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""" Test cases for Test Paths Storage Migration """ from nose.plugins.attrib import attr from marvin.cloudstackTestCase import cloudstackTestCase import unittest from marvin.lib.utils import (cleanup_resources, validateList, is_server_ssh_ready ) from marvin.lib.base import (Account, ServiceOffering, DiskOffering, Volume, Template, VirtualMachine, StoragePool, Snapshot, VmSnapshot, Configurations, Host, NATRule, FireWallRule ) from marvin.lib.common import (get_domain, get_zone, get_template, list_volumes, list_virtual_machines, list_clusters, list_storage_pools, list_hosts, get_windows_template, list_publicIP, list_nat_rules, list_ssvms ) from marvin.cloudstackAPI import (enableStorageMaintenance, cancelStorageMaintenance ) from marvin.sshClient import SshClient from marvin.codes import FAILED, PASS, FAIL from ddt import ddt, data, unpack import time from threading import Thread def MigrateDataVolume(self, volume, destinationPool, islive=False, expectexception=False ): """ Migrate given volume to type of storage pool mentioned in migrateto: Inputs: 1. volume: Volume to be migrated 2. migrate_to: Scope of desired Storage pool to which volume is to be migrated 3. expectexception: If exception is expected while migration """ if expectexception: with self.assertRaises(Exception): Volume.migrate( self.apiclient, volumeid=volume.id, storageid=destinationPool.id, livemigrate=islive ) else: Volume.migrate( self.apiclient, volumeid=volume.id, storageid=destinationPool.id, livemigrate=islive ) migrated_volume_response = list_volumes( self.apiclient, id=volume.id ) self.assertEqual( isinstance(migrated_volume_response, list), True, "Check list volumes response for valid list" ) self.assertNotEqual( migrated_volume_response, None, "Check if volume exists in ListVolumes" ) migrated_volume = migrated_volume_response[0] self.assertEqual( str(migrated_volume.state).lower(), 'ready', "Check migrated volume is in Ready state" ) self.assertEqual( migrated_volume.storage, destinationPool.name, "Check volume is on migrated pool" ) return def VmSnapshotToCheckDataIntegrity(self, vm): """ This method takes VMSnapshot of the VM post migration to check data integrity. VM snapshot is not possible if VM's volumes have snapshots. So, first we will check if there are any volume snapshots after migration and delete them if there are any. Once VM snapshot is successful, Delete the VM snapshot """ volumes = list_volumes(self.apiclient, virtualmachineid=vm.id, listall=True) for vol in volumes: snapshot = Snapshot.list(self.apiclient, volumeid=vol.id, listall=True) if(snapshot): for snap in snapshot: try: Snapshot.deletesnap(self.apiclient, snapid=snap.id) except Exception as e: raise Exception("Warning: Exception during Volume snapshot deletion : %s" % e) #Take VM snapshot to check data integrity try: vm_snapshot = VmSnapshot.create(self.apiclient, vmid=vm.id) except Exception as e: raise Exception("Warning: Exception during VM snapshot creation : %s" % e) #Delete the snapshot try: VmSnapshot.deleteVMSnapshot(self.apiclient, vmsnapshotid=vm_snapshot.id) except Exception as e: raise Exception("Warning: Exception during VM snapshot deletion : %s" % e) return def MigrateVmWithVolume(self, vm, destinationHost, volumes, pools): """ This method is used to migrate a vm and its volumes using migrate virtual machine with volume API INPUTS: 1. vm -> virtual machine object 2. destinationHost -> the host to which VM will be migrated 3. volumes -> list of volumes which are to be migrated 4. pools -> list of destination pools """ if not destinationHost: self.debug("Destination host is NULL so migration can't be performed") return vol_pool_map = {} for vol, pool in zip(volumes, pools): vol_pool_map.update({vol.id: pool.id}) vm.migrate_vm_with_volume( self.apiclient, hostid=destinationHost.id, migrateto=vol_pool_map ) vm.getState( self.apiclient, "Running" ) #check for the VM's host and volume's storage post migration migrated_vm_response = list_virtual_machines(self.apiclient, id=vm.id) self.assertEqual( isinstance(migrated_vm_response, list), True, "Check list virtual machines response for valid list" ) self.assertEqual( migrated_vm_response[0].hostid, destinationHost.id, "VM did not migrate to a specified host" ) for vol, pool in zip(volumes, pools): migrated_volume_response = list_volumes(self.apiclient, virtualmachineid=migrated_vm_response[0].id, name=vol.name, listall=True) self.assertEqual( isinstance(migrated_volume_response, list), True, "Check list virtual machines response for valid list" ) self.assertEqual( migrated_volume_response[0].storageid, pool.id, "Volume did not migrate to a specified pool" ) self.assertEqual( str(migrated_volume_response[0].state).lower(), 'ready', "Check migrated volume is in Ready state" ) return migrated_vm_response[0] def MigrateVm(self, vm, destinationHost): """ This method is to migrate a VM using migrate virtual machine API """ if not destinationHost: self.debug("Destination host is NULL so migration can't be performed") return vm.migrate( self.apiclient, hostid=destinationHost.id, ) vm.getState( self.apiclient, "Running" ) #check for the VM's host and volume's storage post migration migrated_vm_response = list_virtual_machines(self.apiclient, id=vm.id) self.assertEqual( isinstance(migrated_vm_response, list), True, "Check list virtual machines response for valid list" ) self.assertEqual( migrated_vm_response[0].hostid, destinationHost.id, "VM did not migrate to a specified host" ) return migrated_vm_response[0] def get_destination_pools_hosts(self, vm, storage_scope, storage_type): """ Get destination Pools for all volumes and destination Host for the VM This method is use in case we use the API migrate volume with storage """ destinationPools = [] vol_list = list_volumes(self.apiclient, virtualmachineid=vm.id, listall=True) # For each volume get destination pool for vol in vol_list: pool = GetDestinationStoragePool(self, vol.storage, storage_scope, storage_type) destinationPools.append(pool) #Get destination host destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) return destinationHost, destinationPools, vol_list def check_files(self, vm, destinationHost): """ Check for VMX and VMDK files INPUTS : 1. vm -> The Virtual Machine object 2. destinationHost -> The host to which we want to migrate the VM """ # list volumes and their pools # Here we list all the volumes of the VM , then login to the destination host # and check for vmx and vmdk files in the storage vm_volumes = list_volumes(self.apiclient, virtualmachineid=vm.id, listall=True) for vol in vm_volumes: spool = list_storage_pools(self.apiclient, id=vol.storageid) split_path = spool[0].path.split("/") pool_path = split_path[2] if spool[0].type == "NetworkFilesystem": pool_path = spool[0].id.replace("-", "") sshclient = SshClient( host=destinationHost.ipaddress, port=self.testdata['configurableData']['host']["publicport"], user=self.testdata['configurableData']['host']["username"], passwd=self.testdata['configurableData']['host']["password"], ) pool_data_vmdk = sshclient.execute("ls /vmfs/volumes/" + pool_path + "/" + vm.instancename + "| grep vmdk") pool_data_vmx = sshclient.execute("ls /vmfs/volumes/" + pool_path + "/" + vm.instancename + "| grep vmx") self.debug("------------------------volume's actual path is: %s" % vol.path) vol_path_db = self.dbclient.execute("select path from volumes where uuid='%s';" % vol.id) self.debug("-----------------------volume's path in DB is: %s" % vol_path_db) vol_name_db = self.dbclient.execute("select name from volumes where uuid='%s';" % vol.id) self.debug("-----------------------volume's name in DB is: %s" % vol_name_db) if(pool_data_vmx): vmx_file = vm.instancename + ".vmx" if vol.type == "ROOT": self.assertIn( vmx_file, pool_data_vmx, "The VMX files are missing" ) if(pool_data_vmdk): vmdk_file1 = vol.path + ".vmdk" vmdk_file2 = vol.path + "-flat.vmdk" self.assertIn( vmdk_file1, pool_data_vmdk, "The VMDK files are missing" ) self.assertIn( vmdk_file2, pool_data_vmdk, "The VMDK flat files are missing" ) return def GetDestinationStoragePool(self, poolsToavoid, storage_scope, storage_type): """ Get destination pool which has scope same as migrateto and which is not in avoid set """ destinationPool = None destinationCluster = None if storage_scope == "within_cluster" or storage_scope == "across_cluster": scope = "CLUSTER" else: scope = "ZONE" pool = list_storage_pools(self.apiclient, name=poolsToavoid) clusters = list_clusters(self.apiclient, listall=True) if storage_scope == "across_cluster": for cluster in clusters: if cluster.id not in pool[0].clusterid: if len(list_storage_pools(self.apiclient, clusterid=cluster.id)) > 0: destinationCluster = cluster break pools_in_cluster = list_storage_pools(self.apiclient, clusterid=destinationCluster.id, scope=scope) for pool in pools_in_cluster: if pool.type == storage_type: destinationPool = pool break return destinationPool elif storage_scope == "within_cluster": destinationCluster = list_clusters(self.apiclient, id=pool[0].clusterid, listall=True)[0] storagepools = list_storage_pools(self.apiclient, clusterid=destinationCluster.id, scope=scope) for pool in storagepools: if pool.name not in poolsToavoid and pool.type == storage_type: destinationPool = pool return destinationPool elif storage_scope == "ZONE": storagepools = list_storage_pools(self.apiclient, scope=scope) for pool in storagepools: if pool.name not in poolsToavoid and pool.type == storage_type: destinationPool = pool return destinationPool def restart_mgmt_server(self, hostip, port, username, password): """Restarts the management server""" try: # Get the SSH client ssh = is_server_ssh_ready( hostip, port, username, password, ) result = ssh.execute("/etc/init.d/cloudstack-management restart") res = str(result) # Server Stop - OK # Server Start - OK if res.count("OK") != 2: raise ("ErrorInReboot!") except Exception as e: raise e return def check_host_capacity(self, hostid, vm): """Checks whether host has enough capacity to migrate the VM """ host = list_hosts(self.apiclient, id=hostid, listall=True)[0] host_memory_available_in_MB = (host.memorytotal - host.memoryallocated) / 1024 * 1024 * 0.8 memory_of_vm = vm.memory host_cpu_available_in_MHz = (host.cpuspeed - host.cpuspeed * float(host.cpuallocated.replace("%", "")) / 100) * 0.8 cpu_of_vm = vm.cpuspeed if host_memory_available_in_MB > memory_of_vm and host_cpu_available_in_MHz > cpu_of_vm: return PASS else: return FAILED def check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype=None): """ This function allocated a public ip, and creates a nat rule for the VM Then tries to ssh into the VM using that public IP This function again is to check VM accessibility post migration """ if ostype == "windows": self.debug("SSH check on the VM can't be done as it is a windows VM") return src_nat_ip_addrs = list_publicIP( self.apiclient, account=self.account.name, domainid=self.account.domainid ) self.assertEqual( isinstance(src_nat_ip_addrs, list), True, "Check list response returns a valid list" ) src_nat_ip_addr = src_nat_ip_addrs[0] # Open up firewall port for SSH firewall_rule = FireWallRule.create( self.apiclient, ipaddressid=src_nat_ip_addr.id, protocol=self.testdata["natrule"]["protocol"], cidrlist=['0.0.0.0/0'], startport=self.testdata["natrule"]["publicport"], endport=self.testdata["natrule"]["publicport"] ) # Create NAT rule nat_rule = NATRule.create( self.apiclient, virtual_machine_1, self.testdata["natrule"], src_nat_ip_addr.id ) list_nat_rule_response = list_nat_rules( self.apiclient, id=nat_rule.id ) self.assertEqual( isinstance(list_nat_rule_response, list), True, "Check list response returns a valid list" ) self.assertNotEqual( len(list_nat_rule_response), 0, "Check Port Forwarding Rule is created" ) self.assertEqual( list_nat_rule_response[0].id, nat_rule.id, "Check Correct Port forwarding Rule is returned" ) # SSH virtual machine to test port forwarding try: self.debug("SSHing into VM with IP address %s with NAT IP %s" % ( virtual_machine_1.ipaddress, src_nat_ip_addr.ipaddress )) virtual_machine_1.get_ssh_client(src_nat_ip_addr.ipaddress) vm_response = VirtualMachine.list( self.apiclient, id=virtual_machine_1.id ) if vm_response[0].state != 'Running': self.fail( "State of VM : %s is not found to be Running" % str( virtual_machine_1.ipaddress)) except Exception as e: self.fail( "SSH Access failed for %s: %s" % (virtual_machine_1.ipaddress, e) ) try: nat_rule.delete(self.apiclient) except Exception as e: self.fail("NAT Rule Deletion Failed: %s" % e) try: firewall_rule.delete(self.apiclient) except Exception as e: self.fail("Firewall Rule Deletion Failed: %s" % e) return @ddt class TestStorageLiveMigrationVmware(cloudstackTestCase): @classmethod def setUpClass(cls): testClient = super(TestStorageLiveMigrationVmware, cls).getClsTestClient() cls.apiclient = testClient.getApiClient() cls.testdata = testClient.getParsedTestDataConfig() cls.hypervisor = cls.testClient.getHypervisorInfo() cls.dbclient = cls.testClient.getDbConnection() cls.exceptionList = [] # Get Zone, Domain and templates cls.domain = get_domain(cls.apiclient) cls.zone = get_zone(cls.apiclient, testClient.getZoneForTests()) cls.template = get_template( cls.apiclient, cls.zone.id, cls.testdata["ostype"]) cls._cleanup = [] cls.skiptest = False cls.skipReason = "" if cls.hypervisor.lower() not in [ "vmware", "kvm", "xenserver", "hyper-v"]: cls.skiptest = True cls.skipReason = "Storage Migration not supported on %s" % cls.hypervisor return # Get Hosts in the cluster and iscsi/vmfs storages for that cluster iscsi_pools = [] nfs_pools = [] try: cls.list_vmware_clusters = list_clusters(cls.apiclient, hypervisor="vmware") except Exception as e: raise unittest.SkipTest(e) if len(cls.list_vmware_clusters) < 1: cls.skiptest = True cls.skipReason = "There is no cluster available in the setup" else: for cluster in cls.list_vmware_clusters: try: list_esx_hosts = list_hosts(cls.apiclient, clusterid=cluster.id) except Exception as e: raise unittest.SkipTest(e) if len(list_esx_hosts) > 1: try: list_storage = list_storage_pools(cls.apiclient, clusterid=cluster.id) except Exception as e: raise unittest.SkipTest(e) for storage in list_storage: if storage.type == "VMFS": iscsi_pools.append(storage) if len(iscsi_pools) > 1: break else: iscsi_pools = [] for storage in list_storage: if storage.type == "NetworkFilesystem": nfs_pools.append(storage) if len(nfs_pools) > 1: break else: nfs_pools = [] if len(iscsi_pools) < 2 and len(nfs_pools) < 2: cls.skiptest = True cls.skipReason = "Not enough storage pools available in the setup" cls.hosts = list_esx_hosts cls.pools = list_storage # Create an account cls.account = Account.create( cls.apiclient, cls.testdata["account"], domainid=cls.domain.id ) cls._cleanup.append(cls.account) # Create Service offering cls.service_offering = ServiceOffering.create( cls.apiclient, cls.testdata["service_offering"] ) cls._cleanup.append(cls.service_offering) if cls.zone.localstorageenabled: cls.testdata["service_offering"]["storagetype"] = 'local' cls.service_offering_local1 = ServiceOffering.create( cls.apiclient, cls.testdata["service_offering"] ) cls._cleanup.append(cls.service_offering_local1) # Create Disk offering cls.disk_offering = DiskOffering.create( cls.apiclient, cls.testdata["disk_offering"] ) cls._cleanup.append(cls.disk_offering) # Create disk offering for resize cls.resized_disk_offering = DiskOffering.create( cls.apiclient, cls.testdata["resized_disk_offering"] ) cls._cleanup.append(cls.resized_disk_offering) if cls.zone.localstorageenabled: cls.testdata["disk_offering"]["storagetype"] = 'local' cls.disk_offering_local1 = DiskOffering.create( cls.apiclient, cls.testdata["disk_offering"] ) cls._cleanup.append(cls.disk_offering_local1) # Register windows 2012 server Template if it is not present cls.windows_template = get_windows_template( cls.apiclient, cls.zone.id, ostype_desc="Windows Server 2012 (64-bit)", template_type="USER", hypervisor="VMware", template_filter="all" ) #cls.template = get_windows_template(cls.apiclient, cls.zone.id ,ostype_desc="Windows Server 2012 (64-bit)") cls.testdata["vgpu"]["Windows Server 2012 (64-bit)"]["url"] = "http://10.147.28.7/templates/Windows2012/WindowsServer2012.ova" cls.testdata["vgpu"]["Windows Server 2012 (64-bit)"]["format"] = "OVA" if cls.windows_template == FAILED: if "http://pleaseupdateURL/dummy.vhd" in cls.testdata[ "vgpu"]["Windows Server 2012 (64-bit)"]["url"]: cls.skiptest = True cls.skipReason = "Check Test Data file if it has the valid template URL" cls.windows_template = Template.register( cls.apiclient, cls.testdata["vgpu"]["Windows Server 2012 (64-bit)"], hypervisor="VMware", zoneid=cls.zone.id, ) 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.windows_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: break if timeout == 0: cls.debug("Failed to download windows template, we will be skipping windows related tests below") timeout = timeout - 1 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.dbclient = self.testClient.getDbConnection() self.cleanup = [] if self.skiptest: self.skipTest(self.skipReason) def tearDown(self): try: cleanup_resources(self.apiclient, self.cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) # Cancel maintenance state of all hosts list_host = list_hosts(self.apiclient, listall=True) for host in list_host: if host.resourcestate == "Maintenance": Host.cancelMaintenance(self.apiclient, id=host.id) Host.getState( self.apiclient, host.id, "Up", "Enabled" ) # Cancel maintenance state of all storage pools list_pools = list_storage_pools(self.apiclient, listall=True) for pool in list_pools: if pool.state == "Maintenance": cmd = cancelStorageMaintenance.cancelStorageMaintenanceCmd() cmd.id = pool.id self.apiclient.cancelStorageMaintenance(cmd) StoragePool.getState( self.apiclient, pool.id, "Up" ) def get_ssvm_state(self, apiclient, vmid, state, timeout=600): """List VM and check if its state is as expected @returnValue - List[Result, Reason] 1) Result - FAIL if there is any exception in the operation or VM state does not change to expected state in given time else PASS 2) Reason - Reason for failure""" returnValue = [FAIL, "VM state not trasited to %s,\ operation timed out" % state] while timeout > 0: try: projectid = None if hasattr(self, "projectid"): projectid = self.projectid vms = list_ssvms(self.apiclient, projectid=projectid, id=vmid, listAll=True) validationresult = validateList(vms) if validationresult[0] == FAIL: raise Exception("VM list validation failed: %s" % validationresult[2]) elif str(vms[0].state).lower().decode("string_escape") == str(state).lower(): returnValue = [PASS, None] break except Exception as e: returnValue = [FAIL, e] break time.sleep(60) timeout -= 60 return returnValue def deploy_virtual_machine(self, service_offering_id, vm, template_id): """ Function to Deploy VMs """ virtual_machine = VirtualMachine.create( self.apiclient, self.testdata[vm], accountid=self.account.name, zoneid=self.zone.id, domainid=self.account.domainid, serviceofferingid=service_offering_id, templateid=template_id, hostid=self.hosts[0].id ) virtual_machine.getState( self.apiclient, "Running" ) return virtual_machine def GetDestinationHost(self, hostsToavoid, vm, scope): """ This method gives us the destination host to which VM will be migrated It takes the source host i.e. hostsToavoid as input """ destinationHost = None destinationCluster = None host = list_hosts(self.apiclient, id=hostsToavoid) clusters = list_clusters(self.apiclient, listall=True) if scope == "across_cluster": for cluster in clusters: if cluster.id not in host[0].clusterid: hosts_in_cluster = list_hosts(self.apiclient, clusterid=cluster.id) if len(hosts_in_cluster) != 0: destinationCluster = cluster break hosts = list_hosts(self.apiclient, clusterid=destinationCluster.id) for host in hosts: response = check_host_capacity(self, host.id, vm) if response == PASS: destinationHost = host return destinationHost elif scope == "within_cluster": hosts = list_hosts(self.apiclient, clusterid=host[0].clusterid) for host in hosts: response = check_host_capacity(self, host.id, vm) if host.id not in hostsToavoid and response is PASS: destinationHost = host break return destinationHost def GetDestinationHostLocal(self, hostsToavoid, vm, scope): """ This method gives us the destination host to which VM will be migrated It takes the source host i.e. hostsToavoid as input """ destinationHost = None destinationCluster = None if scope == "across_cluster": host = list_hosts(self.apiclient, id=hostsToavoid) clusters = list_clusters(self.apiclient, listall=True) for cluster in clusters: if cluster.id not in host[0].clusterid: hosts_in_cluster = list_hosts(self.apiclient, clusterid=cluster.id) if len(hosts_in_cluster) != 0: destinationCluster = cluster break hosts = list_hosts(self.apiclient, clusterid=destinationCluster.id) for host in hosts: response = check_host_capacity(self, host.id, vm) if host.id not in hostsToavoid and response == PASS: pool = list_storage_pools(self.apiclient, scope="Host", name=host.name + " Local Storage") if pool: destinationHost = host break return destinationHost for host in self.hosts: response = check_host_capacity(self, host.id, vm) if host.id not in hostsToavoid and response == PASS: pool = list_storage_pools(self.apiclient, scope="Host", name=host.name + " Local Storage") if pool: destinationHost = host break return destinationHost def takeVmSnapshotNegative(self, vm_id): """ This method takes VM snapshots and stores the exception To be used in the negative scenario where we take snapshot when migration is in progress """ try: with self.assertRaises(Exception): VmSnapshot.create(self.apiclient, vmid=vm_id) except Exception as e: self.exceptionList.append(e) def resizeVolumeNegative(self, volume): """ This method resizes volume and stores the exception To be used in the negative scenario where we resize a volume when migration is in progress """ try: with self.assertRaises(Exception): volume.resize(self.apiclient, diskofferingid=self.resized_disk_offering.id) except Exception as e: self.exceptionList.append(e) def takeVolumeSnapshotNegative(self, volumeid): """ This method takes volume snapshots and stores the exception To be used in the negative scenario where we take snapshot when migration is in progress """ try: with self.assertRaises(Exception): Snapshot.create(self.apiclient, volume_id=volumeid) except Exception as e: self.exceptionList.append(e) def stopVmNegative(self, vm): """ This method tries to destroy a VM and stores the exception To be used in the negative scenario where destroy a VM when migration is in progress """ try: with self.assertRaises(Exception): vm.stop(self.apiclient) except Exception as e: self.exceptionList.append(e) @data(('VMFS', 'within_cluster', 'linux'), ('VMFS', 'within_cluster', 'windows'), ('VMFS', 'across_cluster', 'linux'), ('VMFS', 'across_cluster', 'windows'), ('NetworkFilesystem', 'within_cluster', 'linux'), ('NetworkFilesystem', 'within_cluster', 'windows'), ('NetworkFilesystem', 'across_cluster', 'linux'), ('NetworkFilesystem', 'across_cluster', 'windows')) @unpack @attr(tags=["advanced", "basic", "vmware", "vmfs", "shared"], required_hardware="true") def test_01_vm_and_volumes_live_migration_for_vmware_vmfs(self, first_value, second_value, third_value): """ This Test Path tests vMotion for NFS as well as VMFS within cluster, across cluster and for both windows and linux VMs using DATA DRIVEN TESTING. This test will run once for each of the 8 configurations give as @data 1. Migrate VM from one host to another 2. Migrate VMs ROOT volume from one storage to another 3. Migrate VM to another Host and ROOT volume to another storage 4. Attach a data disk to VM, migrate VM to a different host and its volumes to different pools. 5. Upload a volume, attach it to VM, migrate VM to a different host and its volumes to different pools. 6. Create volume snapshots on all volumes , migrate VM to a different host and its volumes to different pools. 7. Resize the data disk, migrate VM to a different host and its volumes to different pools. 8. Restore the VM, migrate VM to a different host and its volumes to different pools. 9. Detach the data disk, create another VM, attach the data disk to that VM and then migrate that VM and its volumes. 10. Detach upload volume, attach it to the 2nd VM, and then migrate that VM and its volumes. 11. Create snapshots for all volumes of 2nd vM, then migrate VM and its volumes. After each storage migration step, following validation is done a) Create VM snapshots to check data integrity - @method used : VmSnapshotToCheckDataIntegrity(self, vm) b) Login to the Host/storage pool and check for the VMDK and VMX files for VM and its volumes - @method used : check_files(self, vm, destinationHost) c) Check for VM accessibility by sshing to the VM - @method used : check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1) """ storage_type = first_value storage_scope = second_value ostype = third_value if ostype == 'windows' and not self.windows_template: self.skipTest("Windows template is not present, so skipping this test") elif ostype == 'windows': template_id = self.windows_template.id else: template_id = self.template.id count_host = 0 count_pool = 0 storage_pool = [] if len(self.list_vmware_clusters) < 2: if (storage_scope == "across_cluster"): raise self.skipTest("The setup doesn't have more than one cluster, so can't execute these set of tests") if len(self.list_vmware_clusters) >= 2: for cluster in self.list_vmware_clusters: if len(list_hosts(self.apiclient, clusterid=cluster.id)) >= 1: count_host += 1 pools = list_storage_pools(self.apiclient, clusterid=cluster.id) for pool in pools: if pool.storage == storage_type: storage_pool.append(pool) if len(storage_pool) >= 1: count_pool += 1 storage_pool = [] #if storage_scope == "across_cluster": if count_host < 2 or count_pool < 2: raise self.skipTest("The setup doesn't have enough pools or enough hosts. To run these tests the setup must have at least 2 clusters, \ each having min 1 host and 1 vmfs storage pools") self.debug("---------------This is the test no 1--------------") """ Create a VM, live migrate the VM """ vm = "virtual_machine2" virtual_machine_1 = self.deploy_virtual_machine(self.service_offering.id, vm, template_id) self.cleanup.append(virtual_machine_1) vm = list_virtual_machines(self.apiclient, id=virtual_machine_1.id, listall=True)[0] #Get destination host destinationHost = self.GetDestinationHost(vm.hostid, virtual_machine_1, storage_scope) #Migrate the VM if storage_scope == "across_cluster": vol_list = [] destinationPools = [] vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) else: vm = MigrateVm(self, virtual_machine_1, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 2--------------") """ Migrate the ROOT Volume Can't migrate a volume to another cluster, so won't run this test in that case """ # Get ROOT volume and destination pool if storage_scope != "across_cluster": vol_list = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True) root_vol = vol_list[0] destinationPool = GetDestinationStoragePool(self, root_vol.storage, storage_scope, storage_type) #Migrate ROOT volume islive = True MigrateDataVolume(self, root_vol, destinationPool, islive) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 3--------------") """ Migrate the VM and ROOT volume """ #Get all volumes to be migrated vm = list_virtual_machines(self.apiclient, id=virtual_machine_1.id, listall=True)[0] destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 4--------------") """ Add a data disk and migrate vm, data disk and root disk """ data_disk_1 = Volume.create( self.apiclient, self.testdata["volume"], zoneid=self.zone.id, account=self.account.name, domainid=self.account.domainid, diskofferingid=self.disk_offering.id ) self.debug("Created volume with ID: %s" % data_disk_1.id) virtual_machine_1.attach_volume( self.apiclient, data_disk_1 ) destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 5--------------") """ Upload a Volume, Attach it to the VM, Migrate all the volumes and VM. """ #upload a volume self.testdata["configurableData"]["upload_volume"]["format"] = "OVA" self.testdata["configurableData"]["upload_volume"]["url"] = "http://nfs1.lab.vmops.com/templates/burbank-systemvm-08012012.ova" upload_volume = Volume.upload( self.apiclient, self.testdata["configurableData"]["upload_volume"], account=self.account.name, domainid=self.domain.id, zoneid=self.zone.id ) upload_volume.wait_for_upload(self.apiclient) virtual_machine_1.attach_volume( self.apiclient, upload_volume ) destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) self.debug("........................checking for files before taking snapshot ..................................") check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 6--------------") """ Create snapshots on all the volumes, Migrate all the volumes and VM. """ #Get ROOT Volume vol_for_snap = list_volumes(self.apiclient, virtualmachineid=vm.id, listall=True) for vol in vol_for_snap: snapshot = Snapshot.create( self.apiclient, volume_id=vol.id ) snapshot.validateState( self.apiclient, snapshotstate="backedup", ) # Migrate all volumes and VMs self.debug("..................................checking for files just after taking snapshot...................................") check_files(self, vm, destinationHost) destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) self.debug("........................checking for files after taking snapshot and migrating VMs........................") check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 7--------------") """ Resize the data volume , Migrate all the volumes and VM. """ data_disk_1.resize( self.apiclient, diskofferingid=self.resized_disk_offering.id ) # Migrate all volumes and VMs destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 8--------------") """ Restore the VM , Migrate all the volumes and VM. """ virtual_machine_1.restore(self.apiclient) virtual_machine_1.getState( self.apiclient, "Running" ) # Migrate the VM and its volumes destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 9--------------") """ Detach the Data disk, Deploy another VM, attach the data disk and migrate. """ virtual_machine_1.detach_volume( self.apiclient, data_disk_1 ) vm = "virtual_machine3" virtual_machine_2 = self.deploy_virtual_machine(self.service_offering.id, vm, self.template.id) self.cleanup.append(virtual_machine_2) virtual_machine_2.attach_volume( self.apiclient, data_disk_1 ) vm = list_virtual_machines(self.apiclient, id=virtual_machine_2.id, listall=True)[0] destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2, ostype) self.debug("---------------This is the test no 10--------------") """ Detach the uploaded volume, attach it to another vm and migrate. """ virtual_machine_1.detach_volume( self.apiclient, upload_volume ) virtual_machine_2.attach_volume( self.apiclient, upload_volume ) destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2, ostype) self.debug("---------------This is the test no 11--------------") """ Create snapshots on all the volumes, Migrate all the volumes and VM. """ #Get ROOT Volume vol_for_snap = list_volumes(self.apiclient, virtualmachineid=vm.id, listall=True) for vol in vol_for_snap: snapshot = Snapshot.create( self.apiclient, volume_id=vol.id ) snapshot.validateState( self.apiclient, snapshotstate="backedup", ) # Migrate all volumes and VMs destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2, ostype) @data(('within_cluster', 'linux'), ('within_cluster', 'windows'), ('across_cluster', 'linux'), ('across_cluster', 'windows')) @unpack @attr(tags=["advanced", "basic", "vmware", "vmfs", "local"], required_hardware="true") def test_02_vm_and_volumes_live_migration_for_vmware_vmfs_local_storage(self, first_value, second_value): """ This Test Path tests vMotion for VM in local storage within cluster, across cluster and for both windows and linux VMs using DATA DRIVEN TESTING 1. Migrate VM from one host to another 2. Migrate VMs ROOT volume from one storage to another 3. Migrate VM to another Host and ROOT volume to another storage 4. Attach a data disk to VM, migrate VM to a different host and its volumes to different pools. 5. Upload a volume, attach it to VM, migrate VM to a different host and its volumes to different pools. 6. Create volume snapshots on all volumes , migrate VM to a different host and its volumes to different pools. 7. Resize the data disk, migrate VM to a different host and its volumes to different pools. 8. Restore the VM, migrate VM to a different host and its volumes to different pools. 9. Detach the data disk, create another VM, attach the data disk to that VM and then migrate that VM and its volumes. 10. Detach upload volume, attach it to the 2nd VM, and then migrate that VM and its volumes. 11. Create snapshots for all volumes of 2nd vM, then migrate VM and its volumes. After each storage migration step, following validation is done a) Create VM snapshots to check data integrity - @method used : VmSnapshotToCheckDataIntegrity(self, vm) c) Check for VM accessibility by sshing to the VM - @method used : check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1) """ if not self.zone.localstorageenabled: raise self.skipTest("The setup doesn't have local storage enabled") scope = first_value ostype = second_value if ostype == 'windows' and not self.windows_template: self.skipTest("Windows template is not present, so skipping this test") elif ostype == 'windows': template_id = self.windows_template.id else: template_id = self.template.id count_host = 0 count_pool = 0 pool_local = [] if len(self.list_vmware_clusters) < 2: if (scope == "across_cluster"): raise self.skipTest("The setup doesn't have more than one cluster, so can't execute these set of tests") if len(self.list_vmware_clusters) >= 2: for cluster in self.list_vmware_clusters: if len(list_hosts(self.apiclient, clusterid=cluster.id)) >= 1: count_host += 1 pools = list_storage_pools(self.apiclient, clusterid=cluster.id) for pool in pools: if pool.scope == "HOST": pool_local.append(pool) if len(pool_local) >= 1: count_pool += 1 pool_local = [] if scope == "across_cluster": if count_host < 2: raise self.skipTest("The setup doesn't have enough pools or enough hosts. To run these tests the setup must have at least 2 clusters, each having min 2 hosts ") self.debug("---------------This is the test no 1--------------") """ Create a VM, live migrate the VM """ vm = "virtual_machine2" virtual_machine_1 = self.deploy_virtual_machine(self.service_offering_local1.id, vm, template_id) self.cleanup.append(virtual_machine_1) vm = list_virtual_machines(self.apiclient, id=virtual_machine_1.id, listall=True)[0] #Get destination host destinationHost = self.GetDestinationHostLocal(vm.hostid, virtual_machine_1, scope) #Migrate the VM vol_list = [] destinationPools = [] vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 2--------------") """ Add a data disk and migrate vm """ data_disk_1 = Volume.create( self.apiclient, self.testdata["volume"], zoneid=self.zone.id, account=self.account.name, domainid=self.account.domainid, diskofferingid=self.disk_offering_local1.id ) self.debug("Created volume with ID: % s" % data_disk_1.id) virtual_machine_1.attach_volume( self.apiclient, data_disk_1 ) destinationHost = self.GetDestinationHostLocal(vm.hostid, vm, scope) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 3--------------") """ Upload a Volume, Attach it to the VM, Migrate all the volumes and VM. """ #upload a volume self.testdata["configurableData"]["upload_volume"]["format"] = "OVA" self.testdata["configurableData"]["upload_volume"]["url"] = "http://nfs1.lab.vmops.com/templates/burbank-systemvm-08012012.ova" upload_volume = Volume.upload( self.apiclient, self.testdata["configurableData"]["upload_volume"], account=self.account.name, domainid=self.domain.id, zoneid=self.zone.id ) upload_volume.wait_for_upload(self.apiclient) virtual_machine_1.attach_volume( self.apiclient, upload_volume ) destinationHost = self.GetDestinationHostLocal(vm.hostid, vm, scope) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 6--------------") """ Create snapshots on all the volumes, Migrate VM. """ #Get ROOT Volume vol_for_snap = list_volumes(self.apiclient, virtualmachineid=vm.id, listall=True) for vol in vol_for_snap: snapshot = Snapshot.create( self.apiclient, volume_id=vol.id ) snapshot.validateState( self.apiclient, snapshotstate="backedup", ) # Migrate all volumes and VMs destinationHost = self.GetDestinationHostLocal(vm.hostid, vm, scope) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 7--------------") """ Resize the data volume , Migrate all the volumes and VM. """ data_disk_1.resize( self.apiclient, diskofferingid=self.resized_disk_offering.id ) # Migrate all volumes and VMs destinationHost = self.GetDestinationHostLocal(virtual_machine_1.hostid, vm, scope) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 8--------------") """ Restore the VM , Migrate all the volumes and VM. """ virtual_machine_1.restore(self.apiclient) virtual_machine_1.getState( self.apiclient, "Running" ) # Migrate the VM and its volumes destinationHost = self.GetDestinationHostLocal(vm.hostid, vm, scope) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 9--------------") """ Detach the Data disk, Deploy another VM, attach the data disk and migrate. """ virtual_machine_1.detach_volume( self.apiclient, data_disk_1 ) vm = "virtual_machine3" virtual_machine_2 = self.deploy_virtual_machine(self.service_offering_local1.id, vm, self.template.id) self.cleanup.append(virtual_machine_2) virtual_machine_2.attach_volume( self.apiclient, data_disk_1 ) vm = list_virtual_machines(self.apiclient, id=virtual_machine_2.id, listall=True)[0] destinationHost = self.GetDestinationHostLocal(vm.hostid, vm, scope) vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2, ostype) self.debug("---------------This is the test no 10--------------") """ Detach the uploaded volume, attach it to another vm and migrate. """ virtual_machine_1.detach_volume( self.apiclient, upload_volume ) virtual_machine_2.attach_volume( self.apiclient, upload_volume ) destinationHost = self.GetDestinationHostLocal(vm.hostid, vm, scope) vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2, ostype) self.debug("---------------This is the test no 11--------------") """ Create snapshots on all the volumes, Migrate all the volumes and VM. """ #Get ROOT Volume vol_for_snap = list_volumes(self.apiclient, virtualmachineid=vm.id, listall=True) for vol in vol_for_snap: snapshot = Snapshot.create( self.apiclient, volume_id=vol.id ) snapshot.validateState( self.apiclient, snapshotstate="backedup", ) # Migrate all volumes and VMs destinationHost = self.GetDestinationHostLocal(vm.hostid, vm, scope) vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2, ostype) @data(('VMFS', 'within_cluster', 'linux'), ('VMFS', 'within_cluster', 'windows'), ('VMFS', 'across_cluster', 'linux'), ('VMFS', 'across_cluster', 'windows'), ('NetworkFilesystem', 'within_cluster', 'linux'), ('NetworkFilesystem', 'within_cluster', 'windows'), ('NetworkFilesystem', 'across_cluster', 'linux'), ('NetworkFilesystem', 'across_cluster', 'windows')) @unpack @attr(tags=["advanced", "basic", "vmware", "vmfs", "zwps"], required_hardware="true") def test_03_vm_and_volumes_live_migration_for_vmware_vmfs_across_zwps_cwps(self, first_value, second_value, third_value): """ This Test Path tests vMotion for NFS as well as VMFS within cluster, across cluster and across zones and for both windows and linux VMs using DATA DRIVEN TESTING 1. Migrate VM from one host to another 2. Migrate VMs ROOT volume from one storage to another 3. Migrate VM to another Host and ROOT volume to another storage 4. Attach a data disk to VM, migrate VM to a different host and its volumes to different pools. 5. Upload a volume, attach it to VM, migrate VM to a different host and its volumes to different pools. 6. Create volume snapshots on all volumes , migrate VM to a different host and its volumes to different pools. 7. Resize the data disk, migrate VM to a different host and its volumes to different pools. 8. Restore the VM, migrate VM to a different host and its volumes to different pools. 9. Detach the data disk, create another VM, attach the data disk to that VM and then migrate that VM and its volumes. 10. Detach upload volume, attach it to the 2nd VM, and then migrate that VM and its volumes. 11. Create snapshots for all volumes of 2nd vM, then migrate VM and its volumes. After each storage migration step, following validation is done a) Create VM snapshots to check data integrity - @method used : VmSnapshotToCheckDataIntegrity(self, vm) b) Login to the Host/storage pool and check for the VMDK and VMX files for VM and its volumes - @method used : check_files(self, vm, destinationHost) c) Check for VM accessibility by sshing to the VM - @method used : check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1) """ storage_type = first_value storage_scope = second_value ostype = third_value if ostype == 'windows' and not self.windows_template: self.skipTest("Windows template is not present, so skipping this test") elif ostype == 'windows': template_id = self.windows_template.id else: template_id = self.template.id scope = "ZONE" list_zwps_pools = list_storage_pools(self.apiclient, scope="ZONE", listall=True) zwps_pools = [] for pool in list_zwps_pools: if pool.type == storage_type: zwps_pools.append(pool) if len(zwps_pools) < 2: raise self.skipTest("The setup doesn't have enough zone wide primary storages of %s type, we need at least 2" % storage_type) count_host = 0 count_pool = 0 pool_vmfs = [] if len(self.list_vmware_clusters) < 2: if storage_scope == "across_cluster": raise self.skipTest("The setup doesn't have more than one cluster, so can't execute these set of tests") if len(self.list_vmware_clusters) >= 2: for cluster in self.list_vmware_clusters: if len(list_hosts(self.apiclient, clusterid=cluster.id)) >= 1: count_host += 1 pools = list_storage_pools(self.apiclient, clusterid=cluster.id) for pool in pools: if pool.storage is storage_type: pool_vmfs.append(pool) if len(pool_vmfs) >= 1: count_pool += 1 pool_vmfs = [] #if storage_scope == "across_cluster": if count_host < 2 | count_pool < 2: raise self.skipTest("The setup doesn't have enough pools or enough hosts. To run these tests the setup must have at least 2 clusters, each having min 1 host and 1 vmfs storage pools") self.debug("---------------This is the test no 1--------------") """ Create a VM, live migrate the VM """ vm = "virtual_machine2" virtual_machine_1 = self.deploy_virtual_machine(self.service_offering.id, vm, template_id) self.cleanup.append(virtual_machine_1) #Get destination host vm = list_virtual_machines(self.apiclient, id=virtual_machine_1.id, listall=True)[0] destinationHost = self.GetDestinationHost(vm.hostid, virtual_machine_1, storage_scope) #Migrate the VM if storage_scope == "different_cluster": vol_list = [] destinationPools = [] vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) else: vm = MigrateVm(self, virtual_machine_1, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 2--------------") """ Migrate the ROOT Volume to zwps Can't migrate a volume to another cluster, so won't run this test in that case """ # Get ROOT volume and destination pool if storage_scope != "across_cluster": vol_list = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True) root_vol = vol_list[0] destinationPool = GetDestinationStoragePool(self, root_vol.storage, storage_scope, storage_type) #Migrate ROOT volume islive = True MigrateDataVolume(self, root_vol, destinationPool, islive) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 3--------------") """ Migrate the VM and ROOT volume to zwps """ #Get all volumes to be migrated destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, scope, storage_type) destinationPools.append(destinationPool) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 4--------------") """ Add a data disk and migrate vm, data disk to zwps and root disk to cwps """ data_disk_1 = Volume.create( self.apiclient, self.testdata["volume"], zoneid=self.zone.id, account=self.account.name, domainid=self.account.domainid, diskofferingid=self.disk_offering.id ) self.debug("Created volume with ID: %s" % data_disk_1.id) virtual_machine_1.attach_volume( self.apiclient, data_disk_1 ) destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, storage_scope, storage_type) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True)[0] vol_list.append(data_vol) #get destination Pool for DATA volume destinationPool = GetDestinationStoragePool(self, data_vol.storage, scope, storage_type) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 5--------------") """ Upload a Volume, Attach it to the VM, Migrate all the volumes and VM. 1st data disk to zwps 2nd data disk to cwps root disk to zwps """ #upload a volume self.testdata["configurableData"]["upload_volume"]["format"] = "OVA" self.testdata["configurableData"]["upload_volume"]["url"] = "http://nfs1.lab.vmops.com/templates/burbank-systemvm-08012012.ova" upload_volume = Volume.upload( self.apiclient, self.testdata["configurableData"]["upload_volume"], account=self.account.name, domainid=self.domain.id, zoneid=self.zone.id ) upload_volume.wait_for_upload(self.apiclient) virtual_machine_1.attach_volume( self.apiclient, upload_volume ) destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, scope, storage_type) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True) #vol_list.append(data_vol) #get destination Pool for 1st DATA volume vol_list.append(data_vol[0]) destinationPool = GetDestinationStoragePool(self, data_vol[0].storage, scope, storage_type) destinationPools.append(destinationPool) #get destination Pool for 1st DATA volume vol_list.append(data_vol[1]) destinationPool = GetDestinationStoragePool(self, data_vol[1].storage, storage_scope, storage_type) destinationPools.append(destinationPool) self.debug("..............these are the volumes %s " % vol_list) self.debug("..............these are the pools %s " % destinationPools) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("........................checking for files before taking snapshot ..................................") check_files(self, vm, destinationHost) self.debug("---------------This is the test no 6--------------") """ Create snapshots on all the volumes, Migrate all the volumes and VM. root disk to cwps data1 to cwps data2 to zwps """ #Get ROOT Volume vol_for_snap = list_volumes(self.apiclient, virtualmachineid=vm.id, listall=True) for vol in vol_for_snap: snapshot = Snapshot.create( self.apiclient, volume_id=vol.id ) snapshot.validateState( self.apiclient, snapshotstate="backedup", ) # Migrate all volumes and VMs self.debug("..................................checking for files just after taking snapshot...................................") check_files(self, vm, destinationHost) # Get destination Host destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, storage_scope, storage_type) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True) #vol_list.append(data_vol) #get destination Pool for 1st DATA volume vol_list.append(data_vol[0]) destinationPool = GetDestinationStoragePool(self, data_vol[0].storage, storage_scope, storage_type) destinationPools.append(destinationPool) #get destination Pool for 1st DATA volume vol_list.append(data_vol[1]) destinationPool = GetDestinationStoragePool(self, data_vol[1].storage, scope, storage_type) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("........................checking for files after taking snapshot and migrating VMs........................") check_files(self, vm, destinationHost) self.debug("---------------This is the test no 7--------------") """ Resize the data volume , Migrate all the volumes and VM. root disk to zwps data1 to zwps data2 to zwps """ data_disk_1.resize( self.apiclient, diskofferingid=self.resized_disk_offering.id ) # Migrate all volumes and VMs # Get destination Host destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, scope, storage_type) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True) #vol_list.append(data_vol) #get destination Pool for 1st DATA volume vol_list.append(data_vol[0]) destinationPool = GetDestinationStoragePool(self, data_vol[0].storage, scope, storage_type) destinationPools.append(destinationPool) #get destination Pool for 1st DATA volume vol_list.append(data_vol[1]) destinationPool = GetDestinationStoragePool(self, data_vol[1].storage, scope, storage_type) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 8--------------") """ Restore the VM , Migrate all the volumes and VM. root to cpws data1 to zwps data2 to cwps """ virtual_machine_1.restore(self.apiclient) virtual_machine_1.getState( self.apiclient, "Running" ) # Get destination Host destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, storage_scope, storage_type) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True) #vol_list.append(data_vol) #get destination Pool for 1st DATA volume vol_list.append(data_vol[0]) destinationPool = GetDestinationStoragePool(self, data_vol[0].storage, scope, storage_type) destinationPools.append(destinationPool) #get destination Pool for 1st DATA volume vol_list.append(data_vol[1]) destinationPool = GetDestinationStoragePool(self, data_vol[1].storage, storage_scope, storage_type) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 9--------------") """ Detach the Data disk, Deploy another VM, attach the data disk and migrate. root to zwps data to cwps """ virtual_machine_1.detach_volume( self.apiclient, data_disk_1 ) vm = "virtual_machine3" virtual_machine_2 = self.deploy_virtual_machine(self.service_offering.id, vm, self.template.id) self.cleanup.append(virtual_machine_2) virtual_machine_2.attach_volume( self.apiclient, data_disk_1 ) # Get destination Host vm = list_virtual_machines(self.apiclient, id=virtual_machine_2.id, listall=True)[0] destinationHost = self.GetDestinationHost(vm.hostid, virtual_machine_2, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=virtual_machine_2.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, scope, storage_type) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=virtual_machine_2.id, type="DATADISK", listall=True)[0] vol_list.append(data_vol) #get destination Pool for DATA volume destinationPool = GetDestinationStoragePool(self, data_vol.storage, storage_scope, storage_type) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2, ostype) self.debug("---------------This is the test no 10--------------") """ Detach the uploaded volume, attach it to another vm and migrate. root to cwps data1 to zwps data2 to zwps """ virtual_machine_1.detach_volume( self.apiclient, upload_volume ) virtual_machine_2.attach_volume( self.apiclient, upload_volume ) # Get destination Host destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, storage_scope, storage_type) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True) #vol_list.append(data_vol) #get destination Pool for 1st DATA volume vol_list.append(data_vol[0]) destinationPool = GetDestinationStoragePool(self, data_vol[0].storage, scope, storage_type) destinationPools.append(destinationPool) #get destination Pool for 1st DATA volume vol_list.append(data_vol[1]) destinationPool = GetDestinationStoragePool(self, data_vol[1].storage, scope, storage_type) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2, ostype) self.debug("---------------This is the test no 11--------------") """ Create snapshots on all the volumes, Migrate all the volumes and VM. root to zwps data1 to cwps data2 to zwps """ #Get ROOT Volume vol_for_snap = list_volumes(self.apiclient, virtualmachineid=vm.id, listall=True) for vol in vol_for_snap: snapshot = Snapshot.create( self.apiclient, volume_id=vol.id ) snapshot.validateState( self.apiclient, snapshotstate="backedup", ) # Get destination Host destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, scope, storage_type) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True) #vol_list.append(data_vol) #get destination Pool for 1st DATA volume vol_list.append(data_vol[0]) destinationPool = GetDestinationStoragePool(self, data_vol[0].storage, storage_scope, storage_type) destinationPools.append(destinationPool) #get destination Pool for 1st DATA volume vol_list.append(data_vol[1]) destinationPool = GetDestinationStoragePool(self, data_vol[1].storage, scope, storage_type) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2, ostype) @data(('within_cluster', 'linux'), ('within_cluster', 'windows'), ('across_cluster', 'linux'), ('across_cluster', 'windows')) @unpack @attr(tags=["advanced", "basic", "vmware", "vmfs", "tagged"], required_hardware="true") def test_04_vm_and_volumes_live_migration_for_vmware_across_nfs_vmfs(self, first_value, second_value): """ This Test Path tests vMotion from NFS <---> VMFS , within cluster across cluster and across zones and for both windows and linux VMs using DATA DRIVEN TESTING 1. Migrate VM from one host to another 2. Migrate VMs ROOT volume from one storage to another 3. Migrate VM to another Host and ROOT volume to another storage 4. Attach a data disk to VM, migrate VM to a different host and its volumes to different pools. 5. Upload a volume, attach it to VM, migrate VM to a different host and its volumes to different pools. 6. Create volume snapshots on all volumes , migrate VM to a different host and its volumes to different pools. 7. Resize the data disk, migrate VM to a different host and its volumes to different pools. 8. Restore the VM, migrate VM to a different host and its volumes to different pools. 9. Detach the data disk, create another VM, attach the data disk to that VM and then migrate that VM and its volumes. 10. Detach upload volume, attach it to the 2nd VM, and then migrate that VM and its volumes. 11. Create snapshots for all volumes of 2nd vM, then migrate VM and its volumes. After each storage migration step, following validation is done a) Create VM snapshots to check data integrity - @method used : VmSnapshotToCheckDataIntegrity(self, vm) b) Login to the Host/storage pool and check for the VMDK and VMX files for VM and its volumes - @method used : check_files(self, vm, destinationHost) c) Check for VM accessibility by sshing to the VM - @method used : check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1) """ storage_type_nfs = "NetworkFilesystem" storage_type_vmfs = "VMFS" storage_scope = first_value ostype = second_value scope = "ZONE" if ostype == 'windows' and not self.windows_template: self.skipTest("Windows template is not present, so skipping this test") elif ostype == 'windows': template_id = self.windows_template.id else: template_id = self.template.id list_zwps_pools = list_storage_pools(self.apiclient, scope="ZONE", listall=True) zwps_vmfs_pools = [] zwps_nfs_pools = [] for pool in list_zwps_pools: if pool.type == storage_type_vmfs: zwps_vmfs_pools.append(pool) elif pool.type == storage_type_nfs: zwps_nfs_pools.append(pool) if len(zwps_vmfs_pools) < 1: raise self.skipTest("The setup doesn't have enough zone wide primary storages of %s type, we need at least 2" % storage_type_vmfs) if len(zwps_nfs_pools) < 1: raise self.skipTest("The setup doesn't have enough zone wide primary storages of %s type, we need at least 2" % storage_type_nfs) count_host = 0 count_pool_nfs = 0 count_pool_vmfs = 0 pool_vmfs = [] pool_nfs = [] if len(self.list_vmware_clusters) < 2: if storage_scope == "across_cluster": raise self.skipTest("The setup doesn't have more than one cluster, so can't execute these set of tests") if len(self.list_vmware_clusters) >= 2: for cluster in self.list_vmware_clusters: if len(list_hosts(self.apiclient, clusterid=cluster.id)) >= 1: count_host += 1 pools = list_storage_pools(self.apiclient, clusterid=cluster.id) for pool in pools: if pool.storage is storage_type_vmfs: pool_vmfs.append(pool) elif pool.storage is storage_type_nfs: pool_nfs.append(pool) if len(pool_vmfs) >= 1: count_pool_vmfs += 1 if len(pool_nfs) >= 1: count_pool_nfs += 1 pool_vmfs = [] pool_nfs = [] #if storage_scope == "across_cluster": if count_host < 2 or count_pool_vmfs < 2 or count_pool_nfs < 2: raise self.skipTest("The setup doesn't have enough pools or enough hosts. To run these tests the setup must have at least 2 clusters, \ each having min 2 host 2 vmfs storage pools and 2 nfs storage pools") self.debug("---------------This is the test no 1--------------") """ Create a VM, live migrate the VM """ vm = "virtual_machine2" virtual_machine_1 = self.deploy_virtual_machine(self.service_offering.id, vm, template_id) self.cleanup.append(virtual_machine_1) #Get destination host vm = list_virtual_machines(self.apiclient, id=virtual_machine_1.id, listall=True)[0] destinationHost = self.GetDestinationHost(vm.hostid, virtual_machine_1, storage_scope) #Migrate the VM if storage_scope == "different_cluster": vol_list = [] destinationPools = [] vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) else: vm = MigrateVm(self, virtual_machine_1, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 2--------------") """ Migrate the ROOT Volume to zwps Can't migrate a volume to another cluster, so won't run this test in that case """ # Get ROOT volume and destination pool if storage_scope != "across_cluster": vol_list = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True) root_vol = vol_list[0] destinationPool = GetDestinationStoragePool(self, root_vol.storage, storage_scope, storage_type_nfs) #Migrate ROOT volume islive = True MigrateDataVolume(self, root_vol, destinationPool, islive) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 3--------------") """ Migrate the VM and ROOT volume to zwps nfs """ #Get all volumes to be migrated destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, scope, storage_type_nfs) destinationPools.append(destinationPool) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 4--------------") """ Add a data disk and migrate vm, data disk to zwps nfs and root disk to cwps vmfs """ data_disk_1 = Volume.create( self.apiclient, self.testdata["volume"], zoneid=self.zone.id, account=self.account.name, domainid=self.account.domainid, diskofferingid=self.disk_offering.id ) self.debug("Created volume with ID: %s" % data_disk_1.id) virtual_machine_1.attach_volume( self.apiclient, data_disk_1 ) destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, storage_scope, storage_type_vmfs) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True)[0] vol_list.append(data_vol) #get destination Pool for DATA volume destinationPool = GetDestinationStoragePool(self, data_vol.storage, scope, storage_type_nfs) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 5--------------") """ Upload a Volume, Attach it to the VM, Migrate all the volumes and VM. 1st data disk to cwps vmfs 2nd data disk to zwps vmfs root disk to zwps nfs """ #upload a volume self.testdata["configurableData"]["upload_volume"]["format"] = "OVA" self.testdata["configurableData"]["upload_volume"]["url"] = "http://nfs1.lab.vmops.com/templates/burbank-systemvm-08012012.ova" upload_volume = Volume.upload( self.apiclient, self.testdata["configurableData"]["upload_volume"], account=self.account.name, domainid=self.domain.id, zoneid=self.zone.id ) upload_volume.wait_for_upload(self.apiclient) virtual_machine_1.attach_volume( self.apiclient, upload_volume ) destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, scope, storage_type_nfs) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True) #vol_list.append(data_vol) #get destination Pool for 1st DATA volume vol_list.append(data_vol[0]) destinationPool = GetDestinationStoragePool(self, data_vol[0].storage, storage_scope, storage_type_vmfs) destinationPools.append(destinationPool) #get destination Pool for 1st DATA volume vol_list.append(data_vol[1]) destinationPool = GetDestinationStoragePool(self, data_vol[1].storage, scope, storage_type_vmfs) destinationPools.append(destinationPool) self.debug("..............these are the volumes %s " % vol_list) self.debug("..............these are the pools %s " % destinationPools) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("........................checking for files before taking snapshot ..................................") check_files(self, vm, destinationHost) self.debug("---------------This is the test no 6--------------") """ Create snapshots on all the volumes, Migrate all the volumes and VM. root disk to zwps vmfs data1 to zwps nfs data2 to cwps nfs """ #Get ROOT Volume vol_for_snap = list_volumes(self.apiclient, virtualmachineid=vm.id, listall=True) for vol in vol_for_snap: snapshot = Snapshot.create( self.apiclient, volume_id=vol.id ) snapshot.validateState( self.apiclient, snapshotstate="backedup", ) # Migrate all volumes and VMs self.debug("..................................checking for files just after taking snapshot...................................") check_files(self, vm, destinationHost) # Get destination Host destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, scope, storage_type_vmfs) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True) #vol_list.append(data_vol) #get destination Pool for 1st DATA volume vol_list.append(data_vol[0]) destinationPool = GetDestinationStoragePool(self, data_vol[0].storage, scope, storage_type_nfs) destinationPools.append(destinationPool) #get destination Pool for 1st DATA volume vol_list.append(data_vol[1]) destinationPool = GetDestinationStoragePool(self, data_vol[1].storage, storage_scope, storage_type_nfs) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("........................checking for files after taking snapshot and migrating VMs........................") check_files(self, vm, destinationHost) self.debug("---------------This is the test no 7--------------") """ Resize the data volume , Migrate all the volumes and VM. root disk to cwps vmfs data1 to zwps vmfs data2 to cwps nfs """ data_disk_1.resize( self.apiclient, diskofferingid=self.resized_disk_offering.id ) # Migrate all volumes and VMs # Get destination Host destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, storage_scope, storage_type_vmfs) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True) #vol_list.append(data_vol) #get destination Pool for 1st DATA volume vol_list.append(data_vol[0]) destinationPool = GetDestinationStoragePool(self, data_vol[0].storage, scope, storage_type_vmfs) destinationPools.append(destinationPool) #get destination Pool for 1st DATA volume vol_list.append(data_vol[1]) destinationPool = GetDestinationStoragePool(self, data_vol[1].storage, storage_scope, storage_type_nfs) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 8--------------") """ Restore the VM , Migrate all the volumes and VM. root to zwps nfs data1 to cwps nfs data2 to zwps vmfs """ virtual_machine_1.restore(self.apiclient) virtual_machine_1.getState( self.apiclient, "Running" ) # Get destination Host destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, scope, storage_type_nfs) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True) #vol_list.append(data_vol) #get destination Pool for 1st DATA volume vol_list.append(data_vol[0]) destinationPool = GetDestinationStoragePool(self, data_vol[0].storage, storage_scope, storage_type_nfs) destinationPools.append(destinationPool) #get destination Pool for 1st DATA volume vol_list.append(data_vol[1]) destinationPool = GetDestinationStoragePool(self, data_vol[1].storage, scope, storage_type_vmfs) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1, ostype) self.debug("---------------This is the test no 9--------------") """ Detach the Data disk, Deploy another VM, attach the data disk and migrate. root to zwps nfs data to cwps vmfs """ virtual_machine_1.detach_volume( self.apiclient, data_disk_1 ) vm = "virtual_machine3" virtual_machine_2 = self.deploy_virtual_machine(self.service_offering.id, vm, template_id) self.cleanup.append(virtual_machine_2) virtual_machine_2.attach_volume( self.apiclient, data_disk_1 ) # Get destination Host vm = list_virtual_machines(self.apiclient, id=virtual_machine_2.id, listall=True)[0] destinationHost = self.GetDestinationHost(vm.hostid, virtual_machine_2, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=virtual_machine_2.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, scope, storage_type_nfs) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=virtual_machine_2.id, type="DATADISK", listall=True)[0] vol_list.append(data_vol) #get destination Pool for DATA volume destinationPool = GetDestinationStoragePool(self, data_vol.storage, storage_scope, storage_type_vmfs) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2, ostype) self.debug("---------------This is the test no 10--------------") """ Detach the uploaded volume, attach it to another vm and migrate. root to cwps vmfs data1 to zwps nfs data2 to zwps vmfs """ virtual_machine_1.detach_volume( self.apiclient, upload_volume ) virtual_machine_2.attach_volume( self.apiclient, upload_volume ) # Get destination Host destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, storage_scope, storage_type_vmfs) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True) #vol_list.append(data_vol) #get destination Pool for 1st DATA volume vol_list.append(data_vol[0]) destinationPool = GetDestinationStoragePool(self, data_vol[0].storage, scope, storage_type_nfs) destinationPools.append(destinationPool) #get destination Pool for 1st DATA volume vol_list.append(data_vol[1]) destinationPool = GetDestinationStoragePool(self, data_vol[1].storage, scope, storage_type_vmfs) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2, ostype) self.debug("---------------This is the test no 11--------------") """ Create snapshots on all the volumes, Migrate all the volumes and VM. root to cwps nfs data1 to cwps vmfs data2 to cwps nfs """ #Get ROOT Volume vol_for_snap = list_volumes(self.apiclient, virtualmachineid=vm.id, listall=True) for vol in vol_for_snap: snapshot = Snapshot.create( self.apiclient, volume_id=vol.id ) snapshot.validateState( self.apiclient, snapshotstate="backedup", ) # Migrate all volumes and VMs # Get destination Host destinationHost = self.GetDestinationHost(vm.hostid, vm, storage_scope) vol_list = [] destinationPools = [] #list ROOT volume root_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="ROOT", listall=True)[0] vol_list.append(root_vol) #get destination Pool for ROOT volume destinationPool = GetDestinationStoragePool(self, root_vol.storage, storage_scope, storage_type_nfs) destinationPools.append(destinationPool) #list DATA volume data_vol = list_volumes(self.apiclient, virtualmachineid=vm.id, type="DATADISK", listall=True) #vol_list.append(data_vol) #get destination Pool for 1st DATA volume vol_list.append(data_vol[0]) destinationPool = GetDestinationStoragePool(self, data_vol[0].storage, storage_scope, storage_type_vmfs) destinationPools.append(destinationPool) #get destination Pool for 1st DATA volume vol_list.append(data_vol[1]) destinationPool = GetDestinationStoragePool(self, data_vol[1].storage, storage_scope, storage_type_nfs) destinationPools.append(destinationPool) # Migrate and verify vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2, ostype) @attr(tags=["advanced", "basic", "vmware", "vmfs", "negative"], required_hardware="true") def test_05_vm_and_volumes_live_migration_for_vmware_negative_scenarios(self): """ Test scenarios like : 1. Take VM snapshot when vMotion is in progress 2. Take Volume snapshot when vMotion is in progress 3. Resize volume when vMotion is in progress 4. Set vmware.vcenter.session.timeout to a low value and do migration """ # Deploy a VM, create a data disks and attach it to the VM # Restart management server vm = "virtual_machine2" virtual_machine_1 = self.deploy_virtual_machine(self.service_offering.id, vm, self.template.id) #self.cleanup.append(virtual_machine_1) data_disk_1 = Volume.create( self.apiclient, self.testdata["volume"], zoneid=self.zone.id, account=self.account.name, domainid=self.account.domainid, diskofferingid=self.disk_offering.id ) self.debug("Created volume with ID: %s" % data_disk_1.id) virtual_machine_1.attach_volume( self.apiclient, data_disk_1 ) storage_scope = "within_cluster" storage_type = "VMFS" """ 1. VM snapshot negative test """ try: vm = list_virtual_machines(self.apiclient, id=virtual_machine_1.id, listall=True)[0] destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) thread_1 = Thread( target=MigrateVmWithVolume, args=(self, virtual_machine_1, destinationHost, vol_list, destinationPools,) ) thread_2 = Thread( target=self.takeVmSnapshotNegative, args=(virtual_machine_1.id,) ) thread_1.start() time.sleep(10) thread_2.start() thread_1.join() thread_2.join() except: self.debug("Error: unable to start thread") """ 2. Volume snapshot negative test """ # list ROOT volume root_vol = list_volumes(self.apiclient, listall=True, type="ROOT", virtualmachineid=virtual_machine_1.id)[0] vm = list_virtual_machines(self.apiclient, id=virtual_machine_1.id, listall=True)[0] try: destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) thread_3 = Thread( target=MigrateVmWithVolume, args=(self, virtual_machine_1, destinationHost, vol_list, destinationPools,) ) thread_4 = Thread( target=self.takeVolumeSnapshotNegative, args=(root_vol.id,) ) thread_3.start() time.sleep(10) thread_4.start() thread_3.join() thread_4.join() except: self.debug("Error: unable to start thread") """ 3. Resize volume negative test """ vm = list_virtual_machines(self.apiclient, id=virtual_machine_1.id, listall=True)[0] try: destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) thread_5 = Thread( target=MigrateVmWithVolume, args=(self, virtual_machine_1, destinationHost, vol_list, destinationPools,) ) thread_6 = Thread( target=self.resizeVolumeNegative, args=(data_disk_1,) ) thread_5.start() time.sleep(10) thread_6.start() thread_5.join() thread_6.join() except: self.debug("Error: unable to start thread") """ 4. Deploy a windows VM, set vmware.vcenter.session.timeout to a low value and do migration, migration should fail """ vm = "virtual_machine3" virtual_machine_2 = self.deploy_virtual_machine(self.service_offering.id, vm, self.template.id) # list host for the VM vm_host = list_hosts(self.apiclient, id=virtual_machine_2.hostid, listall=True)[0] # list cluster for that host vm_cluster = list_clusters(self.apiclient, id=vm_host.clusterid, listall=True)[0] #list all hosts in the cluster host_list = list_hosts(self.apiclient, clusterid=vm_cluster.id, listall=True) Configurations.update( self.apiclient, "vmware.vcenter.session.timeout", "30" ) # Restart management server restart_mgmt_server( self, self.apiclient.connection.mgtSvr, 22, self.apiclient.connection.user, self.apiclient.connection.passwd ) time.sleep(120) for host in host_list: Host.getState( self.apiclient, host.id, "Up", "Enabled" ) self.cleanup.append(virtual_machine_2) vm = list_virtual_machines(self.apiclient, id=virtual_machine_2.id, listall=True)[0] destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, vm, storage_scope, storage_type) try: with self.assertRaises(Exception): MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) except Exception as e: self.exceptionList.append(e) Configurations.update( self.apiclient, "vmware.vcenter.session.timeout", "1200" ) # Restart management server restart_mgmt_server( self, self.apiclient.connection.mgtSvr, 22, self.apiclient.connection.user, self.apiclient.connection.passwd ) time.sleep(120) for host in host_list: Host.getState( self.apiclient, host.id, "Up", "Enabled" ) if self.exceptionList: for i in self.exceptionList: raise(i) # Change the VMWare session timeout to 60s @attr(tags=["advanced", "basic", "vmware", "vmfs", "maint"], required_hardware="true") def test_06_vm_and_volumes_live_migration_for_vmware_host_maintenance(self): """ Test scenarios for Host Maintenance 1. Create 2 VMs on 1 Host and attach data disks to each of them 2. Put the host on which VMs are created to maintenance mode 3. Wait for the host to get to maintenance mode, the 2 VMs should be in running state and also check that systemvms are in running state. 4. Now try to migrate VM1 to the host in maintenance mode, it should fail 5. Cancel maintenance mode of the host 6. Now attach a data disk to VM2 and migrate the VM and its volumes. 7. Restore VM1 and migrate the vm and its volumes. 8. Detach all data disks from VM1 and VM2, create VM3, attach all the data disks to VM3 and then migrate vm and its volumes After each storage migration step, following validation is done a) Create VM snapshots to check data integrity - @method used : VmSnapshotToCheckDataIntegrity(self, vm) b) Login to the Host/storage pool and check for the VMDK and VMX files for VM and its volumes - @method used : check_files(self, vm, destinationHost) c) Check for VM accessibility by sshing to the VM - @method used : check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1) """ storage_scope = "within_cluster" storage_type = "VMFS" # Deploy 2 Virtual Machines vm = "virtual_machine2" virtual_machine_1 = VirtualMachine.create( self.apiclient, self.testdata[vm], accountid=self.account.name, zoneid=self.zone.id, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, templateid=self.template.id, hostid=self.hosts[0].id ) self.cleanup.append(virtual_machine_1) virtual_machine_1.getState( self.apiclient, "Running" ) vm = "virtual_machine3" virtual_machine_2 = VirtualMachine.create( self.apiclient, self.testdata[vm], accountid=self.account.name, zoneid=self.zone.id, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, templateid=self.template.id, hostid=virtual_machine_1.hostid, ) self.cleanup.append(virtual_machine_2) virtual_machine_2.getState( self.apiclient, "Running" ) # Create 2 data disks data_disk_1 = Volume.create( self.apiclient, self.testdata["volume"], zoneid=self.zone.id, account=self.account.name, domainid=self.account.domainid, diskofferingid=self.disk_offering.id ) data_disk_2 = Volume.create( self.apiclient, self.testdata["volume"], zoneid=self.zone.id, account=self.account.name, domainid=self.account.domainid, diskofferingid=self.disk_offering.id ) # Attach disks to VMs virtual_machine_1.attach_volume( self.apiclient, data_disk_1 ) virtual_machine_2.attach_volume( self.apiclient, data_disk_2 ) # Enable Maintenenace state for the Host maintenance_host_id = virtual_machine_1.hostid Host.enableMaintenance(self.apiclient, id=maintenance_host_id) Host.getState( self.apiclient, maintenance_host_id, "Up", "Maintenance" ) # list VMs post migration list_vm_1 = list_virtual_machines(self.apiclient, id=virtual_machine_1.id, listall=True)[0] list_vm_2 = list_virtual_machines(self.apiclient, id=virtual_machine_2.id, listall=True)[0] # check Status virtual_machine_2.getState( self.apiclient, "Running" ) virtual_machine_1.getState( self.apiclient, "Running" ) self.assertNotEqual( maintenance_host_id, list_vm_1.hostid, "Virtual MAchine has not migrated" ) self.assertNotEqual( maintenance_host_id, list_vm_2.hostid, "Virtual Machine has not migrated" ) # list systemvms and check for their status ssvm_list = list_ssvms(self.apiclient, listall=True) for ssvm in ssvm_list: self.get_ssvm_state( self.apiclient, ssvm.id, "Running" ) # Try vMotion on virtual_machine_1 to the host which is in maintenance destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, list_vm_1, storage_scope, storage_type) try: with self.assertRaises(Exception): MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) except Exception as e: self.debug(" Migration failed as expected since the Host is in maintenance state as the exception says : %s " % e) VmSnapshotToCheckDataIntegrity(self, list_vm_1) # Cancel Host maintenance state Host.cancelMaintenance(self.apiclient, id=maintenance_host_id) Host.getState( self.apiclient, maintenance_host_id, "Up", "Enabled" ) # Create another disk attach it to virtual_machine_2 and migrate it. data_disk_3 = Volume.create( self.apiclient, self.testdata["volume"], zoneid=self.zone.id, account=self.account.name, domainid=self.account.domainid, diskofferingid=self.disk_offering.id ) # Attach disks to VMs virtual_machine_2.attach_volume( self.apiclient, data_disk_3 ) destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, list_vm_2, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2) # Restore virtual_machine_1 and then migrate virtual_machine_1.restore(self.apiclient) virtual_machine_1.getState( self.apiclient, "Running" ) destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, list_vm_1, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1) self.testdata["virtual_machine3"]["name"] = "TestVM5" self.testdata["virtual_machine3"]["displayname"] = "TestVM5" virtual_machine_3 = VirtualMachine.create( self.apiclient, self.testdata["virtual_machine3"], accountid=self.account.name, zoneid=self.zone.id, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, templateid=self.template.id, hostid=self.hosts[0].id ) self.cleanup.append(virtual_machine_3) virtual_machine_3.getState( self.apiclient, "Running" ) # detach the disks from VM_1 and VM_2, attach them to VM_3 virtual_machine_2.detach_volume( self.apiclient, data_disk_2 ) virtual_machine_1.detach_volume( self.apiclient, data_disk_1 ) virtual_machine_3.attach_volume( self.apiclient, data_disk_2 ) virtual_machine_3.attach_volume( self.apiclient, data_disk_1 ) destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, virtual_machine_3, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_3, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_3) @attr(tags=["advanced", "basic", "vmware", "vmfs", "maint"], required_hardware="true") def test_07_vm_and_volumes_live_migration_for_vmware_storage_maintenance(self): """ Test scenarios for storage Maintenance 1. Create 2 VMs and attach data disks to each of them 2. Put the storage on which VMs are created to maintenance mode 3. Wait for the storage to get to maintenance mode, the 2 VMs should be in stopped state and also check that systemvms are in running state. 4. Now try to migrate a volume to the storage in maintenance mode, it should pass 5. Cancel maintenance mode of the storage 6. Start the VMs. 7. Migrate both the VMs and their volumes 8. Detach all data disks from VM1 and VM2, create VM3, attach all the data disks to VM3 and then migrate vm and its volumes After each storage migration step, following validation is done a) Create VM snapshots to check data integrity - @method used : VmSnapshotToCheckDataIntegrity(self, vm) b) Login to the Host/storage pool and check for the VMDK and VMX files for VM and its volumes - @method used : check_files(self, vm, destinationHost) c) Check for VM accessibility by sshing to the VM - @method used : check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1) """ storage_scope = "within_cluster" storage_type = "VMFS" # Deploy 2 Virtual Machines vm = "virtual_machine2" virtual_machine_1 = VirtualMachine.create( self.apiclient, self.testdata[vm], accountid=self.account.name, zoneid=self.zone.id, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, templateid=self.template.id, hostid=self.hosts[0].id ) self.cleanup.append(virtual_machine_1) virtual_machine_1.getState( self.apiclient, "Running" ) vm = "virtual_machine3" virtual_machine_2 = VirtualMachine.create( self.apiclient, self.testdata[vm], accountid=self.account.name, zoneid=self.zone.id, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, templateid=self.template.id, hostid=virtual_machine_1.hostid ) self.cleanup.append(virtual_machine_2) virtual_machine_2.getState( self.apiclient, "Running" ) # Create 2 data disks data_disk_1 = Volume.create( self.apiclient, self.testdata["volume"], zoneid=self.zone.id, account=self.account.name, domainid=self.account.domainid, diskofferingid=self.disk_offering.id ) data_disk_2 = Volume.create( self.apiclient, self.testdata["volume"], zoneid=self.zone.id, account=self.account.name, domainid=self.account.domainid, diskofferingid=self.disk_offering.id ) # Attach disks to VMs virtual_machine_1.attach_volume( self.apiclient, data_disk_1 ) virtual_machine_2.attach_volume( self.apiclient, data_disk_2 ) """ Storage maintenance """ # Get the root volume of virtual_machine_1 and put it's pool in maintenance mode root_vol_1 = list_volumes(self.apiclient, virtualmachineid=virtual_machine_1.id, type="ROOT", listall=True)[0] maintenance_pool_id = root_vol_1.storageid # Enable maintenance mode for storage pool cmd = enableStorageMaintenance.enableStorageMaintenanceCmd() cmd.id = maintenance_pool_id self.apiclient.enableStorageMaintenance(cmd) StoragePool.getState( self.apiclient, maintenance_pool_id, "Maintenance" ) # When storage pool goes to maintenance state the VM should be stopped virtual_machine_1.getState( self.apiclient, "Stopped" ) # list systemvms and check for their status ssvm_list = list_ssvms(self.apiclient, listall=True) for ssvm in ssvm_list: self.get_ssvm_state( self.apiclient, ssvm.id, "Running" ) # Try to migrate the root volume of virtual_machine_2 to the pool in maintenance mode. It should succeed root_vol_2 = list_volumes(self.apiclient, virtualmachineid=virtual_machine_2.id, type="ROOT", listall=True)[0] if root_vol_2.storageid == maintenance_pool_id: virtual_machine_2.getState( self.apiclient, "Stopped" ) else: destinationPool = list_storage_pools(self.apiclient, id=maintenance_pool_id, listall=True)[0] islive = True MigrateDataVolume(self, root_vol_2, destinationPool, islive) # cancel maintenance mode of the pool cmd = cancelStorageMaintenance.cancelStorageMaintenanceCmd() cmd.id = maintenance_pool_id self.apiclient.cancelStorageMaintenance(cmd) StoragePool.getState( self.apiclient, maintenance_pool_id, "Up" ) # When storage pool comes out of maintenance state the VM should be started list_vm_1 = list_virtual_machines(self.apiclient, id=virtual_machine_1.id, listall=True)[0] self.debug("...............................................Print state of the VM.....................%s............." % list_vm_1.state) if list_vm_1.state == "Stopped": virtual_machine_1.start(self.apiclient) virtual_machine_1.getState( self.apiclient, "Running" ) # Again try vMotion of both VMs #list_vm_1 = list_virtual_machines(self.apiclient, id=virtual_machine_1.id, listall=True)[0] list_vm_2 = list_virtual_machines(self.apiclient, id=virtual_machine_2.id, listall=True)[0] if list_vm_2.state == "Stopped": virtual_machine_2.start(self.apiclient) virtual_machine_2.getState( self.apiclient, "Running" ) list_vm1 = list_virtual_machines(self.apiclient, id=virtual_machine_1.id, listall=True)[0] list_vm2 = list_virtual_machines(self.apiclient, id=virtual_machine_2.id, listall=True)[0] destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, list_vm1, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_1, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_1) destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, list_vm2, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_2, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_2) self.testdata["virtual_machine3"]["name"] = "TestVM" self.testdata["virtual_machine3"]["displayname"] = "TestVM" virtual_machine_3 = VirtualMachine.create( self.apiclient, self.testdata["virtual_machine3"], accountid=self.account.name, zoneid=self.zone.id, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, templateid=self.template.id, hostid=self.hosts[0].id ) self.cleanup.append(virtual_machine_3) virtual_machine_3.getState( self.apiclient, "Running" ) # detach the disks from VM_1 and VM_2, attach them to VM_3 virtual_machine_2.detach_volume( self.apiclient, data_disk_2 ) virtual_machine_1.detach_volume( self.apiclient, data_disk_1 ) virtual_machine_3.attach_volume( self.apiclient, data_disk_2 ) virtual_machine_3.attach_volume( self.apiclient, data_disk_1 ) destinationHost, destinationPools, vol_list = get_destination_pools_hosts(self, virtual_machine_3, storage_scope, storage_type) vm = MigrateVmWithVolume(self, virtual_machine_3, destinationHost, vol_list, destinationPools) VmSnapshotToCheckDataIntegrity(self, vm) check_files(self, vm, destinationHost) check_for_vm_access_by_ssh_using_nat(self, virtual_machine_3)