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cloudstack/test/integration/component/test_deploy_vgpu_vm.py
Daan Hoogland 148efbb73f Merge remote-tracking branch 'origin/4.5' into merge-master 
Conflicts:
	engine/schema/src/com/cloud/upgrade/dao/Upgrade441to450.java
	plugins/hypervisors/baremetal/src/com/cloud/baremetal/manager/BaremetalManagerImpl.java
	plugins/hypervisors/baremetal/src/com/cloud/baremetal/manager/BaremetalVlanManager.java
	plugins/hypervisors/baremetal/src/com/cloud/baremetal/manager/BaremetalVlanManagerImpl.java
	plugins/hypervisors/baremetal/src/com/cloud/baremetal/networkservice/BaremetalKickStartServiceImpl.java
	plugins/hypervisors/vmware/src/com/cloud/storage/resource/VmwareStorageProcessor.java
	server/src/com/cloud/network/router/VirtualNetworkApplianceManagerImpl.java
	server/src/com/cloud/network/router/VpcVirtualNetworkApplianceManagerImpl.java
	setup/db/db/schema-441to450.sql
	test/integration/component/test_deploy_vgpu_vm.py
	tools/marvin/marvin/config/test_data.py
2014-10-16 12:29:37 +02:00

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# Licensed to the Apache Software Foundation (ASF) under one
# or more contributor license agreements. See the NOTICE file
# distributed with this work for additional information
# regarding copyright ownership. The ASF licenses this file
# to you under the Apache License, Version 2.0 (the
# "License"); you may not use this file except in compliance
# with the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless by applicable law or agreed to in writing,
# software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the License for the
# specific language governing permissions and limitations
# under the License.
#Test from the Marvin - Testing in Python wiki
#All tests inherit from cloudstackTestCase
from marvin.cloudstackTestCase import cloudstackTestCase, unittest
from marvin.cloudstackAPI import changeServiceForVirtualMachine,updateServiceOffering,listConfigurations,startVirtualMachine
#Import Integration Libraries
#base - contains all resources as entities and defines create, delete, list operations on them
from marvin.lib.base import Account, VirtualMachine, ServiceOffering , Template , Host, VmSnapshot
#utils - utility classes for common cleanup, external library wrappers etc
from marvin.lib.utils import cleanup_resources,random_gen
#common - commonly used methods for all tests are listed here
from marvin.lib.common import get_zone, get_domain, get_template, list_hosts ,list_service_offering, get_windows_template, get_pod, list_clusters, list_virtual_machines
from marvin.sshClient import SshClient
from marvin.codes import FAILED, XEN_SERVER
from nose.plugins.attrib import attr
import time
class TestvGPUWindowsVm(cloudstackTestCase):
"""
Testing vGPU VM with All vGPU service offerings
"""
@classmethod
def setUpClass(cls):
testClient = super(TestvGPUWindowsVm, cls).getClsTestClient()
cls.testdata = cls.testClient.getParsedTestDataConfig()
cls.apiclient = cls.testClient.getApiClient()
cls._cleanup = []
cls.cleanup = []
hosts = list_hosts(
cls.apiclient,
hypervisor="XenServer"
)
if hosts is None:
raise unittest.SkipTest("There are no XenServers available. GPU feature is supported only on XenServer.Check listhosts response")
else:
cls.k140qgpuhosts=0
cls.k120qgpuhosts=0
cls.k100gpuhosts=0
cls.k260qgpuhosts=0
cls.k240qgpuhosts=0
cls.k220qgpuhosts=0
cls.k200gpuhosts=0
cls.k1passthroughgpuhosts=0
cls.k2passthroughgpuhosts=0
cls.nongpuhosts=[]
cls.k2hosts=0
cls.k1hosts=0
cls.k100_vgpu_service_offering=[]
cls.k200_vgpu_service_offering=[]
cls.nonvgpu_service_offering=[]
cls.vm_k1_card=[]
cls.vm_k2_card=[]
cls.vm2_k2_card=[]
cls.nonvgpu=[]
cls.vmlifecycletest=0
cls.vmsnapwomemory=0
cls.vmsnapwithmemory=0
for ghost in hosts :
if ghost.hypervisorversion >= "6.2.0":
sshClient = SshClient(host=ghost.ipaddress, port=22, user='root',passwd=cls.testdata["host_password"])
if ghost.hypervisorversion == "6.2.0":
res = len(sshClient.execute("xe patch-list uuid=0850b186-4d47-11e3-a720-001b2151a503"))
if res == 0:
continue
k1card= len(sshClient.execute("lspci | grep \"GRID K1\""))
k2card= len(sshClient.execute("lspci | grep \"GRID K2\""))
cls.debug("k1 card and k2 card details are :%s %s "%(k1card,k2card))
if (k2card==0) and (k1card==0):
cls.nongpuhosts.append(ghost.ipaddress)
if k2card !=0:
cls.k2hosts=cls.k2hosts+1
k260q = len(sshClient.execute("xe vgpu-type-list model-name=\"GRID K260Q\""))
k240q = len(sshClient.execute("xe vgpu-type-list model-name=\"GRID K240Q\""))
k220q = len(sshClient.execute("xe vgpu-type-list model-name=\"GRID K220Q\""))
k200 = len(sshClient.execute("xe vgpu-type-list model-name=\"GRID K200\""))
k2passthrough = len(sshClient.execute("xe vgpu-type-list model-name='passthrough'"))
if ((k260q==0) and (k240q==0) and (k220q==0) and (k200==0) and (k2passthrough== 0)):
continue
else:
if k260q != 0 :
cls.k260qgpuhosts=cls.k260qgpuhosts+1
if k240q != 0 :
cls.k240qgpuhosts=cls.k240qgpuhosts+1
if k220q != 0 :
cls.k220qgpuhosts=cls.k220qgpuhosts+1
if k200 != 0 :
cls.k200gpuhosts=cls.k200gpuhosts+1
if k2passthrough != 0:
cls.k2passthroughgpuhosts=cls.k2passthroughgpuhosts+1
if k1card != 0:
cls.k1hosts=cls.k1hosts+1
k100 = len(sshClient.execute("xe vgpu-type-list model-name=\"GRID K100\""))
k120q = len(sshClient.execute("xe vgpu-type-list model-name=\"GRID K120Q\""))
k140q = len(sshClient.execute("xe vgpu-type-list model-name=\"GRID K140Q\""))
k1passthrough = len(sshClient.execute("xe vgpu-type-list model-name='passthrough'"))
if ((k100 == 0) and (k120q == 0) and (k140q == 0) and (k1passthrough == 0)):
continue
else:
if k140q != 0 :
cls.k140qgpuhosts=cls.k140qgpuhosts+1
if k120q != 0 :
cls.k120qgpuhosts=cls.k120qgpuhosts+1
if k100 != 0 :
cls.k100gpuhosts=cls.k100gpuhosts+1
if k1passthrough != 0 :
cls.k1passthroughgpuhosts=cls.k1passthroughgpuhosts+1
if (cls.k2hosts == 0) and (cls.k1hosts == 0):
raise unittest.SkipTest("No XenServer available with GPU Drivers installed")
cls.zone = get_zone(cls.apiclient, cls.testClient.getZoneForTests())
cls.domain = get_domain(cls.apiclient)
cls.pod = get_pod(cls.apiclient, cls.zone.id)
cls.account = Account.create(
cls.apiclient,
cls.testdata["account"],
domainid=cls.domain.id
)
cls.template = get_windows_template(cls.apiclient, cls.zone.id ,ostype_desc="Windows 8 (64-bit)")
#cls.template = get_windows_template(cls.apiclient, cls.zone.id ,ostype_desc="Windows Server 2012 (64-bit)")
if cls.template == FAILED:
if "http://pleaseupdateURL/dummy.vhd" in cls.testdata["vgpu"] ["templateregister1"]["url"]:
raise unittest.SkipTest("Check Test Data file if it has the valid template URL")
cls.template = Template.register(
cls.apiclient,
cls.testdata["vgpu"] ["templateregister1"],
hypervisor = "XenServer",
zoneid=cls.zone.id,
domainid=cls.account.domainid,
account=cls.account.name
)
timeout = cls.testdata["vgpu"]["timeout"]
while True:
time.sleep(cls.testdata["vgpu"]["sleep"])
list_template_response = Template.list(
cls.apiclient,
templatefilter=\
cls.testdata["templatefilter"],
id=cls.template.id
)
if (isinstance(list_template_response, list)) is not True:
raise unittest.SkipTest("Check list template api response returns a valid list")
if len(list_template_response) is None :
raise unittest.SkipTest("Check template registered is in List Templates")
template_response = list_template_response[0]
if template_response.isready == True:
break
if timeout == 0:
raise unittest.SkipTest("Failed to download template(ID: %s). " % template_response.id)
timeout = timeout - 1
cls._cleanup = [
cls.account,
#cls.k100_vgpu_service_offering,
#cls.k200_vgpu_service_offering
]
@attr(tags = ['advanced', 'basic', 'vgpu'], required_hardware="true")
def setUp(self):
self.testdata = self.testClient.getParsedTestDataConfig()
self.apiclient = self.testClient.getApiClient()
self.cleanup = []
return
def check_host_vgpu_capacity(self,gpucard,gtype):
gputhosts = list_hosts(
self.apiclient,
hypervisor="XenServer"
)
vgpucapacity=0
for ghost in gputhosts:
if ghost.gpugroup is not None:
for gp in ghost.gpugroup:
if gp.gpugroupname == gpucard:
for gptype in gp.vgpu:
if gptype.vgputype == gtype:
vgpucapacity=vgpucapacity+gptype.remainingcapacity
return(vgpucapacity)
@attr(tags = ['advanced', 'basic', 'vgpu'], required_hardware="true")
def vgpu_serviceoffering_creation(self,gtype,nvidiamodel):
if gtype=="nonvgpuoffering" and nvidiamodel=="None":
self.service_offering = ServiceOffering.create(
self.apiclient,
self.testdata["vgpu"]["service_offerings"][gtype]
)
self.debug("service offering details are:%s"%self.service_offering)
list_service_response = ServiceOffering.list(
self.apiclient,
id=self.service_offering.id
)
if list_service_response is None:
raise unittest.SkipTest("Check Service Offering list for %s service offering" %(gtype))
self.assertEqual(
list_service_response[0].displaytext,
self.testdata["vgpu"]["service_offerings"][gtype]["displaytext"],
"Check server display text in createServiceOfferings"
)
self.assertEqual(
list_service_response[0].name,
self.testdata["vgpu"]["service_offerings"][gtype]["name"],
"Check name in createServiceOffering"
)
else:
self.testdata["vgpu"]["service_offerings"][gtype]["serviceofferingdetails"] = [{'pciDevice': nvidiamodel},
{'vgpuType':gtype}]
self.service_offering = ServiceOffering.create(
self.apiclient,
self.testdata["vgpu"]["service_offerings"][gtype]
)
list_service_response = ServiceOffering.list(
self.apiclient,
id=self.service_offering.id
)
if list_service_response is None:
raise unittest.SkipTest("Check Service Offering list for %s service offering" %(gtype))
self.assertEqual(
list_service_response[0].serviceofferingdetails.vgpuType,
gtype,
"Failed To Create Service Offering . Check vGPU Service Offering list"
)
self.assertEqual(
list_service_response[0].displaytext,
self.testdata["vgpu"]["service_offerings"][gtype]["displaytext"],
"Check server displaytext in createServiceOfferings"
)
self.assertEqual(
list_service_response[0].name,
self.testdata["vgpu"]["service_offerings"][gtype]["name"],
"Check name in createServiceOffering"
)
return(self.service_offering)
@attr(tags = ['advanced', 'basic', 'vgpu'], required_hardware="true")
def check_for_vGPU_resource(self,hostid,vminstancename,serviceofferingid,vgputype):
"""
Validate the VM for VGPU resources
"""
"""Create SSH Client for Host Connection
"""
vgpu_host = list_hosts(
self.apiclient,
id=hostid
)
ssh_client = SshClient(host=vgpu_host[0].ipaddress, port=22, user='root',passwd=self.testdata["host_password"])
"""
Get vGPU type model
"""
vgpu_type_model = ssh_client.execute("xe vgpu-list vm-name-label=" + vminstancename + " params=type-model-name --minimal")
self.debug("vgpu type model is %s and value is %s and length is %s"%(vgpu_type_model,vgpu_type_model[0],len(vgpu_type_model[0])))
if vgputype is None:
if len(vgpu_type_model[0])==0:
self.debug("This is non GPU instance")
return
else:
self.fail("Non vGPU VM has GPU cards @ host:%s"%vminstancename)
self.assertNotEqual(
len(vgpu_type_model),
0,
"The VM is NOT deployed with vGPU cards"
)
"""
List service offering from which VM is deployed
"""
list_service_offering_response = ServiceOffering.list(
self.apiclient,
id=serviceofferingid
)
""" Check whether the vgputype in the service offering is same as the one obtained by listing the vgpu type model
"""
self.debug("VM vGPU type is: %s and vGPU type on XenServer is : %s"%(list_service_offering_response[0].serviceofferingdetails.vgpuType,vgpu_type_model[0]))
self.assertEqual(
list_service_offering_response[0].serviceofferingdetails.vgpuType,
vgpu_type_model[0],
"VM does not have the correct GPU resources, verified on the host"
)
"""
Check whether the VM is deployed with the card which was mentioned in the service offering
"""
self.assertEqual(
vgputype,
list_service_offering_response[0].serviceofferingdetails.vgpuType,
"The VM is NOT deployed with correct cards, verified from CS"
)
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def deploy_vGPU_windows_vm(self,vgpuofferingid,vgput):
"""
Validate vGPU K1 windows instances
"""
self.virtual_machine = VirtualMachine.create(
self.apiclient,
self.testdata["virtual_machine"],
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
serviceofferingid=vgpuofferingid,
templateid=self.template.id
)
time.sleep(self.testdata["vgpu"]["sleep"])
list_vms = VirtualMachine.list(self.apiclient, id=self.virtual_machine.id)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s"\
% self.virtual_machine.id
)
self.assertEqual(
isinstance(list_vms, list),
True,
"List VM response was not a valid list"
)
self.assertNotEqual(
len(list_vms),
0,
"List VM response was empty"
)
vm = list_vms[0]
self.assertEqual(
vm.id,
self.virtual_machine.id,
"Virtual Machine ids do not match"
)
self.assertEqual(
vm.name,
self.virtual_machine.name,
"Virtual Machine names do not match"
)
self.assertEqual(
vm.state,
"Running",
msg="VM is not in Running state"
)
if vgput != "nonvgpuoffering":
self.assertEqual(
vm.vgpu,
vgput,
msg="Failed to deploy VM with vGPU card"
)
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def delete_vgpu_service_offering(self,serviceoffering):
"""
delete vGPU Service Offering
"""
serviceoffering.delete(self.apiclient)
list_service_response = list_service_offering(
self.apiclient,
id=serviceoffering.id
)
self.assertEqual(
list_service_response,
None,
"Check if service offering exists in listServiceOfferings"
)
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def check_for_vm(self,vgpucard,vgpuofferingid,vmid):
list_vm_response = list_virtual_machines(
self.apiclient,
id=vmid
)
if isinstance(list_vm_response, list):
vm = list_vm_response[0]
if vm.state == 'Running':
self.debug("VM state: %s" % vm.state)
else:
self.fail("Failed to start VM (ID: %s)" % vm.id)
if vm.serviceofferingid == vgpuofferingid:
self.debug("VM service offering id : %s" % vm.serviceofferingid)
else:
self.fail("Service Offering is not matching " % vm.id)
if vgpucard !="nonvgpuoffering":
if vm.vgpu == vgpucard:
self.debug("VM vGPU card is : %s" % vm.vgpu)
else:
self.fail("Failed to start VM (ID: %s) with %s vGPU card " % (vm.id,vgpucard))
return(list_vm_response[0])
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def destroy_vm(self):
"""Destroy Virtual Machine
"""
self.virtual_machine.delete(self.apiclient)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=self.virtual_machine.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
self.assertNotEqual(
len(list_vm_response),
0,
"Check VM avaliable in List Virtual Machines"
)
self.assertEqual(
list_vm_response[0].state,
"Destroyed",
"Check virtual machine is in destroyed state"
)
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def stop_vm(self):
"""Stop Virtual Machine
"""
try:
self.virtual_machine.stop(self.apiclient)
except Exception as e:
self.fail("Failed to stop VM: %s" % e)
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def start_vm(self):
"""Start Virtual Machine
"""
self.debug("Starting VM - ID: %s" % self.virtual_machine.id)
self.virtual_machine.start(self.apiclient)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=self.virtual_machine.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
self.assertNotEqual(
len(list_vm_response),
0,
"Check VM available in List Virtual Machines"
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% self.virtual_machine.id
)
self.assertEqual(
list_vm_response[0].state,
"Running",
"Check virtual machine is in running state"
)
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def serviceoffering_upgrade(self,sourcetype,sourcemodel,desttype,destmodel):
self.sourcevgpuoffering=self.vgpu_serviceoffering_creation(sourcetype,sourcemodel)
self.deploy_vGPU_windows_vm(self.sourcevgpuoffering.id,sourcetype)
time.sleep(self.testdata["vgpu"]["sleep"])
vm=self.check_for_vm(sourcetype,self.sourcevgpuoffering.id,self.virtual_machine.id)
self.check_for_vGPU_resource(vm.hostid,vm.instancename,vm.serviceofferingid,vm.vgpu)
self.stop_vm()
self.destvgpuoffering=self.vgpu_serviceoffering_creation(desttype,destmodel)
cmd = changeServiceForVirtualMachine.changeServiceForVirtualMachineCmd()
cmd.id = vm.id
cmd.serviceofferingid = self.destvgpuoffering.id
self.apiclient.changeServiceForVirtualMachine(cmd)
self.debug("Starting VM - ID: %s" % vm.id)
self.start_vm()
time.sleep(self.testdata["vgpu"]["sleep"])
# Ensure that VM is in running state
vm=self.check_for_vm(desttype,self.destvgpuoffering.id,vm.id)
self.check_for_vGPU_resource(vm.hostid,vm.instancename,vm.serviceofferingid,vm.vgpu)
self.delete_vgpu_service_offering(self.destvgpuoffering)
self.delete_vgpu_service_offering(self.sourcevgpuoffering)
self.destroy_vm()
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def vm_snapshot_serviceoffering_upgrade(self,sourcetype,sourcemodel,desttype,destmodel):
self.sourcevgpuoffering=self.vgpu_serviceoffering_creation(sourcetype,sourcemodel)
self.deploy_vGPU_windows_vm(self.sourcevgpuoffering.id,sourcetype)
time.sleep(self.testdata["vgpu"]["sleep"])
vm=self.check_for_vm(sourcetype,self.sourcevgpuoffering.id,self.virtual_machine.id)
self.check_for_vGPU_resource(vm.hostid,vm.instancename,vm.serviceofferingid,vm.vgpu)
self.stop_vm()
self.destvgpuoffering=self.vgpu_serviceoffering_creation(desttype,destmodel)
cmd = changeServiceForVirtualMachine.changeServiceForVirtualMachineCmd()
cmd.id = vm.id
cmd.serviceofferingid = self.destvgpuoffering.id
self.apiclient.changeServiceForVirtualMachine(cmd)
self.debug("Starting VM - ID: %s" % vm.id)
self.start_vm()
time.sleep(self.testdata["vgpu"]["sleep"])
# Ensure that VM is in running state
vm=self.check_for_vm(desttype,self.destvgpuoffering.id,vm.id)
self.check_for_vGPU_resource(vm.hostid,vm.instancename,vm.serviceofferingid,vm.vgpu)
self.delete_vgpu_service_offering(self.destvgpuoffering)
self.delete_vgpu_service_offering(self.sourcevgpuoffering)
self.destroy_vm()
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def deploy_vm(self,type,model):
self.vgpuoffering=self.vgpu_serviceoffering_creation(type,model)
if self.vgpuoffering is not None:
self.deploy_vGPU_windows_vm(self.vgpuoffering.id,type)
time.sleep(self.testdata["vgpu"]["sleep"])
vm=self.check_for_vm(type,self.vgpuoffering.id,self.virtual_machine.id)
self.check_for_vGPU_resource(vm.hostid,vm.instancename,vm.serviceofferingid,vm.vgpu)
self.destroy_vm()
self.delete_vgpu_service_offering(self.vgpuoffering)
return
def new_template_register(self,guestostype):
template1 = get_windows_template(self.apiclient, self.zone.id ,ostype_desc=guestostype)
if template1 == FAILED:
if "http://pleaseupdateURL/dummy.vhd" in cls.testdata["vgpu"] [guestostype]["url"]:
raise unittest.SkipTest("Check Test Data file if it has the valid template URL")
template1 = Template.register(
self.apiclient,
self.testdata["vgpu"] [guestostype],
hypervisor = "XenServer",
zoneid=cls.zone.id,
domainid=cls.account.domainid,
account=cls.account.name
)
timeout = self.testdata["vgpu"]["timeout"]
while True:
time.sleep(self.testdata["vgpu"]["sleep"])
list_template_response = Template.list(
self.apiclient,
templatefilter=\
self.testdata["templatefilter"],
id=template1.id
)
if (isinstance(list_template_response, list)) is not True:
raise unittest.SkipTest("Check list template api response returns a valid list")
if len(list_template_response) is None :
raise unittest.SkipTest("Check template registered is in List Templates")
template_response = list_template_response[0]
if template_response.isready == True:
break
if timeout == 0:
raise unittest.SkipTest("Failed to download template(ID: %s)" % template_response.id)
timeout = timeout - 1
return(template1.id)
def deploy_vm_lifecycle(self):
"""
Create Service Offerings for Both K1 and K2 cards to be used for VM life cycle tests
"""
if(self.k1hosts != 0):
if(self.k140qgpuhosts != 0):
gtype = "GRID K140Q"
elif(self.k120qgpuhosts != 0):
gtype = "GRID K120Q"
elif(self.k100gpuhosts !=0):
gtype = "GRID K100"
else:
gtype = "passthrough"
self.testdata["vgpu"]["service_offerings"][gtype]["serviceofferingdetails"] = [{'pciDevice':'Group of NVIDIA Corporation GK107GL [GRID K1] GPUs'},
{'vgpuType':gtype}]
try:
self.__class__.k100_vgpu_service_offering = ServiceOffering.create(
self.apiclient,
self.testdata["vgpu"]["service_offerings"][gtype]
)
except Exception as e:
self.fail("Failed to create the service offering, %s" % e)
if(self.k2hosts != 0):
if(self.k240qgpuhosts != 0):
gtype = "GRID K240Q"
elif(cls.k220qgpuhosts != 0):
gtype = "GRID K220Q"
elif(self.k200gpuhosts !=0):
gtype = "GRID K200"
else:
gtype = "passthrough"
self.testdata["vgpu"]["service_offerings"][gtype]["serviceofferingdetails"] = [{'pciDevice': 'Group of NVIDIA Corporation GK104GL [GRID K2] GPUs'},
{'vgpuType':gtype}]
try:
self.__class__.k200_vgpu_service_offering = ServiceOffering.create(
self.apiclient,
self.testdata["vgpu"]["service_offerings"][gtype]
)
except Exception as e:
self.fail("Failed to create the service offering, %s" % e)
win8templateid=self.new_template_register("Windows 8 (64-bit)")
win2012templateid=self.new_template_register("Windows Server 2012 (64-bit)")
win7templateid=self.new_template_register("Windows 7 (64-bit)")
self.__class__.nonvgpu_service_offering = ServiceOffering.create(
self.apiclient,
self.testdata["vgpu"]["service_offerings"]["nonvgpuoffering"]
)
"""
Create Virtual Machines for Both K1 and K2 cards to be used for VM life cycle tests
"""
if(self.k1hosts != 0):
self.__class__.vm_k1_card = VirtualMachine.create(
self.apiclient,
self.testdata["virtual_machine"],
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
serviceofferingid=self.k100_vgpu_service_offering.id,
templateid=win8templateid
)
if(self.k2hosts !=0):
self.__class__.vm_k2_card = VirtualMachine.create(
self.apiclient,
self.testdata["virtual_machine"],
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
serviceofferingid=self.k200_vgpu_service_offering.id,
templateid=win2012templateid
)
if(self.k2hosts !=0):
self.__class__.vm2_k2_card = VirtualMachine.create(
self.apiclient,
self.testdata["virtual_machine"],
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
serviceofferingid=self.k200_vgpu_service_offering.id,
templateid=win7templateid
)
self.__class__.nonvgpu = VirtualMachine.create(
self.apiclient,
self.testdata["virtual_machine"],
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
serviceofferingid=self.__class__.nonvgpu_service_offering.id,
templateid=win7templateid
)
return
def check_gpu_resources_released_vm(self,gpuhostid,vm_vgpu_type,rcapacity):
hhosts = list_hosts(
self.apiclient,
hypervisor="XenServer",
id=gpuhostid
)
self.assertEqual(
isinstance(hhosts, list),
True,
"Check list hosts response returns a valid list"
)
self.assertNotEqual(
len(hhosts),
0,
"Check Host details are available in List Hosts"
)
for ggroup in hhosts:
if ggroup.ipaddress not in self.nongpuhosts:
for gp in ggroup.gpugroup:
#if gp.gpugroupname == "Group of NVIDIA Corporation GK104GL [GRID K2] GPUs":
for gptype in gp.vgpu:
if gptype.vgputype==vm_vgpu_type:
self.debug("Latest remainingcapacity is %s and before remainingcapacity is %s"%(gptype.remainingcapacity,rcapacity))
if gptype.remainingcapacity != rcapacity+1:
self.fail("Host capacity is not updated .GPU resources should be released when VM is stopped/Destroyed ")
return
def check_vm_state(self,vmid):
list_vm_response = list_virtual_machines(
self.apiclient,
id=vmid
)
if list_vm_response is None:
return("Expunge")
return(list_vm_response[0].state)
def check_host_vgpu_remaining_capacity(self,gpuhostid,gtype):
gputhosts = list_hosts(
self.apiclient,
hypervisor="XenServer",
id=gpuhostid
)
vgpucapacity=0
for ghost in gputhosts:
if ghost.gpugroup is not None:
for gp in ghost.gpugroup:
#if gp.gpugroupname == gpucard:
for gptype in gp.vgpu:
if gptype.vgputype == gtype:
vgpucapacity=vgpucapacity+gptype.remainingcapacity
return(vgpucapacity)
def verify_vm(self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.getState(
self.apiclient,
"Running")
time.sleep(self.testdata["vgpu"]["sleep"]*3)
self.check_for_vGPU_resource(vm_gpu_card.hostid,vm_gpu_card.instancename,vm_gpu_card.serviceofferingid,vm_gpu_card.vgpu)
def stop_life_cycle_vm (self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.stop(self.apiclient)
time.sleep(self.testdata["vgpu"]["sleep"])
vm_gpu_card.getState(
self.apiclient,
"Stopped")
def start_life_cycle_vm(self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.start(self.apiclient)
time.sleep(self.testdata["vgpu"]["sleep"])
vm_gpu_card.getState(
self.apiclient,
"Running")
def restore_life_cycle_vm(self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.restore(self.apiclient)
time.sleep(self.testdata["vgpu"]["sleep"])
def reboot_life_cycle_vm(self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.reboot(self.apiclient)
time.sleep(self.testdata["vgpu"]["sleep"])
def delete_vm_life_cycle_vm(self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.delete(self.apiclient)
time.sleep(self.testdata["vgpu"]["sleep"])
vm_gpu_card.getState(
self.apiclient,
"Destroyed")
def recover_vm_life_cycle_vm(self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.recover(self.apiclient)
vm_gpu_card.getState(
self.apiclient,
"Stopped")
def recovervm(self,vm_gpu_card):
if self.check_vm_state(vm_gpu_card.id)=="Expunge":
raise unittest.SkipTest("VM is already deleted hence skipping")
self.recover_vm_life_cycle_vm(vm_gpu_card)
self.start_life_cycle_vm(vm_gpu_card)
self.verify_vm(vm_gpu_card)
return
def startvm(self,vm_gpu_card):
self.start_life_cycle_vm(vm_gpu_card)
self.verify_vm(vm_gpu_card)
return
def stopvm(self,vm_gpu_card):
rcapacity=self.check_host_vgpu_remaining_capacity(vm_gpu_card.hostid,vm_gpu_card.vgpu)
self.stop_life_cycle_vm(vm_gpu_card)
time.sleep(self.testdata["vgpu"]["sleep"]*3)
self.check_gpu_resources_released_vm(vm_gpu_card.hostid,vm_gpu_card.vgpu,rcapacity)
return
def deletevm(self,vm_gpu_card):
rcapacity=self.check_host_vgpu_remaining_capacity(vm_gpu_card.hostid,vm_gpu_card.vgpu)
hostid=vm_gpu_card.hostid
vgputype=vm_gpu_card.vgpu
self.delete_vm_life_cycle_vm(vm_gpu_card)
time.sleep(self.testdata["vgpu"]["sleep"]*3)
self.check_gpu_resources_released_vm(hostid,vgputype,rcapacity)
return
def restorevm(self,vm_gpu_card):
self.restore_life_cycle_vm(vm_gpu_card)
self.verify_vm(vm_gpu_card)
return
def create_vm_snapshot(self,vmcard):
self.debug("Check if deployed VMs are in running state?")
if(vmcard):
vmcard.getState(
self.apiclient,
"Running")
if hasattr(vmcard,"vgpu"):
self.check_for_vGPU_resource(vmcard.hostid,vmcard.instancename,vmcard.serviceofferingid,vmcard.vgpu)
vm_snapshot = VmSnapshot.create(
self.apiclient,
vmcard.id,
"false",
"TestSnapshot",
"Display Text"
)
list_snapshot_response = VmSnapshot.list(self.apiclient, virtualmachineid=vmcard.id, listall=True)
self.assertEqual(
isinstance(list_snapshot_response, list),
True,
"Check list response returns a valid list"
)
self.assertNotEqual(
list_snapshot_response,
None,
"Check if snapshot exists in ListSnapshot"
)
self.assertEqual(
list_snapshot_response[0].state,
"Ready",
"Check the snapshot of vm is ready!"
)
vgpu_host = list_hosts(
self.apiclient,
id=vmcard.hostid
)
ssh_client = SshClient(host=vgpu_host[0].ipaddress, port=22, user='root',passwd=self.testdata["host_password"])
"""
Get vGPU type model
"""
vgpu_snapshot = ssh_client.execute("xe snapshot-list name-label=" + list_snapshot_response[0].name + " --minimal")
#vgpu_snapshot = ssh_client.execute("xe snapshot-param-get param-name=name-label uuid="+vgpu_snapshot_uuid[0]+ " params=type-model-name --minimal")
# self.debug("vgpu type model is %s and value is %s and length is %s"%(vgpu_type_model,vgpu_type_model[0],len(vgpu_type_model[0])))
self.assertNotEqual(
len(vgpu_snapshot[0]),
0,
"VM Snapshot is not created"
)
self.__class__.vmsnapwomemory=1
return
def revert_vm_snapshot(self,vmcard):
self.debug("Check if deployed VMs are in running state?")
#if(vmcard):
# vmcard.getState(
# self.apiclient,
# "Running")
if hasattr(vmcard,"vgpu"):
self.check_for_vGPU_resource(vmcard.hostid,vmcard.instancename,vmcard.serviceofferingid,vmcard.vgpu)
list_snapshot_response = VmSnapshot.list(self.apiclient, virtualmachineid=vmcard.id, listall=True)
self.assertEqual(
isinstance(list_snapshot_response, list),
True,
"Check list response returns a valid list"
)
self.assertNotEqual(
list_snapshot_response,
None,
"Check if snapshot exists in ListSnapshot"
)
self.assertEqual(
list_snapshot_response[0].state,
"Ready",
"Check the snapshot of vm is ready!"
)
VmSnapshot.revertToSnapshot(self.apiclient, list_snapshot_response[0].id)
time.sleep(self.testdata["vgpu"]["sleep"])
list_vm_response = list_virtual_machines(
self.apiclient,
id=vmcard.id
)
vm=list_vm_response[0]
self.assertEqual(
list_vm_response[0].state,
"Stopped",
"Check the state of vm is Stopped"
)
cmd = startVirtualMachine.startVirtualMachineCmd()
cmd.id = vm.id
self.apiclient.startVirtualMachine(cmd)
time.sleep(self.testdata["vgpu"]["sleep"])
list_vm_response = list_virtual_machines(
self.apiclient,
id=vm.id
)
vm=list_vm_response[0]
if vm is None:
self.fail("Failed to list VM details after Vm Snapshot")
self.assertEqual(
vm.state,
"Running",
"Check the state of vm is Running"
)
if hasattr(vmcard,"vgpu"):
self.check_for_vGPU_resource(vmcard.hostid,vmcard.instancename,vmcard.serviceofferingid,vmcard.vgpu)
def delete_vm_snapshot(self,vmcard):
list_snapshot_response = VmSnapshot.list(self.apiclient, virtualmachineid=vmcard.id, listall=True)
self.assertEqual(
isinstance(list_snapshot_response, list),
True,
"Check list response returns a valid list"
)
self.assertNotEqual(
list_snapshot_response,
None,
"Check if snapshot exists in ListSnapshot"
)
Tobedeletedsnapname=list_snapshot_response[0].name
VmSnapshot.deleteVMSnapshot(self.apiclient, list_snapshot_response[0].id)
time.sleep(self.testdata["vgpu"]["sleep"])
list_snapshot_response = VmSnapshot.list(self.apiclient, virtualmachineid=vmcard.id, listall=True)
self.debug("List Snapshot response after snapshot deletion %s"%list_snapshot_response)
self.assertEqual(
list_snapshot_response,
None,
"Check if vm snapshot is deleted"
)
vgpu_host = list_hosts(
self.apiclient,
id=vmcard.hostid
)
ssh_client = SshClient(host=vgpu_host[0].ipaddress, port=22, user='root',passwd=self.testdata["host_password"])
vgpu_snapshot = ssh_client.execute("xe snapshot-list name-label=" +Tobedeletedsnapname + " --minimal")
#vgpu_snapshot = ssh_client.execute("xe snapshot-param-get param-name=name-label uuid="+vgpu_snapshot_uuid[0]+ " params=type-model-name --minimal")
# self.debug("vgpu type model is %s and value is %s and length is %s"%(vgpu_type_model,vgpu_type_model[0],len(vgpu_type_model[0])))
self.debug("List Snapshot response after snapshot deletion is %s %s"%(vgpu_snapshot,vgpu_snapshot[0]))
self.assertEqual(
len(vgpu_snapshot[0]),
0,
"check if VM Snapshot is not deleted"
)
return
def create_vm_snapshot_with_memory(self,vmcard):
self.debug("Check if deployed VMs are in running state?")
if(vmcard):
vmcard.getState(
self.apiclient,
"Running")
self.check_for_vGPU_resource(vmcard.hostid,vmcard.instancename,vmcard.serviceofferingid,vmcard.vgpu)
vm_snapshot = VmSnapshot.create(
self.apiclient,
vmcard.id,
"true",
"TestSnapshotwithmemory",
"Display Text"
)
time.sleep(self.testdata["vgpu"]["sleep"] * 3)
list_snapshot_response = VmSnapshot.list(self.apiclient, virtualmachineid=vmcard.id, listall=True)
self.assertEqual(
isinstance(list_snapshot_response, list),
True,
"Check list response returns a valid list"
)
self.assertNotEqual(
list_snapshot_response,
None,
"Check if snapshot exists in ListSnapshot"
)
self.assertEqual(
list_snapshot_response[0].state,
"Ready",
"Check the snapshot of vm is ready!"
)
vgpu_host = list_hosts(
self.apiclient,
id=vmcard.hostid
)
ssh_client = SshClient(host=vgpu_host[0].ipaddress, port=22, user='root',passwd=self.testdata["host_password"])
vgpu_snapshot = ssh_client.execute("xe snapshot-list name-label=" + list_snapshot_response[0].name + " --minimal")
#vgpu_snapshot = ssh_client.execute("xe snapshot-param-get param-name=name-label uuid="+vgpu_snapshot_uuid[0]+ " params=type-model-name --minimal")
# self.debug("vgpu type model is %s and value is %s and length is %s"%(vgpu_type_model,vgpu_type_model[0],len(vgpu_type_model[0])))
self.assertNotEqual(
len(vgpu_snapshot[0]),
0,
"VM Snapshot is not created"
)
self.__class__.vmsnapwithmemory=1
return
def revert_vm_snapshot_with_memory(self,vmcard):
self.debug("Check if deployed VMs are in running state?")
if(vmcard):
vmcard.getState(
self.apiclient,
"Running")
self.check_for_vGPU_resource(vmcard.hostid,vmcard.instancename,vmcard.serviceofferingid,vmcard.vgpu)
list_snapshot_response = VmSnapshot.list(self.apiclient, virtualmachineid=vmcard.id, listall=True)
self.assertEqual(
isinstance(list_snapshot_response, list),
True,
"Check list response returns a valid list"
)
self.assertNotEqual(
list_snapshot_response,
None,
"Check if snapshot exists in ListSnapshot"
)
self.assertEqual(
list_snapshot_response[0].state,
"Ready",
"Check the snapshot of vm is ready!"
)
VmSnapshot.revertToSnapshot(self.apiclient, list_snapshot_response[0].id)
list_vm_response = list_virtual_machines(
self.apiclient,
id=vmcard.id
)
vm=list_vm_response[0]
if vm is None:
self.fail("Failed to list VM details after Vm Snapshot")
self.assertEqual(
vm.state,
"Running",
"Check the state of vm is Running"
)
self.check_for_vGPU_resource(vmcard.hostid,vmcard.instancename,vmcard.serviceofferingid,vmcard.vgpu)
return
def rebootvm(self,vm_vgpu_card):
self.reboot_life_cycle_vm(vm_vgpu_card)
self.verify_vm(vm_vgpu_card)
return
@attr(tags=["advanced", "advancedns", "smoke"], required_hardware="true")
def vm_snapshot_vgpu(self,vmcard,sourcetype,sourcemodel,desttype,destmodel):
self.create_vm_snapshot(vmcard)
self.start_life_cycle_vm(vmcard)
self.destvgpuoffering=self.vgpu_serviceoffering_creation(desttype,destmodel)
self.stop_life_cycle_vm(vmcard)
cmd = changeServiceForVirtualMachine.changeServiceForVirtualMachineCmd()
cmd.id = vmcard.id
cmd.serviceofferingid = self.destvgpuoffering.id
self.apiclient.changeServiceForVirtualMachine(cmd)
self.debug("Starting VM - ID: %s" % vmcard.id)
self.start_life_cycle_vm(vmcard)
time.sleep(self.testdata["vgpu"]["sleep"])
vm=self.check_for_vm(desttype,self.destvgpuoffering.id,vmcard.id)
# Ensure that VM is in running state
if destmodel!="None":
self.check_for_vGPU_resource(vm.hostid,vm.instancename,vm.serviceofferingid,vm.vgpu)
self.revert_vm_snapshot(vm)
self.delete_vm_snapshot(vm)
def new_template_register(self,guestostype):
template1 = get_windows_template(self.apiclient, self.zone.id ,ostype_desc=guestostype)
if template1 == FAILED:
if "http://pleaseupdateURL/dummy.vhd" in cls.testdata["vgpu"] [guestostype]["url"]:
raise unittest.SkipTest("Check Test Data file if it has the valid template URL")
template1 = Template.register(
self.apiclient,
self.testdata["vgpu"] [guestostype],
hypervisor = "XenServer",
zoneid=cls.zone.id,
domainid=cls.account.domainid,
account=cls.account.name
)
timeout = self.testdata["vgpu"]["timeout"]
while True:
time.sleep(self.testdata["vgpu"]["sleep"])
list_template_response = Template.list(
self.apiclient,
templatefilter=\
self.testdata["templatefilter"],
id=template1.id
)
if (isinstance(list_template_response, list)) is not True:
raise unittest.SkipTest("Check list template api response returns a valid list")
if len(list_template_response) is None :
raise unittest.SkipTest("Check template registered is in List Templates")
template_response = list_template_response[0]
if template_response.isready == True:
break
if timeout == 0:
raise unittest.SkipTest("Failed to download template(ID: %s)" % template_response.id)
timeout = timeout - 1
return(template1.id)
def deploy_vm_lifecycle(self):
"""
Create Service Offerings for Both K1 and K2 cards to be used for VM life cycle tests
"""
if(self.k1hosts != 0):
if(self.k140qgpuhosts != 0):
gtype = "GRID K140Q"
elif(self.k120qgpuhosts != 0):
gtype = "GRID K120Q"
elif(self.k100gpuhosts !=0):
gtype = "GRID K100"
else:
gtype = "passthrough"
self.testdata["vgpu"]["service_offerings"][gtype]["serviceofferingdetails"] = [{'pciDevice':'Group of NVIDIA Corporation GK107GL [GRID K1] GPUs'},
{'vgpuType':gtype}]
try:
self.__class__.k100_vgpu_service_offering = ServiceOffering.create(
self.apiclient,
self.testdata["vgpu"]["service_offerings"][gtype]
)
except Exception as e:
self.fail("Failed to create the service offering, %s" % e)
if(self.k2hosts != 0):
if(self.k240qgpuhosts != 0):
gtype = "GRID K240Q"
elif(cls.k220qgpuhosts != 0):
gtype = "GRID K220Q"
elif(self.k200gpuhosts !=0):
gtype = "GRID K200"
else:
gtype = "passthrough"
self.testdata["vgpu"]["service_offerings"][gtype]["serviceofferingdetails"] = [{'pciDevice': 'Group of NVIDIA Corporation GK104GL [GRID K2] GPUs'},
{'vgpuType':gtype}]
try:
self.__class__.k200_vgpu_service_offering = ServiceOffering.create(
self.apiclient,
self.testdata["vgpu"]["service_offerings"][gtype]
)
except Exception as e:
self.fail("Failed to create the service offering, %s" % e)
win8templateid=self.new_template_register("Windows 8 (64-bit)")
win2012templateid=self.new_template_register("Windows Server 2012 (64-bit)")
win7templateid=self.new_template_register("Windows 7 (64-bit)")
"""
Create Virtual Machines for Both K1 and K2 cards to be used for VM life cycle tests
"""
if(self.k1hosts != 0):
self.__class__.vm_k1_card = VirtualMachine.create(
self.apiclient,
self.testdata["virtual_machine"],
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
serviceofferingid=self.k100_vgpu_service_offering.id,
templateid=win8templateid
)
if(self.k2hosts !=0):
self.__class__.vm_k2_card = VirtualMachine.create(
self.apiclient,
self.testdata["virtual_machine"],
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
serviceofferingid=self.k200_vgpu_service_offering.id,
templateid=win2012templateid
)
if(self.k2hosts !=0):
self.__class__.vm2_k2_card = VirtualMachine.create(
self.apiclient,
self.testdata["virtual_machine"],
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
serviceofferingid=self.k200_vgpu_service_offering.id,
templateid=win7templateid
)
return
def check_gpu_resources_released_vm(self,gpuhostid,vm_vgpu_type,rcapacity):
hhosts = list_hosts(
self.apiclient,
hypervisor="XenServer",
id=gpuhostid
)
self.assertEqual(
isinstance(hhosts, list),
True,
"Check list hosts response returns a valid list"
)
self.assertNotEqual(
len(hhosts),
0,
"Check Host details are available in List Hosts"
)
for ggroup in hhosts:
if ggroup.ipaddress not in self.nongpuhosts:
for gp in ggroup.gpugroup:
#if gp.gpugroupname == "Group of NVIDIA Corporation GK104GL [GRID K2] GPUs":
for gptype in gp.vgpu:
if gptype.vgputype==vm_vgpu_type:
self.debug("Latest remainingcapacity is %s and before remainingcapacity is %s"%(gptype.remainingcapacity,rcapacity))
if gptype.remainingcapacity != rcapacity+1:
self.fail("Host capacity is not updated .GPU resources should be released when VM is stopped/Destroyed ")
return
def check_vm_state(self,vmid):
list_vm_response = list_virtual_machines(
self.apiclient,
id=vmid
)
if list_vm_response is None:
return("Expunge")
return(list_vm_response[0].state)
def check_host_vgpu_remaining_capacity(self,gpuhostid,gtype):
gputhosts = list_hosts(
self.apiclient,
hypervisor="XenServer",
id=gpuhostid
)
vgpucapacity=0
for ghost in gputhosts:
if ghost.gpugroup is not None:
for gp in ghost.gpugroup:
#if gp.gpugroupname == gpucard:
for gptype in gp.vgpu:
if gptype.vgputype == gtype:
vgpucapacity=vgpucapacity+gptype.remainingcapacity
return(vgpucapacity)
def verify_vm(self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.getState(
self.apiclient,
"Running")
self.check_for_vGPU_resource(vm_gpu_card.hostid,vm_gpu_card.instancename,vm_gpu_card.serviceofferingid,vm_gpu_card.vgpu)
def stop_life_cycle_vm (self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.stop(self.apiclient)
time.sleep(self.testdata["vgpu"]["sleep"])
vm_gpu_card.getState(
self.apiclient,
"Stopped")
def start_life_cycle_vm(self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.start(self.apiclient)
time.sleep(self.testdata["vgpu"]["sleep"])
def restore_life_cycle_vm(self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.restore(self.apiclient)
time.sleep(self.testdata["vgpu"]["sleep"])
def reboot_life_cycle_vm(self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.reboot(self.apiclient)
time.sleep(self.testdata["vgpu"]["sleep"])
def delete_vm_life_cycle_vm(self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.delete(self.apiclient)
time.sleep(self.testdata["vgpu"]["sleep"])
vm_gpu_card.getState(
self.apiclient,
"Destroyed")
def recover_vm_life_cycle_vm(self,vm_gpu_card):
if(vm_gpu_card):
vm_gpu_card.recover(self.apiclient)
vm_gpu_card.getState(
self.apiclient,
"Stopped")
def recovervm(self,vm_gpu_card):
if self.check_vm_state(vm_gpu_card.id)=="Expunge":
raise unittest.SkipTest("VM is already deleted hence skipping")
self.recover_vm_life_cycle_vm(vm_gpu_card)
self.start_life_cycle_vm(vm_gpu_card)
self.verify_vm(vm_gpu_card)
return
def startvm(self,vm_gpu_card):
self.start_life_cycle_vm(vm_gpu_card)
self.verify_vm(vm_gpu_card)
return
def stopvm(self,vm_gpu_card):
rcapacity=self.check_host_vgpu_remaining_capacity(vm_gpu_card.hostid,vm_gpu_card.vgpu)
self.stop_life_cycle_vm(vm_gpu_card)
self.check_gpu_resources_released_vm(vm_gpu_card.hostid,vm_gpu_card.vgpu,rcapacity)
return
def deletevm(self,vm_gpu_card):
rcapacity=self.check_host_vgpu_remaining_capacity(vm_gpu_card.hostid,vm_gpu_card.vgpu)
hostid=vm_gpu_card.hostid
vgputype=vm_gpu_card.vgpu
self.delete_vm_life_cycle_vm(vm_gpu_card)
self.check_gpu_resources_released_vm(hostid,vgputype,rcapacity)
return
def restorevm(self,vm_gpu_card):
self.restore_life_cycle_vm(vm_gpu_card)
self.verify_vm(vm_gpu_card)
return
def rebootvm(self,vm_vgpu_card):
self.reboot_life_cycle_vm(vm_vgpu_card)
self.verify_vm(vm_vgpu_card)
return
def test_01_list_vgpu_host_details(self):
""" list vGPU host details """
hhosts = list_hosts(
self.apiclient,
hypervisor="XenServer",
)
self.assertEqual(
isinstance(hhosts, list),
True,
"Check list hosts response returns a valid list"
)
self.assertNotEqual(
len(hhosts),
0,
"Check Host details are available in List Hosts"
)
k260q=0
k240q=0
k220q=0
k200=0
k2pass=0
k140q=0
k120q=0
k100=0
k1pass=0
for ggroup in hhosts:
if ggroup.ipaddress not in self.nongpuhosts:
for gp in ggroup.gpugroup:
if gp.gpugroupname == "Group of NVIDIA Corporation GK104GL [GRID K2] GPUs":
for gptype in gp.vgpu:
if gptype.vgputype == "GRID K260Q":
k260q=k260q+1
if gptype.vgputype == "GRID K220Q":
k220q=k220q+1
if gptype.vgputype == "GRID K240Q":
k240q=k240q+1
if gptype.vgputype == "GRID K200":
k200=k200+1
if gptype.vgputype != "passthrough":
k2pass=k2pass+1
if gp.gpugroupname == "Group of NVIDIA Corporation GK107GL [GRID K1] GPUs":
for gptype in gp.vgpu:
if gptype.vgputype == "GRID K140Q":
k140q=k140q+1
if gptype.vgputype == "GRID K120Q":
k120q=k120q+1
if gptype.vgputype == "GRID K100":
k100=k100+1
if gptype.vgputype == "passthrough":
k1pass=k1pass+1
else:
self.debug("This is nongpuhost:%s"%(ggroup.ipaddress))
if self.k260qgpuhosts>0:
if not k260q:
self.fail("list host details with K260Q vgpu are not correct")
if self.k240qgpuhosts>0:
if not k240q:
self.fail("list host details with K240Q vgpu are not correct")
if self.k220qgpuhosts>0:
if not k220q:
self.fail("list host details with K220Q vgpu are not correct")
if self.k200gpuhosts>0:
if not k200:
self.fail("list host details with K200 vgpu are not correct")
if self.k2passthroughgpuhosts>0:
if not k2pass:
self.fail("list host details with K2 passthrough vgpu are not correct")
if self.k140qgpuhosts>0:
if not k140q:
self.fail("list host details with K140Q vgpu are not correct")
if self.k120qgpuhosts>0:
if not k120q:
self.fail("list host details with K120Q vgpu are not correct")
if self.k100gpuhosts>0:
if not k100:
self.fail("list host details with K100 vgpu are not correct")
if self.k1passthroughgpuhosts>0:
if not k1pass:
self.fail("list host details with K1 Passthrough vgpu are not correct")
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_02_create_deploy_windows_vm_with_k100_vgpu_service_offering(self):
"""Test to create and deploy vm with K100 vGPU service offering"""
k100capacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","GRID K100")
if (self.k100gpuhosts == 0) or (k100capacity == 0):
raise unittest.SkipTest("No XenServer available with K100 vGPU Drivers installed")
self.deploy_vm("GRID K100","Group of NVIDIA Corporation GK107GL [GRID K1] GPUs")
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_03_create_deploy_windows_vm_with_k120q_vgpu_service_offering(self):
"""Test to create and deploy vm with K120Q vGPU service offering"""
k120qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","GRID K120Q")
if (self.k120qgpuhosts == 0) or (k120qcapacity==0):
raise unittest.SkipTest("No XenServer available with K120Q vGPU Drivers installed")
self.deploy_vm("GRID K120Q","Group of NVIDIA Corporation GK107GL [GRID K1] GPUs")
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_04_create_deploy_windows_vm_with_k140q_vgpu_service_offering(self):
"""Test to create and deploy vm with K140Q vGPU service offering"""
k140qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","GRID K140Q")
if (self.k140qgpuhosts == 0) or (k140qcapacity ==0):
raise unittest.SkipTest("No XenServer available with K140Q vGPU Drivers installed")
self.deploy_vm("GRID K140Q","Group of NVIDIA Corporation GK107GL [GRID K1] GPUs")
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_05_create_deploy_windows_vm_with_k1_passthrough_vgpu_service_offering(self):
"""Test to create and deploy vm with K1 passthrough vGPU service offering"""
k1passcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","passthrough")
if (self.k1passthroughgpuhosts == 0) or (k1passcapacity==0):
raise unittest.SkipTest("No XenServer available with K1 passthrough installed")
self.deploy_vm("passthrough","Group of NVIDIA Corporation GK107GL [GRID K1] GPUs")
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_06_create_deploy_windows_vm_with_k2_passthrough_vgpu_service_offering(self):
"""Test to create and deploy vm with K2 pasthrough vGPU service offering"""
k2passcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","passthrough")
if (self.k2passthroughgpuhosts == 0) or (k2passcapacity==0):
raise unittest.SkipTest("No XenServer available with K2 passthrough installed")
self.deploy_vm("passthrough","Group of NVIDIA Corporation GK104GL [GRID K2] GPUs")
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_07_create_deploy_windows_vm_with_k260q_vgpu_service_offering(self):
"""Test to create and deploy vm with K260Q vGPU service offering"""
k260qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","GRID K260Q")
if (self.k260qgpuhosts == 0) or (k260qcapacity == 0):
raise unittest.SkipTest("No XenServer available with K260Q vGPU Drivers installed")
self.deploy_vm("GRID K260Q","Group of NVIDIA Corporation GK104GL [GRID K2] GPUs")
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_08_create_deploy_windows_vm_with_k240q_vgpu_service_offering(self):
""" Test to create and deploy vm with K240Q vGPU service offering """
k240qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","GRID K240Q")
if (self.k240qgpuhosts == 0) or (k240qcapacity==0):
raise unittest.SkipTest("No XenServer available with K240Q vGPU Drivers installed")
self.deploy_vm("GRID K240Q","Group of NVIDIA Corporation GK104GL [GRID K2] GPUs")
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_09_create_deploy_windows_vm_with_k220q_vgpu_service_offering(self):
""" Test to create and deploy vm with K220Q vGPU service offering """
k220qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","GRID K220Q")
if (self.k220qgpuhosts == 0) or (k220qcapacity==0):
raise unittest.SkipTest("No XenServer available with K220Q vGPU Drivers installed")
self.deploy_vm("GRID K220Q","Group of NVIDIA Corporation GK104GL [GRID K2] GPUs")
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_10_create_deploy_windows_vm_with_k200_vgpu_service_offering(self):
""" Test to create and deploy vm with K200 vGPU service offering """
k200capacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","GRID K200")
if (self.k200gpuhosts == 0) or (k200capacity==0):
raise unittest.SkipTest("No XenServer available with K200 vGPU Drivers installed")
self.deploy_vm("GRID K200","Group of NVIDIA Corporation GK104GL [GRID K2] GPUs")
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_11_add_nonvgpu_host_to_vgpucluster(self):
""" Test to add non vGPU host to an existing cluster """
countx=0
#hostuuids=[]
huuids=[]
lhosts = list_hosts(
self.apiclient,
hypervisor="XenServer"
)
sshClient1 = SshClient(host=lhosts[0].ipaddress, port=22, user='root',passwd=self.testdata["host_password"])
totalxenhosts=len(sshClient1.execute("xe host-list | grep uuid"))
for hostlist in lhosts:
countx=countx+1
if totalxenhosts<=countx:
raise unittest.SkipTest("No additional Host is available in the XS pool to add host")
huuids.append(sshClient1.execute("xe host-list --minimal"))
self.debug("host uuids are:%s"%huuids)
hostuuids=huuids[0][0].split(',')
addhost="FAIL"
for hid in hostuuids:
self.debug("host id: %s"%(hid))
haddress=sshClient1.execute("xe host-param-get param-name=address --minimal uuid="+hid)
self.debug("host address is %s"%(haddress[0]))
if haddress[0]==self.testdata["vgpu"]["nongpu_host_ip"]:
addhost="PASS"
break
if addhost!="PASS":
raise unittest.SkipTest("XS Pool new host ip is not matching with test data host ip. Skipping the test.Please update test data file with hostip added to XS pool")
list_cluster_response = list_clusters(
self.apiclient,
hypervisor="XenServer",
allocationstate="Enabled"
)
self.assertEqual(
isinstance(list_cluster_response, list),
True,
"Check list clusters response returns a valid list"
)
self.assertNotEqual(
len(list_cluster_response),
0,
"Check list clusters response"
)
cluster_response = list_cluster_response[0]
self.assertEqual(
cluster_response.allocationstate,
'Enabled',
"Check whether allocation state of cluster is enabled"
)
self.debug("Cluster response is:%s"%(cluster_response))
self.assertEqual(
cluster_response.hypervisortype,
"XenServer",
"Check hypervisor type is XenServer or not"
)
nongpuhost = Host.create(
self.apiclient,
cluster_response,
self.testdata["vgpu"]["hosts"]["nonvgpuxenserver"],
zoneid=self.zone.id,
podid=self.pod.id,
hypervisor="XenServer"
)
if nongpuhost == FAILED:
self.fail("Host Creation Failed")
self.debug(
"Created host (ID: %s) in cluster ID %s" %(
nongpuhost.id,
cluster_response.id
))
listhosts = list_hosts(
self.apiclient,
hypervisor="XenServer",
id=nongpuhost.id
)
self.assertEqual(
isinstance(listhosts, list),
True,
"Check list hosts response returns a valid list"
)
self.assertNotEqual(
len(listhosts),
0,
"Check Host details are available in List Hosts"
)
for ggroup in listhosts:
if ggroup.gpugroup is not None:
self.fail("This is not a non vGPU host")
#Cleanup Host
self.cleanup.append(nongpuhost)
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_12_validate_deployed_vGPU_windows_vm(self):
""" Test deploy virtual machine
"""
self.deploy_vm_lifecycle()
self.debug("Check if deployed VMs are in running state?")
if self.__class__.vm_k1_card is not None:
self.verify_vm(self.__class__.vm_k1_card)
if self.__class__.vm_k2_card is not None:
self.verify_vm(self.__class__.vm_k2_card)
if self.__class__.vm2_k2_card is not None:
self.verify_vm(self.__class__.vm2_k2_card)
self.__class__.vmlifecycletest=1
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_13_stop_vGPU_windows_vm(self):
""" Test stop virtual machine
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if self.__class__.vm_k1_card:
self.stopvm(self.__class__.vm_k1_card)
if self.__class__.vm_k2_card:
self.stopvm(self.__class__.vm_k2_card)
if self.__class__.vm2_k2_card:
self.stopvm(self.__class__.vm2_k2_card)
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_14_start_vGPU_windows_vm(self):
""" Test start virtual machine
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if self.__class__.vm_k1_card:
self.startvm(self.__class__.vm_k1_card)
if self.__class__.vm_k2_card:
self.startvm(self.__class__.vm_k2_card)
if self.__class__.vm2_k2_card:
self.startvm(self.__class__.vm2_k2_card)
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_15_restore_vGPU_windows_vm(self):
"""Test restore Virtual Machine
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if self.__class__.vm_k1_card:
self.restorevm(self.__class__.vm_k1_card)
if self.__class__.vm_k2_card:
self.restorevm(self.__class__.vm_k2_card)
if self.__class__.vm2_k2_card:
self.restorevm(self.__class__.vm2_k2_card)
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_16_reboot_vGPU_windows_vm(self):
""" Test reboot virtual machine
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if self.__class__.vm_k1_card:
self.rebootvm(self.__class__.vm_k1_card)
if self.__class__.vm_k2_card:
self.rebootvm(self.__class__.vm_k2_card)
if self.__class__.vm2_k2_card:
self.rebootvm(self.__class__.vm2_k2_card)
return
@attr(tags=["advanced", "advancedns", "smoke"], required_hardware="true")
def test_17_create_k1_vm_snapshot_wo_memory(self):
"""Test to create VM snapshots
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if not (self.__class__.vm_k1_card):
raise unittest.SkipTest(" No VM available.Hence skipping")
self.create_vm_snapshot(self.__class__.vm_k1_card)
# self.create_vm_snapshot(self.__class__.vm_k2_card)
# self.create_vm_snapshot(self.__class__.vm_k2_card)
return
@attr(tags=["advanced", "advancedns", "smoke"], required_hardware="true")
def test_18_revert_k1_vm_snapshot_wo_memory(self):
"""Test to revert VM snapshots
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if self.__class__.vmsnapwomemory==0:
raise unittest.SkipTest("VM Snapshot creation test failed hence skipping")
if not self.__class__.vm_k1_card:
raise unittest.SkipTest("No VM available.Hence skipping")
self.revert_vm_snapshot(self.__class__.vm_k1_card)
return
@attr(tags=["advanced", "advancedns", "smoke"], required_hardware="true")
def test_19_delete_k1_vm_snapshot_wo_memory(self):
"""Test to delete vm snapshots
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if self.__class__.vmsnapwomemory==0:
raise unittest.SkipTest("VM Snapshot creation test failed hence skipping")
if not (self.__class__.vm_k1_card):
raise unittest.SkipTest("No VM available.Hence skipping")
self.delete_vm_snapshot(self.__class__.vm_k1_card)
return
@attr(tags=["advanced", "advancedns", "smoke"], required_hardware="true")
def test_20_create_k2_vm_snapshot_with_memory(self):
"""Test to create VM snapshots
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if not (self.__class__.vm_k2_card):
raise unittest.SkipTest("No VM available.Hence skipping")
self.create_vm_snapshot_with_memory(self.__class__.vm_k2_card)
return
@attr(tags=["advanced", "advancedns", "smoke"], required_hardware="true")
def test_21_revert_k2_vm_snapshot_with_memory(self):
"""Test to revert VM snapshots
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if self.__class__.vmsnapwithmemory==0:
raise unittest.SkipTest("VM Snapshot creation with memory test failed hence skipping")
if not (self.__class__.vm_k2_card):
raise unittest.SkipTest("No VM available.Hence skipping")
self.revert_vm_snapshot_with_memory(self.__class__.vm_k2_card)
return
@attr(tags=["advanced", "advancedns", "smoke"], required_hardware="true")
def test_22_delete_k2_vm_snapshot_with_memory(self):
"""Test to delete vm snapshots
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if self.__class__.vmsnapwithmemory==0:
raise unittest.SkipTest("VM Snapshot creation with memory test failed hence skipping")
if not(self.__class__.vm_k2_card):
raise unittest.SkipTest("No VM available.Hence skipping")
self.delete_vm_snapshot(self.__class__.vm_k2_card)
return
@attr(tags=["advanced", "advancedns", "smoke"], required_hardware="true")
def test_23_vm_snapshot_without_memory_from_k1_vgpu_nonvgpu_vgpu(self):
"""Test to verify VM snapshot from vGPU to non vgpu to vGPU snap
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
k1qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs",self.__class__.vm_k1_card.vgpu)
if (k1qcapacity==0):
raise unittest.SkipTest("No XenServer available with K1 vGPU Drivers installed. Skipping ")
if not(self.__class__.vm_k1_card):
raise unittest.SkipTest("No VM available.Hence skipping")
self.vm_snapshot_vgpu(self.__class__.vm_k1_card,self.__class__.vm_k1_card.vgpu,"Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","nonvgpuoffering","None")
return
@attr(tags=["advanced", "advancedns", "smoke"], required_hardware="true")
def test_24_vm_snapshot_without_memory_from_nonvgpu_k1vgpu_nonvgpu(self):
"""Test to verify VM snapshot from non vGPU snap to vGPU snap to non vGPU snap
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
k1qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs",self.__class__.vm_k1_card.vgpu)
if (k1qcapacity==0):
raise unittest.SkipTest("No XenServer available with vGPU Drivers installed. Skipping ")
if not(self.__class__.vm_k1_card):
raise unittest.SkipTest("No VM available.Hence skipping")
self.vm_snapshot_vgpu(self.__class__.nonvgpu,"nonvgpuoffering","None",self.__class__.vm_k1_card.vgpu,"Group of NVIDIA Corporation GK107GL [GRID K1] GPUs")
return
@attr(tags=["advanced", "advancedns", "smoke"], required_hardware="true")
def test_25_vm_snapshot_without_memory_from_k2vgpu_k1vgpu_k2vgpu(self):
"""Test to verify VM snapshot from K2 vGPU snap to K1 vGPU snap to K2 vGPU snap
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
k1qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs",self.__class__.vm_k1_card.vgpu)
if (k1qcapacity == 0):
raise unittest.SkipTest("No XenServer available with vGPU Drivers installed. Skipping ")
if not(self.__class__.vm_k2_card):
raise unittest.SkipTest("No VM available.Hence skipping")
self.vm_snapshot_vgpu(self.__class__.vm_k2_card,self.__class__.vm_k2_card.vgpu,"Group of NVIDIA Corporation GK104GL [GRID K2] GPUs",self.__class__.vm_k1_card.vgpu,"Group of NVIDIA Corporation GK107GL [GRID K1] GPUs")
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_26_destroy_vGPU_windows_vm(self):
"""Test destroy Virtual Machine
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if self.__class__.vm_k2_card:
self.deletevm(self.__class__.vm_k2_card)
if self.__class__.vm_k1_card:
self.deletevm(self.__class__.vm_k1_card)
if self.__class__.vm2_k2_card:
self.deletevm(self.__class__.vm2_k2_card)
if self.__class__.nonvgpu:
self.deletevm(self.__class__.nonvgpu)
self.cleanup.append(self.__class__.nonvgpu_service_offerin)
self.deletevm(self.__class__.vm_k1_card)
self.deletevm(self.__class__.vm_k2_card)
self.deletevm(self.__class__.vm2_k2_card)
self.cleanup.append(self.__class__.k100_vgpu_service_offering)
self.cleanup.append(self.__class__.k200_vgpu_service_offering)
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_27_recover_vGPU_windows_vm(self):
"""Test recover Virtual Machine
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if self.__class__.vm_k2_card is not None:
self.recovervm(self.__class__.vm_k2_card)
if self.__class__.vm_k1_card is not None:
self.recovervm(self.__class__.vm_k1_card)
if self.__class__.vm2_k2_card is not None:
self.recovervm(self.__class__.vm2_k2_card)
return
def test_28_destroy_vGPU_windows_vm_after_recover(self):
"""Test destroy Virtual Machine
"""
if self.__class__.vmlifecycletest==0:
raise unittest.SkipTest("VM Life Cycle Deploy VM test failed hence skipping")
if self.__class__.vm_k1_card:
if self.check_vm_state(self.__class__.vm_k1_card.id)=="Expunge":
raise unittest.SkipTest("VM is already deleted hence skipping")
self.deletevm(self.__class__.vm_k1_card)
if self.__class__.vm_k2_card:
if self.check_vm_state(self.__class__.vm_k2_card.id)=="Expunge":
raise unittest.SkipTest("VM is already deleted hence skipping")
self.deletevm(self.__class__.vm_k2_card)
if self.__class__.vm2_k2_card:
if self.check_vm_state(self.__class__.vm2_k2_card.id)=="Expunge":
raise unittest.SkipTest("VM is already deleted hence skipping")
self.deletevm(self.__class__.vm2_k2_card)
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_29_nonvgpuvm_k2vgpuvm_offline(self):
"""Test to change service from non vgpu to vgpu K200"""
k200capacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","GRID K200")
if (self.k200gpuhosts == 0) or (k200capacity==0):
raise unittest.SkipTest("No XenServer available with K200 vGPU Drivers installed. Skipping non gpu to K200 Offering Upgrade")
self.serviceoffering_upgrade("nonvgpuoffering","None","GRID K200","Group of NVIDIA Corporation GK104GL [GRID K2] GPUs")
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_30_K2_vgpuvm_vgpuvm_offline(self):
"""Test to change service from vgpu K200 to vgpu K240Q"""
k240qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","GRID K240Q")
k200capacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","GRID K200")
if (self.k240qgpuhosts == 0) or (self.k200gpuhosts == 0) or (k240qcapacity==0) or (k200capacity==0):
raise unittest.SkipTest("No XenServer available with K240Q,K200Q vGPU Drivers installed. Skipping K200 to K240Q Offering Upgrade")
self.serviceoffering_upgrade("GRID K200","Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","GRID K240Q","Group of NVIDIA Corporation GK104GL [GRID K2] GPUs")
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_31_K1_vgpuvm_vgpuvm_offline(self):
"""Test to change service from K1 vgpu K120Q to K1 vgpu K140Q"""
k140qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","GRID K140Q")
k120qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","GRID K120Q")
if (self.k140qgpuhosts == 0) or (self.k120qgpuhosts == 0) or (k140qcapacity==0) or (k120qcapacity==0):
raise unittest.SkipTest("No XenServer available with K140Q,K120Q vGPU Drivers installed. Skipping K200 to K240Q Offering Upgrade")
self.serviceoffering_upgrade("GRID K120Q","Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","GRID K140Q","Group of NVIDIA Corporation GK107GL [GRID K1] GPUs")
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_32_nonvgpuvm_k1vgpuvm_offline(self):
"""Test to change service from non vgpu to vgpu K100"""
k100capacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","GRID K100")
if (self.k100gpuhosts == 0) or (k100capacity == 0):
raise unittest.SkipTest("No XenServer available with K100 vGPU Drivers installed. Skipping non gpu to K100 Offering Upgrade")
self.serviceoffering_upgrade("nonvgpuoffering","None","GRID K100","Group of NVIDIA Corporation GK107GL [GRID K1] GPUs")
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_33_K2_vgpuvm_nonvgpuvm_offline(self):
"""Test to change service from non vgpu to vgpu K240Q"""
k240qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","GRID K240Q")
if (self.k240qgpuhosts == 0) or (k240qcapacity==0):
raise unittest.SkipTest("No XenServer available with K240Q vGPU Drivers installed. Skipping K2 vgpu 240Q to nonvgpu Offering Upgrade")
self.serviceoffering_upgrade("GRID K240Q","Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","nonvgpuoffering","None")
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_34_K1_vgpuvm_nonvgpuvm_offline(self):
"""Test to change service from non vgpu to vgpu K140Q"""
k140qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","GRID K140Q")
if (self.k140qgpuhosts == 0) or (k140qcapacity==0):
raise unittest.SkipTest("No XenServer available with K140Q vGPU Drivers installed. Skipping K1 vgpu 140Q to nonvgpu Offering Upgrade")
self.serviceoffering_upgrade("GRID K140Q","Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","nonvgpuoffering","None")
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_35_K140Q_vgpuvm_K240Q_vgpuvm_offline(self):
"""Test to change service from K1 vgpu K140Q to K2 vgpu K240Q"""
k140qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","GRID K140Q")
k240qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","GRID K240Q")
if (self.k140qgpuhosts == 0) or (self.k240qgpuhosts == 0) or (k140qcapacity == 0) or (k240qcapacity==0):
raise unittest.SkipTest("No XenServer available with K140Q,K240Q vGPU Drivers installed. Skipping K140Q to K240Q Offering Upgrade")
self.serviceoffering_upgrade("GRID K140Q","Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","GRID K240Q","Group of NVIDIA Corporation GK104GL [GRID K2] GPUs")
return
@attr(tags = ['advanced', 'basic' , 'vgpu'], required_hardware="true")
def test_36_K240Q_vgpuvm_K140Q_vgpuvm_offline(self):
"""Test to change service from K2 vgpu K240Q to K1 vgpu K140Q"""
k140qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK107GL [GRID K1] GPUs","GRID K140Q")
k240qcapacity=self.check_host_vgpu_capacity("Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","GRID K240Q")
if (self.k140qgpuhosts == 0) or (self.k240qgpuhosts == 0) or (k140qcapacity == 0) or (k240qcapacity==0):
raise unittest.SkipTest("No XenServer available with K140Q,K240Q vGPU Drivers installed. Skipping K140Q to K240Q Offering Upgrade")
self.serviceoffering_upgrade("GRID K240Q","Group of NVIDIA Corporation GK104GL [GRID K2] GPUs","GRID K140Q","Group of NVIDIA Corporation GK107GL [GRID K1] GPUs")
return
@classmethod
def tearDownClass(self):
try:
self.apiclient = super(TestvGPUWindowsVm, self).getClsTestClient().getApiClient()
cleanup_resources(self.apiclient, self._cleanup)
except Exception as e:
raise Exception("Warning: Exception during cleanup : %s" % e)
return
def tearDown(self):
try:
cleanup_resources(self.apiclient, self.cleanup)
except Exception as e:
self.debug("Warning! Exception in tearDown: %s" % e)
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