# 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 required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. """ Test Path for Deploy VM in stopped state """ from nose.plugins.attrib import attr from marvin.cloudstackTestCase import cloudstackTestCase from marvin.lib.utils import (cleanup_resources, validateList) from marvin.lib.base import (Account, ServiceOffering, VirtualMachine, User, Network, Router, DiskOffering, Volume, Iso, Template, Resources) from marvin.lib.common import (get_domain, get_zone, get_template, createEnabledNetworkOffering, wait_for_cleanup) from marvin.codes import (PASS, STOPPED, RUNNING, FAIL) from marvin.sshClient import SshClient import time def VerifyChangeInServiceOffering(self, virtualmachine, serviceoffering): """List the VM and verify that the new values for cpuspeed, cpunumber and memory match with the new service offering""" exceptionOccurred = False exceptionMessage = "" try: vmlist = VirtualMachine.list(self.userapiclient, id=virtualmachine.id) self.assertEqual( validateList(vmlist)[0], PASS, "vm list validation failed") vm = vmlist[0] # Verify the custom values self.assertEqual(str(vm.cpunumber), str(serviceoffering.cpunumber), "vm cpu number %s not matching with cpu number in\ service offering %s" % (vm.cpunumber, serviceoffering.cpunumber)) self.assertEqual(str(vm.cpuspeed), str(serviceoffering.cpuspeed), "vm cpu speed %s not matching with cpu speed in\ service offering %s" % (vm.cpuspeed, serviceoffering.cpuspeed)) self.assertEqual(str(vm.memory), str(serviceoffering.memory), "vm memory %s not matching with memory in\ service offering %s" % (vm.memory, serviceoffering.memory)) except Exception as e: exceptionOccurred = True exceptionMessage = e return [exceptionOccurred, exceptionMessage] def VerifyRouterState(apiclient, account, domainid, desiredState, retries=0): """List the router associated with the account and verify that router state matches with the desired state Return PASS/FAIL depending upon whether router state matches or not""" isRouterStateDesired = False failureMessage = "" while retries >= 0: routers = Router.list( apiclient, account=account, domainid=domainid, listall=True ) if str(routers[0].state).lower() == str(desiredState).lower(): isRouterStateDesired = True break time.sleep(60) retries -= 1 # whileEnd if not isRouterStateDesired: failureMessage = "Router state should be %s,\ but it is %s" %\ (desiredState, routers[0].state) return [isRouterStateDesired, failureMessage] def CreateEnabledNetworkOffering(apiclient, networkServices): """Create network offering of given services and enable it""" result = createEnabledNetworkOffering(apiclient, networkServices) assert result[0] == PASS,\ "Network offering creation/enabling failed due to %s" % result[2] return result[1] class TestAdvancedZoneStoppedVM(cloudstackTestCase): @classmethod def setUpClass(cls): testClient = super(TestAdvancedZoneStoppedVM, cls).getClsTestClient() cls.apiclient = testClient.getApiClient() cls.testdata = testClient.getParsedTestDataConfig() cls.hypervisor = testClient.getHypervisorInfo() # Get Zone, Domain and templates cls.domain = get_domain(cls.apiclient) cls.zone = get_zone(cls.apiclient) cls._cleanup = [] try: # Create an account cls.account = Account.create( cls.apiclient, cls.testdata["account"], domainid=cls.domain.id ) cls._cleanup.append(cls.account) # If local storage is enabled, alter the offerings to use # localstorage if cls.zone.localstorageenable: cls.testdata["service_offering"]["storagetype"] = 'local' # Create 2 service offerings with different values for # for cpunumber, cpuspeed, and memory cls.testdata["service_offering"]["cpunumber"] = 1 cls.testdata["service_offering"]["cpuspeed"] = 128 cls.testdata["service_offering"]["memory"] = 256 if cls.hypervisor.lower() == "hyperv": cls.testdata["service_offering"]["cpuspeed"] = 1024 cls.testdata["service_offering"]["memory"] = 1024 cls.service_offering = ServiceOffering.create( cls.apiclient, cls.testdata["service_offering"] ) cls._cleanup.append(cls.service_offering) cls.testdata["service_offering"]["cpunumber"] = 2 cls.service_offering_2 = ServiceOffering.create( cls.apiclient, cls.testdata["service_offering"] ) cls._cleanup.append(cls.service_offering_2) # Create isolated network offering cls.isolated_network_offering = CreateEnabledNetworkOffering( cls.apiclient, cls.testdata["isolated_network_offering"] ) cls._cleanup.append(cls.isolated_network_offering) cls.networkid = None if str(cls.zone.networktype).lower() == "advanced": cls.network = Network.create( cls.apiclient, cls.testdata["isolated_network"], networkofferingid=cls.isolated_network_offering.id, accountid=cls.account.name, domainid=cls.account.domainid, zoneid=cls.zone.id) cls.networkid = cls.network.id # Create user api client of the account cls.userapiclient = testClient.getUserApiClient( UserName=cls.account.name, DomainName=cls.account.domain ) template = get_template( cls.apiclient, cls.zone.id, cls.testdata["ostype"]) cls.defaultTemplateId = template.id # Set Zones and disk offerings # Check that we are able to login to the created account response = User.login( cls.apiclient, username=cls.account.name, password=cls.testdata["account"]["password"] ) assert response.sessionkey is not None,\ "Login to the CloudStack should be successful\ response shall have non Null key" except Exception as e: cls.tearDownClass() raise e return @classmethod def tearDownClass(cls): try: cleanup_resources(cls.apiclient, cls._cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) def setUp(self): self.apiclient = self.testClient.getApiClient() self.cleanup = [] def tearDown(self): try: cleanup_resources(self.apiclient, self.cleanup) # Wait for Router cleanup before runnign further test case wait_for_cleanup( self.apiclient, [ "network.gc.interval", "network.gc.wait"]) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) return @attr(tags=["advanced", "basic"], required_hardware="True") def test_01_pt_deploy_vm_without_startvm(self): """ Positive test for stopped VM test path - T1 # 1. Deploy VM in the network without specifying startvm parameter # 2. List VMs and verify that VM is in running state # 3. Verify that router is in running state (Advanced zone) # 4. Add network rules for VM (done in base.py itself) to make # it accessible # 5. Verify that VM is accessible # 6. Destroy and expunge the VM # 7. Wait for network gc time interval and check that router is # in Stopped state """ # Create VM in account virtual_machine = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[self.networkid, ] if self.networkid else None, zoneid=self.zone.id, mode=self.zone.networktype ) response = virtual_machine.getState( self.userapiclient, VirtualMachine.RUNNING) self.assertEqual(response[0], PASS, response[1]) if str(self.zone.networktype).lower() == "advanced": response = VerifyRouterState( self.apiclient, self.account.name, self.account.domainid, RUNNING ) self.assertTrue(response[0], response[1]) # Check VM accessibility try: SshClient(host=virtual_machine.ssh_ip, port=self.testdata["natrule"]["publicport"], user=virtual_machine.username, passwd=virtual_machine.password) except Exception as e: self.fail("Exception while SSHing to VM: %s" % e) virtual_machine.delete(self.apiclient) if str(self.zone.networktype).lower() == "advanced": # Wait for router to go into stopped state wait_for_cleanup( self.apiclient, [ "network.gc.interval", "network.gc.wait"]) response = VerifyRouterState( self.apiclient, self.account.name, self.account.domainid, STOPPED, retries=10 ) self.assertTrue(response[0], response[1]) return @attr(tags=["advanced", "basic"], required_hardware="True") def test_02_pt_deploy_vm_with_startvm_true(self): """ Positive test for stopped VM test path - T1 variant # 1. Deploy VM in the network specifying startvm parameter as True # 2. List VMs and verify that VM is in running state # 3. Verify that router is in running state (Advanced zone) # 4. Add network rules for VM (done in base.py itself) to make # it accessible # 5. Verify that VM is accessible # 6. Destroy and expunge the VM # 7. Wait for network gc time interval and check that router is # in stopped state """ # Create VM in account virtual_machine = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[self.networkid, ] if self.networkid else None, zoneid=self.zone.id, startvm=True, mode=self.zone.networktype ) response = virtual_machine.getState( self.userapiclient, VirtualMachine.RUNNING) self.assertEqual(response[0], PASS, response[1]) if str(self.zone.networktype).lower() == "advanced": response = VerifyRouterState( self.apiclient, self.account.name, self.account.domainid, RUNNING ) self.assertTrue(response[0], response[1]) # Check VM accessibility try: SshClient(host=virtual_machine.ssh_ip, port=self.testdata["natrule"]["publicport"], user=virtual_machine.username, passwd=virtual_machine.password) except Exception as e: self.fail("Exception while SSHing to VM: %s" % e) virtual_machine.delete(self.apiclient) if str(self.zone.networktype).lower() == "advanced": # Wait for router to get router in stopped state wait_for_cleanup( self.apiclient, [ "network.gc.interval", "network.gc.wait"]) response = VerifyRouterState( self.apiclient, self.account.name, self.account.domainid, STOPPED, retries=10 ) self.assertTrue(response[0], response[1]) return @attr("simulator_only", tags=["advanced", "basic"], required_hardware="false") def test_03_pt_deploy_vm_with_startvm_false(self): """ Positive test for stopped VM test path - T2 # 1. Deploy VM in the network with specifying startvm parameter # as False # 2. List VMs and verify that VM is in stopped state # For Advanced zone # 3. Start the VM, now router should be in running state """ # Create VM in account virtual_machine = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[self.networkid, ] if self.networkid else None, zoneid=self.zone.id, startvm=False, mode=self.zone.networktype ) self.cleanup.append(virtual_machine) response = virtual_machine.getState( self.apiclient, VirtualMachine.STOPPED) self.assertEqual(response[0], PASS, response[1]) if str(self.zone.networktype).lower() == "advanced": virtual_machine.start(self.userapiclient) response = VerifyRouterState( self.apiclient, self.account.name, self.account.domainid, RUNNING ) self.assertTrue(response[0], response[1]) return @attr("simulator_only", tags=["advanced", "basic"], required_hardware="false") def test_04_pt_startvm_false_attach_disk(self): """ Positive test for stopped VM test path - T3 and variant, T9 # 1. Deploy VM in the network with specifying startvm parameter # as False # 2. List VMs and verify that VM is in stopped state # 3. Create a data disk and attach it to VM # 4. Now detach the disk from the VM # 5. Verify that attach and detach operations are successful # 6. Deploy another VM in the account with startVM = False # 7. Attach the same volume to this VM # 8. Detach the volume # 9. Both attach and detach operations should be successful """ disk_offering = DiskOffering.create( self.apiclient, self.testdata["disk_offering"] ) self.cleanup.append(disk_offering) volume = Volume.create( self.apiclient, self.testdata["volume"], zoneid=self.zone.id, account=self.account.name, domainid=self.account.domainid, diskofferingid=disk_offering.id ) self.cleanup.append(volume) # Create VM in account virtual_machine = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[self.networkid, ] if self.networkid else None, zoneid=self.zone.id, startvm=False, mode=self.zone.networktype ) self.cleanup.append(virtual_machine) response = virtual_machine.getState( self.apiclient, VirtualMachine.STOPPED) self.assertEqual(response[0], PASS, response[1]) virtual_machine.attach_volume(self.userapiclient, volume=volume) volumes = Volume.list( self.userapiclient, virtualmachineid=virtual_machine.id, type="DATADISK", listall=True ) self.assertEqual( validateList(volumes)[0], PASS, "Volumes list validation failed" ) self.assertEqual( volumes[0].id, volume.id, "Listed Volume id not matching with attached volume id" ) virtual_machine.detach_volume( self.userapiclient, volume) volumes = Volume.list( self.userapiclient, virtualmachineid=virtual_machine.id, type="DATADISK", listall=True ) self.assertEqual( validateList(volumes)[0], FAIL, "Detached volume should not be listed" ) virtual_machine_2 = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[self.networkid, ] if self.networkid else None, zoneid=self.zone.id, startvm=False, mode=self.zone.networktype ) self.cleanup.append(virtual_machine_2) response = virtual_machine_2.getState( self.apiclient, VirtualMachine.STOPPED) self.assertEqual(response[0], PASS, response[1]) virtual_machine_2.attach_volume(self.userapiclient, volume=volume) volumes = Volume.list( self.userapiclient, virtualmachineid=virtual_machine_2.id, type="DATADISK", listall=True ) self.assertEqual( validateList(volumes)[0], PASS, "Volumes list validation failed" ) self.assertEqual( volumes[0].id, volume.id, "Listed Volume id not matching with attached volume id" ) virtual_machine_2.detach_volume( self.userapiclient, volume) volumes = Volume.list( self.userapiclient, virtualmachineid=virtual_machine_2.id, type="DATADISK", listall=True ) self.assertEqual( validateList(volumes)[0], FAIL, "Detached volume should not be listed" ) return @attr("simulator_only", tags=["advanced", "basic"], required_hardware="false") def test_05_pt_startvm_false_attach_disk_change_SO(self): """ Positive test for stopped VM test path - T4 # 1. Deploy VM in the network with specifying startvm parameter # as False # 2. List VMs and verify that VM is in stopped state # 3. Create a data disk and attach it to VM # 4. Change the service offering of VM from small to medium, verify that the operation is successful # 5. Start the VM # 6. Now detach the disk from the VM # 7. Verify that attach and detach operations are successful """ disk_offering = DiskOffering.create( self.apiclient, self.testdata["disk_offering"] ) self.cleanup.append(disk_offering) volume = Volume.create( self.apiclient, self.testdata["volume"], zoneid=self.zone.id, account=self.account.name, domainid=self.account.domainid, diskofferingid=disk_offering.id ) self.cleanup.append(volume) # Create VM in account virtual_machine = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[self.networkid, ] if self.networkid else None, zoneid=self.zone.id, startvm=False, mode=self.zone.networktype ) self.cleanup.append(virtual_machine) response = virtual_machine.getState( self.apiclient, VirtualMachine.STOPPED) self.assertEqual(response[0], PASS, response[1]) virtual_machine.attach_volume(self.userapiclient, volume=volume) volumes = Volume.list( self.userapiclient, virtualmachineid=virtual_machine.id, type="DATADISK", listall=True ) self.assertEqual( validateList(volumes)[0], PASS, "Volumes list validation failed" ) self.assertEqual( volumes[0].id, volume.id, "Listed Volume id not matching with attached volume id" ) # Change service offering of VM and verify that it is changed virtual_machine.change_service_offering( self.userapiclient, serviceOfferingId=self.service_offering_2.id ) response = VerifyChangeInServiceOffering( self, virtual_machine, self.service_offering_2 ) exceptionOccurred, exceptionMessage = response[0], response[1] self.assertFalse(exceptionOccurred, exceptionMessage) virtual_machine.detach_volume( self.userapiclient, volume) volumes = Volume.list( self.userapiclient, virtualmachineid=virtual_machine.id, type="DATADISK", listall=True ) self.assertEqual( validateList(volumes)[0], FAIL, "Detached volume should not be listed" ) return @attr(tags=["advanced", "basic"], required_hardware="True") def test_06_pt_startvm_false_attach_iso(self): """ Positive test for stopped VM test path - T5 # 1. Deploy VM in the network with specifying startvm parameter # as False # 2. List VMs and verify that VM is in stopped state # 3. Register an ISO and attach it to the VM # 4. Verify that ISO is attached to the VM """ if self.hypervisor.lower() in ['lxc']: self.skipTest( "feature is not supported in %s" % self.hypervisor) # Create VM in account virtual_machine = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[self.networkid, ] if self.networkid else None, zoneid=self.zone.id, startvm=False, mode=self.zone.networktype ) self.cleanup.append(virtual_machine) response = virtual_machine.getState( self.apiclient, VirtualMachine.STOPPED) self.assertEqual(response[0], PASS, response[1]) iso = Iso.create( self.userapiclient, self.testdata["iso"], account=self.account.name, domainid=self.account.domainid, zoneid=self.zone.id ) iso.download(self.userapiclient) virtual_machine.attach_iso(self.userapiclient, iso) vms = VirtualMachine.list( self.userapiclient, id=virtual_machine.id, listall=True ) self.assertEqual( validateList(vms)[0], PASS, "List vms should return a valid list" ) vm = vms[0] self.assertEqual( vm.isoid, iso.id, "The ISO status should be reflected in list Vm call" ) return @attr(tags=["advanced", "basic"], required_hardware="True") def test_07_pt_startvm_false_attach_iso_running_vm(self): """ Positive test for stopped VM test path - T5 variant # 1. Deploy VM in the network with specifying startvm parameter # as False # 2. List VMs and verify that VM is in stopped state # 3. Start the VM and verify that it is in running state # 3. Register an ISO and attach it to the VM # 4. Verify that ISO is attached to the VM """ if self.hypervisor.lower() in ['lxc']: self.skipTest( "feature is not supported in %s" % self.hypervisor) # Create VM in account virtual_machine = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[self.networkid, ] if self.networkid else None, zoneid=self.zone.id, startvm=False, mode=self.zone.networktype ) self.cleanup.append(virtual_machine) response = virtual_machine.getState( self.apiclient, VirtualMachine.STOPPED) self.assertEqual(response[0], PASS, response[1]) virtual_machine.start(self.userapiclient) response = virtual_machine.getState( self.apiclient, VirtualMachine.RUNNING) self.assertEqual(response[0], PASS, response[1]) iso = Iso.create( self.userapiclient, self.testdata["iso"], account=self.account.name, domainid=self.account.domainid, zoneid=self.zone.id ) iso.download(self.userapiclient) virtual_machine.attach_iso(self.userapiclient, iso) vms = VirtualMachine.list( self.userapiclient, id=virtual_machine.id, listall=True ) self.assertEqual( validateList(vms)[0], PASS, "List vms should return a valid list" ) vm = vms[0] self.assertEqual( vm.isoid, iso.id, "The ISO status should be reflected in list Vm call" ) return @attr(tags=["advanced", "basic"], required_hardware="True") def test_08_pt_startvm_false_password_enabled_template(self): """ Positive test for stopped VM test path - T10 # 1 Create a password enabled template # 2. Deploy a new VM with password enabled template # 3. Verify that VM is in stopped state # 4. Start the VM, verify that it is in running state # 5. Verify that new password is generated for the VM """ if self.hypervisor.lower() in ['lxc']: self.skipTest( "feature is not supported in %s" % self.hypervisor) vm_for_template = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, zoneid=self.zone.id, mode=self.zone.networktype, networkids=[self.networkid, ] if self.networkid else None) vm_for_template.password = self.testdata["virtual_machine"]["password"] ssh = vm_for_template.get_ssh_client() # below steps are required to get the new password from # VR(reset password) # http://cloudstack.org/dl/cloud-set-guest-password # Copy this file to /etc/init.d # chmod +x /etc/init.d/cloud-set-guest-password # chkconfig --add cloud-set-guest-password # similar steps to get SSH key from web so as to make it ssh enabled cmds = [ "cd /etc/init.d;wget http://people.apache.org/~tsp/\ cloud-set-guest-password", "chmod +x /etc/init.d/cloud-set-guest-password", "chkconfig --add cloud-set-guest-password"] for c in cmds: ssh.execute(c) # Stop virtual machine vm_for_template.stop(self.userapiclient) list_volume = Volume.list( self.userapiclient, virtualmachineid=vm_for_template.id, type='ROOT', listall=True) if isinstance(list_volume, list): self.volume = list_volume[0] else: raise Exception( "Exception: Unable to find root volume for VM: %s" % vm_for_template.id) self.testdata["template"]["ostype"] = self.testdata["ostype"] # Create templates for Edit, Delete & update permissions testcases pw_ssh_enabled_template = Template.create( self.userapiclient, self.testdata["template"], self.volume.id, account=self.account.name, domainid=self.account.domainid ) self.cleanup.append(pw_ssh_enabled_template) # Delete the VM - No longer needed vm_for_template.delete(self.apiclient) # Create VM in account virtual_machine = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, zoneid=self.zone.id, startvm=False, mode=self.zone.networktype, networkids=[self.networkid, ] if self.networkid else None ) self.cleanup.append(virtual_machine) response = virtual_machine.getState( self.apiclient, VirtualMachine.STOPPED) self.assertEqual(response[0], PASS, response[1]) virtual_machine.start(self.userapiclient) vms = virtual_machine.list( self.userapiclient, id=virtual_machine.id, listall=True) self.assertEqual( validateList(vms)[0], PASS, "vms list validation failed" ) self.assertNotEqual( str(vms[0].password), str(virtual_machine.password), "New password should be generated for the VM" ) return @attr("simulator_only", tags=["advanced", "basic"], required_hardware="false") def test_09_pt_destroy_stopped_vm(self): """ Positive test for stopped VM test path - T11 # 1. Deploy VM in the network with specifying startvm parameter # as False # 2. Verify that VM is in Stopped state # 3. Start the VM and verify that it is in running state # 3. Stop the VM, verify that it is in Stopped state # 4. Destroy the VM and verify that it is in Destroyed state """ # Create VM in account virtual_machine = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[self.networkid, ] if self.networkid else None, zoneid=self.zone.id, startvm=False, mode=self.zone.networktype ) response = virtual_machine.getState( self.apiclient, VirtualMachine.STOPPED) self.assertEqual(response[0], PASS, response[1]) virtual_machine.start(self.userapiclient) response = virtual_machine.getState( self.apiclient, VirtualMachine.RUNNING) self.assertEqual(response[0], PASS, response[1]) virtual_machine.stop(self.userapiclient) response = virtual_machine.getState( self.apiclient, VirtualMachine.STOPPED) self.assertEqual(response[0], PASS, response[1]) virtual_machine.delete(self.apiclient, expunge=False) response = virtual_machine.getState( self.apiclient, VirtualMachine.DESTROYED) self.assertEqual(response[0], PASS, response[1]) return @attr("simulator_only", tags=["advanced", "basic"], required_hardware="false") def test_10_max_account_limit(self): """ Positive test for stopped VM test path - T12 # 1. Create an account in root domain and set the VM limit # to max 2 VMs # 2. Deploy two VMs in the account with startvm parameter # as false # 3. Deployment of both VMs should be successful # 4. Try to deploy 3rd VM with startvm False, deployment should fail """ # Create an account account = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(account) Resources.updateLimit( self.apiclient, resourcetype=0, max=2, account=account.name, domainid=account.domainid ) VirtualMachine.create( self.apiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=account.name, domainid=account.domainid, serviceofferingid=self.service_offering.id, zoneid=self.zone.id, startvm=False, mode=self.zone.networktype ) VirtualMachine.create( self.apiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=account.name, domainid=account.domainid, serviceofferingid=self.service_offering.id, zoneid=self.zone.id, startvm=False, mode=self.zone.networktype ) with self.assertRaises(Exception): VirtualMachine.create( self.apiclient, self.testdata["small"], templateid=self.defaultTemplateId, accountid=account.name, domainid=account.domainid, serviceofferingid=self.service_offering.id, zoneid=self.zone.id, startvm=False, mode=self.zone.networktype ) return