Volume.create(
cls.userapiclient,
{"diskname": "StorPoolDisk-2"},
zoneid=cls.zone.id,
diskofferingid=cls.disk_offerings.id,
)
cls.volume = Volume.create(
cls.userapiclient,
{"diskname": "StorPoolDisk-3"},
zoneid=cls.zone.id,
diskofferingid=cls.disk_offerings.id,
)
cls.virtual_machine = VirtualMachine.create(
cls.userapiclient,
{"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=template.id,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
rootdisksize=10,
)
cls.virtual_machine2 = VirtualMachine.create(
cls.userapiclient,
{"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=template.id,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
rootdisksize=10,
)
cls.template = template
cls.random_data_0 = random_gen(size=100)
cls.test_dir = "/tmp"
cls.random_data = "random.data"
cls._cleanup = []
cls._cleanup.append(cls.virtual_machine)
cls._cleanup.append(cls.virtual_machine2)
cls._cleanup.append(cls.volume_1)
cls._cleanup.append(cls.volume_2)
cls._cleanup.append(cls.volume)
return
def setUpClass(cls):
# Set up API client
testclient = super(TestLinstorVolumes, cls).getClsTestClient()
cls.apiClient = testclient.getApiClient()
cls.configData = testclient.getParsedTestDataConfig()
cls.dbConnection = testclient.getDbConnection()
cls.testdata = TestData().testdata
# Get Resources from Cloud Infrastructure
cls.zone = get_zone(cls.apiClient, zone_id=cls.testdata[TestData.zoneId])
cls.cluster = list_clusters(cls.apiClient)[0]
cls.template = get_template(cls.apiClient, cls.zone.id, hypervisor=TestData.hypervisor_type)
cls.domain = get_domain(cls.apiClient, cls.testdata[TestData.domainId])
# Create test account
cls.account = Account.create(
cls.apiClient,
cls.testdata["account"],
admin=1
)
# Set up connection to make customized API calls
cls.user = User.create(
cls.apiClient,
cls.testdata["user"],
account=cls.account.name,
domainid=cls.domain.id
)
primarystorage = cls.testdata[TestData.primaryStorage]
cls.primary_storage = StoragePool.create(
cls.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
hypervisor=primarystorage[TestData.hypervisor]
)
cls.compute_offering = ServiceOffering.create(
cls.apiClient,
cls.testdata[TestData.computeOffering]
)
cls.disk_offering = DiskOffering.create(
cls.apiClient,
cls.testdata[TestData.diskOffering]
)
if cls.testdata[TestData.migrationTests]:
primarystorage_sameinst = cls.testdata[TestData.primaryStorageSameInstance]
cls.primary_storage_same_inst = StoragePool.create(
cls.apiClient,
primarystorage_sameinst,
scope=primarystorage_sameinst[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage_sameinst[TestData.provider],
tags=primarystorage_sameinst[TestData.tags],
hypervisor=primarystorage_sameinst[TestData.hypervisor]
)
primarystorage_distinctinst = cls.testdata[TestData.primaryStorageDistinctInstance]
cls.primary_storage_distinct_inst = StoragePool.create(
cls.apiClient,
primarystorage_distinctinst,
scope=primarystorage_distinctinst[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage_distinctinst[TestData.provider],
tags=primarystorage_distinctinst[TestData.tags],
hypervisor=primarystorage_distinctinst[TestData.hypervisor]
)
cls.disk_offering_same_inst = DiskOffering.create(
cls.apiClient,
cls.testdata[TestData.diskOfferingSameInstance]
)
cls.disk_offering_distinct_inst = DiskOffering.create(
cls.apiClient,
cls.testdata[TestData.diskOfferingDistinctInstance]
)
# Create VM and volume for tests
cls.virtual_machine = VirtualMachine.create(
cls.apiClient,
cls.testdata[TestData.virtualMachine],
accountid=cls.account.name,
zoneid=cls.zone.id,
serviceofferingid=cls.compute_offering.id,
templateid=cls.template.id,
domainid=cls.domain.id,
startvm=False
)
TestLinstorVolumes._start_vm(cls.virtual_machine)
cls.volume = Volume.create(
cls.apiClient,
cls.testdata[TestData.volume_1],
account=cls.account.name,
domainid=cls.domain.id,
zoneid=cls.zone.id,
diskofferingid=cls.disk_offering.id
)
# Resources that are to be destroyed
cls._cleanup = [
cls.volume,
cls.virtual_machine,
cls.compute_offering,
cls.disk_offering,
cls.user,
cls.account
]
def test_vag_per_host_5(self):
hosts = list_hosts(self.apiClient, clusterid=self.cluster.id)
self.assertTrue(
len(hosts) >= 2, "There needs to be at least two hosts.")
unique_vag_ids = self._get_unique_vag_ids(hosts)
self.assertTrue(
len(hosts) == len(unique_vag_ids),
"To run this test, each host should be in its own VAG.")
primarystorage = self.testdata[TestData.primaryStorage]
primary_storage = StoragePool.create(
self.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=self.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor])
self.cleanup.append(primary_storage)
self.virtual_machine = VirtualMachine.create(
self.apiClient,
self.testdata[TestData.virtualMachine],
accountid=self.account.name,
zoneid=self.zone.id,
serviceofferingid=self.compute_offering.id,
templateid=self.template.id,
domainid=self.domain.id,
startvm=True)
root_volume = self._get_root_volume(self.virtual_machine)
sf_account_id = sf_util.get_sf_account_id(
self.cs_api, self.account.id, primary_storage.id, self,
TestAddRemoveHosts._sf_account_id_should_be_non_zero_int_err_msg)
sf_volumes = sf_util.get_active_sf_volumes(self.sfe, sf_account_id)
sf_volume = sf_util.check_and_get_sf_volume(sf_volumes,
root_volume.name, self)
sf_vag_ids = sf_util.get_vag_ids(self.cs_api, self.cluster.id,
primary_storage.id, self)
sf_util.check_vags(sf_volume, sf_vag_ids, self)
host = Host(hosts[0].__dict__)
host_iqn = self._get_host_iqn(host)
all_vags = sf_util.get_all_vags(self.sfe)
host_vag = self._get_host_vag(host_iqn, all_vags)
self.assertTrue(host_vag != None, "The host should be in a VAG.")
host.delete(self.apiClient)
sf_volumes = sf_util.get_active_sf_volumes(self.sfe, sf_account_id)
sf_volume = sf_util.check_and_get_sf_volume(sf_volumes,
root_volume.name, self)
sf_util.check_vags(sf_volume, sf_vag_ids, self)
all_vags = sf_util.get_all_vags(self.sfe)
host_vag = self._get_host_vag(host_iqn, all_vags)
self.assertTrue(host_vag == None, "The host should not be in a VAG.")
details = {
TestData.username: "******",
TestData.password: "******",
TestData.url: "http://" + host.ipaddress,
TestData.podId: host.podid,
TestData.zoneId: host.zoneid
}
host = Host.create(self.apiClient,
self.cluster,
details,
hypervisor=host.hypervisor)
self.assertTrue(isinstance(host, Host), "'host' is not a 'Host'.")
hosts = list_hosts(self.apiClient, clusterid=self.cluster.id)
unique_vag_ids = self._get_unique_vag_ids(hosts)
self.assertTrue(
len(hosts) == len(unique_vag_ids) + 1,
"There should be one more host than unique VAG.")
def test_02_storage_migrate_root_and_data_disks(self):
primarystorage2 = self.testdata[TestData.primaryStorage2]
primary_storage_2 = StoragePool.create(
self.apiClient,
primarystorage2,
clusterid=self.cluster_1.id
)
primary_storage_3 = StoragePool.create(
self.apiClient,
primarystorage2,
clusterid=self.cluster_2.id
)
src_host, dest_host = self._get_source_and_dest_hosts()
virtual_machine = VirtualMachine.create(
self.apiClient,
self.testdata[TestData.virtualMachine],
accountid=self.account.name,
zoneid=self.zone.id,
serviceofferingid=self.compute_offering_3.id,
templateid=self.template.id,
domainid=self.domain.id,
hostid=src_host.id,
startvm=True
)
cs_data_volume = Volume.create(
self.apiClient,
self.testdata[TestData.volume_1],
account=self.account.name,
domainid=self.domain.id,
zoneid=self.zone.id,
diskofferingid=self.disk_offering_1.id
)
self.cleanup = [
virtual_machine,
cs_data_volume,
primary_storage_2,
primary_storage_3
]
cs_data_volume = virtual_machine.attach_volume(
self.apiClient,
cs_data_volume
)
sf_account_id = sf_util.get_sf_account_id(self.cs_api, self.account.id, self.primary_storage.id, self,
TestVMMigrationWithStorage._sf_account_id_should_be_non_zero_int_err_msg)
sf_volumes = sf_util.get_active_sf_volumes(self.sfe, sf_account_id)
sf_data_volume = sf_util.check_and_get_sf_volume(sf_volumes, cs_data_volume.name, self)
sf_data_volume = self._migrate_and_verify_one_disk_only(virtual_machine, dest_host, cs_data_volume, sf_account_id,
sf_data_volume, self.xen_session_1, self.xen_session_2)
src_host, dest_host = dest_host, src_host
self._migrate_and_verify_one_disk_only(virtual_machine, dest_host, cs_data_volume, sf_account_id, sf_data_volume,
self.xen_session_2, self.xen_session_1)
def test_02_list_snapshots_with_removed_data_store(self):
"""Test listing volume snapshots with removed data stores
"""
# 1) Create new Primary Storage
clusters = list_clusters(self.apiclient, zoneid=self.zone.id)
assert isinstance(clusters, list) and len(clusters) > 0
storage = StoragePool.create(self.apiclient,
self.services["nfs"],
clusterid=clusters[0].id,
zoneid=self.zone.id,
podid=self.pod.id)
self.assertEqual(storage.state, 'Up', "Check primary storage state")
self.assertEqual(storage.type, 'NetworkFilesystem',
"Check storage pool type")
storage_pools_response = list_storage_pools(self.apiclient,
id=storage.id)
self.assertEqual(isinstance(storage_pools_response, list), True,
"Check list response returns a valid list")
self.assertNotEqual(len(storage_pools_response), 0,
"Check list Hosts response")
storage_response = storage_pools_response[0]
self.assertEqual(storage_response.id, storage.id,
"Check storage pool ID")
self.assertEqual(storage.type, storage_response.type,
"Check storage pool type ")
# 2) Migrate VM ROOT volume to new Primary Storage
volumes = list_volumes(
self.apiclient,
virtualmachineid=self.virtual_machine_with_disk.id,
type='ROOT',
listall=True)
Volume.migrate(self.apiclient,
storageid=storage.id,
volumeid=volumes[0].id,
livemigrate="true")
volume_response = list_volumes(
self.apiclient,
id=volumes[0].id,
)
self.assertNotEqual(len(volume_response), 0,
"Check list Volumes response")
volume_migrated = volume_response[0]
self.assertEqual(volume_migrated.storageid, storage.id,
"Check volume storage id")
self.cleanup.append(self.virtual_machine_with_disk)
self.cleanup.append(storage)
# 3) Take snapshot of VM ROOT volume
snapshot = Snapshot.create(self.apiclient,
volume_migrated.id,
account=self.account.name,
domainid=self.account.domainid)
self.debug("Snapshot created: ID - %s" % snapshot.id)
# 4) Delete VM and created Primery Storage
cleanup_resources(self.apiclient, self.cleanup)
# 5) List snapshot and verify it gets properly listed although Primary Storage was removed
snapshot_response = Snapshot.list(self.apiclient, id=snapshot.id)
self.assertNotEqual(len(snapshot_response), 0,
"Check list Snapshot response")
self.assertEqual(snapshot_response[0].id, snapshot.id,
"Check snapshot id")
# 6) Delete snapshot and verify it gets properly deleted (should not be listed)
self.cleanup = [snapshot]
cleanup_resources(self.apiclient, self.cleanup)
snapshot_response_2 = Snapshot.list(self.apiclient, id=snapshot.id)
self.assertEqual(snapshot_response_2, None,
"Check list Snapshot response")
return
def setUpCloudStack(cls):
testClient = super(TestStoragePool, cls).getClsTestClient()
cls.apiclient = testClient.getApiClient()
cls.unsupportedHypervisor = False
cls.hypervisor = testClient.getHypervisorInfo()
if cls.hypervisor.lower() in ("hyperv", "lxc"):
cls.unsupportedHypervisor = True
return
cls.services = testClient.getParsedTestDataConfig()
# Get Zone, Domain and templates
cls.domain = get_domain(cls.apiclient)
cls.zone = None
cls._cleanup = []
zones = list_zones(cls.apiclient)
for z in zones:
if z.internaldns1 == cls.getClsConfig().mgtSvr[0].mgtSvrIp:
cls.zone = z
td = TestData()
cls.testdata = td.testdata
cls.helper = StorPoolHelper()
cls.account = cls.helper.create_account(cls.apiclient,
cls.services["account"],
accounttype=1,
domainid=cls.domain.id,
roleid=1)
cls._cleanup.append(cls.account)
securitygroup = SecurityGroup.list(cls.apiclient,
account=cls.account.name,
domainid=cls.account.domainid)[0]
cls.helper.set_securityGroups(cls.apiclient,
account=cls.account.name,
domainid=cls.account.domainid,
id=securitygroup.id)
storpool_primary_storage = cls.testdata[TestData.primaryStorage]
storpool_service_offerings = cls.testdata[TestData.serviceOffering]
cls.template_name = storpool_primary_storage.get("name")
storage_pool = list_storage_pools(cls.apiclient,
name=cls.template_name)
service_offerings = list_service_offering(cls.apiclient,
name=cls.template_name)
disk_offerings = list_disk_offering(cls.apiclient, name="Small")
disk_offering_20 = list_disk_offering(cls.apiclient, name="Medium")
disk_offering_100 = list_disk_offering(cls.apiclient, name="Large")
cls.disk_offerings = disk_offerings[0]
cls.disk_offering_20 = disk_offering_20[0]
cls.disk_offering_100 = disk_offering_100[0]
cls.debug(pprint.pformat(storage_pool))
if storage_pool is None:
storage_pool = StoragePool.create(cls.apiclient,
storpool_primary_storage)
else:
storage_pool = storage_pool[0]
cls.storage_pool = storage_pool
cls.debug(pprint.pformat(storage_pool))
if service_offerings is None:
service_offerings = ServiceOffering.create(
cls.apiclient, storpool_service_offerings)
else:
service_offerings = service_offerings[0]
#The version of CentOS has to be supported
template = get_template(cls.apiclient, cls.zone.id, account="system")
cls.debug(pprint.pformat(template))
cls.debug(pprint.pformat(cls.hypervisor))
if template == FAILED:
assert False, "get_template() failed to return template\
with description %s" % cls.services["ostype"]
cls.service_offering = service_offerings
cls.debug(pprint.pformat(cls.service_offering))
cls.local_cluster = cls.helper.get_local_cluster(cls.apiclient,
zoneid=cls.zone.id)
cls.host = cls.helper.list_hosts_by_cluster_id(cls.apiclient,
cls.local_cluster.id)
cls.remote_cluster = cls.helper.get_remote_cluster(cls.apiclient,
zoneid=cls.zone.id)
cls.host_remote = cls.helper.list_hosts_by_cluster_id(
cls.apiclient, cls.remote_cluster.id)
cls.services["domainid"] = cls.domain.id
cls.services["small"]["zoneid"] = cls.zone.id
cls.services["templates"]["ostypeid"] = template.ostypeid
cls.services["zoneid"] = cls.zone.id
cls.services["diskofferingid"] = cls.disk_offerings.id
cls.volume_1 = Volume.create(cls.apiclient,
cls.services,
account=cls.account.name,
domainid=cls.account.domainid)
cls.volume = Volume.create(cls.apiclient,
cls.services,
account=cls.account.name,
domainid=cls.account.domainid)
cls.virtual_machine = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=template.id,
accountid=cls.account.name,
domainid=cls.account.domainid,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
hostid=cls.host[0].id,
rootdisksize=10)
cls.virtual_machine2 = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=template.id,
accountid=cls.account.name,
domainid=cls.account.domainid,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
hostid=cls.host[0].id,
rootdisksize=10)
cls.virtual_machine3 = VirtualMachine.create(
cls.apiclient, {"name": "StorPool-%s" % uuid.uuid4()},
zoneid=cls.zone.id,
templateid=template.id,
accountid=cls.account.name,
domainid=cls.account.domainid,
serviceofferingid=cls.service_offering.id,
hypervisor=cls.hypervisor,
hostid=cls.host[0].id,
rootdisksize=10)
cls.template = template
cls.random_data_0 = random_gen(size=100)
cls.test_dir = "/tmp"
cls.random_data = "random.data"
return
def test_02_list_snapshots_with_removed_data_store(self):
"""Test listing volume snapshots with removed data stores
"""
# 1 - Create new volume -> V
# 2 - Create new Primary Storage -> PS
# 3 - Attach and detach volume V from vm
# 4 - Migrate volume V to PS
# 5 - Take volume V snapshot -> S
# 6 - List snapshot and verify it gets properly listed although Primary Storage was removed
# Create new volume
vol = Volume.create(
self.apiclient,
self.services["volume"],
diskofferingid=self.disk_offering.id,
zoneid=self.zone.id,
account=self.account.name,
domainid=self.account.domainid,
)
self.cleanup.append(vol)
self.assertIsNotNone(vol, "Failed to create volume")
vol_res = Volume.list(
self.apiclient,
id=vol.id
)
self.assertEqual(
validateList(vol_res)[0],
PASS,
"Invalid response returned for list volumes")
vol_uuid = vol_res[0].id
# Create new Primary Storage
clusters = list_clusters(
self.apiclient,
zoneid=self.zone.id
)
assert isinstance(clusters,list) and len(clusters)>0
storage = StoragePool.create(self.apiclient,
self.services["nfs2"],
clusterid=clusters[0].id,
zoneid=self.zone.id,
podid=self.pod.id
)
self.cleanup.append(self.virtual_machine_with_disk)
self.cleanup.append(storage)
self.assertEqual(
storage.state,
'Up',
"Check primary storage state"
)
self.assertEqual(
storage.type,
'NetworkFilesystem',
"Check storage pool type"
)
storage_pools_response = list_storage_pools(self.apiclient,
id=storage.id)
self.assertEqual(
isinstance(storage_pools_response, list),
True,
"Check list response returns a valid list"
)
self.assertNotEqual(
len(storage_pools_response),
0,
"Check list Hosts response"
)
storage_response = storage_pools_response[0]
self.assertEqual(
storage_response.id,
storage.id,
"Check storage pool ID"
)
self.assertEqual(
storage.type,
storage_response.type,
"Check storage pool type "
)
# Attach created volume to vm, then detach it to be able to migrate it
self.virtual_machine_with_disk.stop(self.apiclient)
self.virtual_machine_with_disk.attach_volume(
self.apiclient,
vol
)
self.virtual_machine_with_disk.detach_volume(
self.apiclient,
vol
)
# Migrate volume to new Primary Storage
Volume.migrate(self.apiclient,
storageid=storage.id,
volumeid=vol.id
)
volume_response = list_volumes(
self.apiclient,
id=vol.id,
)
self.assertNotEqual(
len(volume_response),
0,
"Check list Volumes response"
)
volume_migrated = volume_response[0]
self.assertEqual(
volume_migrated.storageid,
storage.id,
"Check volume storage id"
)
# Take snapshot of new volume
snapshot = Snapshot.create(
self.apiclient,
volume_migrated.id,
account=self.account.name,
domainid=self.account.domainid
)
self.debug("Snapshot created: ID - %s" % snapshot.id)
# Delete volume, VM and created Primary Storage
cleanup_resources(self.apiclient, self.cleanup)
# List snapshot and verify it gets properly listed although Primary Storage was removed
snapshot_response = Snapshot.list(
self.apiclient,
id=snapshot.id
)
self.assertNotEqual(
len(snapshot_response),
0,
"Check list Snapshot response"
)
self.assertEqual(
snapshot_response[0].id,
snapshot.id,
"Check snapshot id"
)
# Delete snapshot and verify it gets properly deleted (should not be listed)
self.cleanup = [snapshot]
cleanup_resources(self.apiclient, self.cleanup)
self.cleanup = []
snapshot_response_2 = Snapshot.list(
self.apiclient,
id=snapshot.id
)
self.assertEqual(
snapshot_response_2,
None,
"Check list Snapshot response"
)
return
def setUpClass(cls):
# Set up API client
testclient = super(TestVMSnapshots, cls).getClsTestClient()
cls.apiClient = testclient.getApiClient()
cls.testdata = TestData().testdata
# Set up XenAPI connection
host_ip = "https://" + \
list_hosts(cls.apiClient, clusterid=cls.testdata[TestData.clusterId], name="XenServer-6.5-1")[0].ipaddress
cls.xen_session = XenAPI.Session(host_ip)
xenserver = cls.testdata[TestData.xenServer]
cls.xen_session.xenapi.login_with_password(
xenserver[TestData.username], xenserver[TestData.password])
# Set up SolidFire connection
cls.sf_client = sf_api.SolidFireAPI(
endpoint_dict=cls.testdata[TestData.solidFire])
# Get Resources from Cloud Infrastructure
cls.zone = get_zone(cls.apiClient,
zone_id=cls.testdata[TestData.zoneId])
template = get_template(
cls.apiClient,
cls.zone.id,
template_name=cls.testdata[TestData.templateName])
cls.domain = get_domain(cls.apiClient, cls.testdata[TestData.domainId])
# Create test account
cls.account = Account.create(cls.apiClient,
cls.testdata[TestData.account],
admin=1)
# Set up connection to make customized API calls
user = User.create(cls.apiClient,
cls.testdata[TestData.user],
account=cls.account.name,
domainid=cls.domain.id)
url = cls.testdata[TestData.url]
api_url = "http://" + url + ":8080/client/api"
userkeys = User.registerUserKeys(cls.apiClient, user.id)
cls.cs_api = SignedAPICall.CloudStack(api_url, userkeys.apikey,
userkeys.secretkey)
primarystorage = cls.testdata[TestData.primaryStorage]
cls.primary_storage = StoragePool.create(
cls.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor])
compute_offering = ServiceOffering.create(
cls.apiClient, cls.testdata[TestData.computeOffering])
cls.disk_offering = DiskOffering.create(
cls.apiClient, cls.testdata[TestData.diskOffering])
# Create VM and volume for tests
cls.virtual_machine = VirtualMachine.create(
cls.apiClient,
cls.testdata[TestData.virtualMachine],
accountid=cls.account.name,
zoneid=cls.zone.id,
serviceofferingid=compute_offering.id,
templateid=template.id,
domainid=cls.domain.id,
startvm=True)
cls._cleanup = [
cls.virtual_machine, compute_offering, cls.disk_offering, user,
cls.account
]
def setUpClass(cls):
# Set up API client
testclient = super(TestUploadDownload, cls).getClsTestClient()
cls.apiClient = testclient.getApiClient()
cls.configData = testclient.getParsedTestDataConfig()
cls.dbConnection = testclient.getDbConnection()
cls.testdata = TestData().testdata
# Set up SolidFire connection
solidfire = cls.testdata[TestData.solidFire]
cls.sfe = ElementFactory.create(solidfire[TestData.mvip], solidfire[TestData.username], solidfire[TestData.password])
# Get Resources from Cloud Infrastructure
cls.zone = get_zone(cls.apiClient, zone_id=cls.testdata[TestData.zoneId])
cls.cluster = list_clusters(cls.apiClient)[0]
cls.template = get_template(cls.apiClient, cls.zone.id, hypervisor=TestData.hypervisor_type)
cls.domain = get_domain(cls.apiClient, cls.testdata[TestData.domainId])
# Create test account
cls.account = Account.create(
cls.apiClient,
cls.testdata[TestData.account],
admin=1
)
# Set up connection to make customized API calls
user = User.create(
cls.apiClient,
cls.testdata[TestData.user],
account=cls.account.name,
domainid=cls.domain.id
)
url = cls.testdata[TestData.url]
api_url = "http://" + url + ":8080/client/api"
userkeys = User.registerUserKeys(cls.apiClient, user.id)
cls.cs_api = SignedAPICall.CloudStack(api_url, userkeys.apikey, userkeys.secretkey)
primarystorage = cls.testdata[TestData.primaryStorage]
cls.primary_storage = StoragePool.create(
cls.apiClient,
primarystorage,
scope=primarystorage[TestData.scope],
zoneid=cls.zone.id,
provider=primarystorage[TestData.provider],
tags=primarystorage[TestData.tags],
capacityiops=primarystorage[TestData.capacityIops],
capacitybytes=primarystorage[TestData.capacityBytes],
hypervisor=primarystorage[TestData.hypervisor]
)
compute_offering = ServiceOffering.create(
cls.apiClient,
cls.testdata[TestData.computeOffering]
)
cls.disk_offering = DiskOffering.create(
cls.apiClient,
cls.testdata[TestData.diskOffering],
custom=True
)
# Create VM and volume for tests
cls.virtual_machine = VirtualMachine.create(
cls.apiClient,
cls.testdata[TestData.virtualMachine],
accountid=cls.account.name,
zoneid=cls.zone.id,
serviceofferingid=compute_offering.id,
templateid=cls.template.id,
domainid=cls.domain.id,
startvm=True
)
cls._cleanup = [
compute_offering,
cls.disk_offering,
user,
cls.account
]
