# Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance # with the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. """Utilities functions """ # All tests inherit from cloudstackTestCase from marvin.cloudstackTestCase import cloudstackTestCase import unittest # Import Integration Libraries from marvin.codes import FAILED, PASS # base - contains all resources as entities and defines create, delete, # list operations on them from marvin.lib.base import (Account, VirtualMachine, ServiceOffering, User, DiskOffering, Volume, Template, StoragePool, Resources) from marvin.lib.utils import cleanup_resources, validateList #common - commonly used methods for all tests are listed here from marvin.lib.common import (get_zone, get_domain, get_template, list_virtual_machines, find_storage_pool_type) from nose.plugins.attrib import attr import os import urllib.request, urllib.parse, urllib.error import tempfile def verify_attach_volume(self, vmid, volid): list_volumes = Volume.list(self.userapiclient, id=volid ) self.assertEqual( validateList(list_volumes)[0], PASS, "Check List volume response for volume %s" % volid) self.assertEqual( len(list_volumes), 1, "There is no data disk attached to vm id:%s" % vmid) self.assertEqual( list_volumes[0].virtualmachineid, vmid, "Check if volume state (attached) is reflected") self.debug("volume id:%s successfully attached to vm id%s" % (volid, vmid)) return def verify_detach_volume(self, vmid, volid): list_volumes = Volume.list(self.userapiclient, id=volid ) self.assertEqual( validateList(list_volumes)[0], PASS, "Check List volume response for volume %s" % volid) self.assertEqual( len(list_volumes), 1, "Detach data disk id: %s for vm id :%s was not successful" % (volid, vmid)) self.assertEqual( list_volumes[0].virtualmachineid, None, "Check if volume state (attached) is reflected") self.debug( "volume id: %s successfully detached from vm id:%s" % (volid, vmid)) def verify_vm(self, vmid): list_vm = list_virtual_machines(self.userapiclient, account=self.account.name, domainid=self.account.domainid, id=vmid ) self.assertEqual( validateList(list_vm)[0], PASS, "Check List vm response for vmid: %s" % vmid) self.assertGreater( len(list_vm), 0, "Check the list vm response for vm id: %s" % vmid) vm = list_vm[0] self.assertEqual( vm.id, str(vmid), "Vm deployed is different from the test") self.assertEqual(vm.state, "Running", "VM is not in Running state") self.debug("VM got created successfully %s" % vmid) class TestPathVolume(cloudstackTestCase): @classmethod def setUpClass(cls): testClient = super(TestPathVolume, cls).getClsTestClient() cls.apiclient = testClient.getApiClient() cls.testdata = testClient.getParsedTestDataConfig() # Get Zone,Domain and templates cls.domain = get_domain(cls.apiclient) cls.zone = get_zone(cls.apiclient) cls.testdata["mode"] = cls.zone.networktype cls.hypervisor = testClient.getHypervisorInfo() cls._cleanup = [] cls.insuffStorage = False cls.unsupportedHypervisor = False #for LXC if the storage pool of type 'rbd' ex: ceph is not available, skip the test if cls.hypervisor.lower() == 'lxc': if not find_storage_pool_type(cls.apiclient, storagetype='rbd'): cls.insuffStorage = True return cls.template = get_template( cls.apiclient, cls.zone.id, cls.testdata["ostype"]) cls.testdata["template"]["ostypeid"] = cls.template.ostypeid if cls.template == FAILED: cls.fail( "get_template() failed to return template with description \ %s" % cls.testdata["ostype"]) try: cls.account = Account.create(cls.apiclient, cls.testdata["account"], domainid=cls.domain.id ) cls._cleanup.append(cls.account) # createa two service offerings cls.service_offering_1 = ServiceOffering.create( cls.apiclient, cls.testdata["service_offerings"]["small"]) cls._cleanup.append(cls.service_offering_1) # Create Disk offerings cls.disk_offering_1 = DiskOffering.create( cls.apiclient, cls.testdata["disk_offering"]) cls._cleanup.append(cls.disk_offering_1) # check if zone wide storage is enable cls.list_storage = StoragePool.list(cls.apiclient, scope="ZONE" ) if cls.list_storage: cls.zone_wide_storage = cls.list_storage[0] cls.debug( "zone wide storage id is %s" % cls.zone_wide_storage.id) cls.testdata["tags"] = "zp" update1 = StoragePool.update(cls.apiclient, id=cls.zone_wide_storage.id, tags=cls.testdata["tags"] ) cls.debug( "Storage %s pool tag%s" % (cls.zone_wide_storage.id, update1.tags)) cls.testdata["service_offerings"]["tags"] = "zp" cls.tagged_so = ServiceOffering.create( cls.apiclient, cls.testdata["service_offerings"]) cls.testdata["service_offerings"]["tags"] = " " cls._cleanup.append(cls.tagged_so) # create tagged disk offerings cls.testdata["disk_offering"]["tags"] = "zp" cls.disk_offering_tagged = DiskOffering.create( cls.apiclient, cls.testdata["disk_offering"]) cls._cleanup.append(cls.disk_offering_tagged) else: cls.debug("No zone wide storage found") # check if local storage is enable if cls.zone.localstorageenabled: cls.testdata["disk_offering"]["tags"] = " " cls.testdata["service_offerings"]["storagetype"] = 'local' cls.service_offering_2 = ServiceOffering.create( cls.apiclient, cls.testdata["service_offerings"]) cls._cleanup.append(cls.service_offering_2) # craete a compute offering with local storage cls.testdata["disk_offering"]["storagetype"] = 'local' cls.disk_offering_local = DiskOffering.create( cls.apiclient, cls.testdata["disk_offering"]) cls._cleanup.append(cls.disk_offering_local) cls.testdata["disk_offering"]["storagetype"] = ' ' else: cls.debug("No local storage found") cls.userapiclient = testClient.getUserApiClient( UserName=cls.account.name, DomainName=cls.account.domain) # Check if login is successful with new account response = User.login(cls.userapiclient, username=cls.account.name, password=cls.testdata["account"]["password"] ) assert response.sessionkey is not None #response should have non null value except Exception as e: cls.tearDownClass() raise e return def setUp(self): self.apiclient = self.testClient.getApiClient() self.dbclient = self.testClient.getDbConnection() if self.unsupportedHypervisor or self.insuffStorage: self.skipTest("Skipping test because of insuff resources\ %s" % self.hypervisor) @classmethod def tearDownClass(cls): try: cleanup_resources(cls.apiclient, cls._cleanup) except Exception as e: raise Exception("Warning:Exception during cleanup: %s" % e) @attr( tags=[ "advanced", "advancedsg", "basic", ], required_hardware="True") def test_01_positive_path(self): """ positive test for volume life cycle # 1. Deploy a vm [vm1] with shared storage and data disk # 2. Deploy a vm [vm2]with shared storage without data disk # 3. TBD # 4. Create a new volume and attache to vm2 # 5. Detach data disk from vm1 and download it # Variance(1-9) # 6. Upload volume by providing url of downloaded volume in step 5 # 7. Attach the volume to a different vm - vm2 # 8. Try to delete an attached volume # 9. Create template from root volume of VM1 # 10. Create new VM using the template created in step 9 # 11. Delete the template # 12. Detach the disk from VM2 and re-attach the disk to VM1 # 13.TBD # 14.TBD # 15.Migrate volume(detached) and then attach to a vm and live-migrate # 16.Upload volume of size smaller than storage.max.volume.upload.size(leaving the negative case) # 17.TBD # 18.TBD # 19.TBD # 20.Detach data disks from VM2 and delete volume """ if self.hypervisor.lower() in ['lxc']: self.skipTest( "feature is not supported in %s" % self.hypervisor) # 1. Deploy a vm [vm1] with shared storage and data disk self.virtual_machine_1 = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.template.id, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering_1.id, zoneid=self.zone.id, diskofferingid=self.disk_offering_1.id, mode=self.testdata["mode"]) verify_vm(self, self.virtual_machine_1.id) # List data volume for vm1 list_volume = Volume.list(self.userapiclient, virtualmachineid=self.virtual_machine_1.id, type='DATADISK' ) self.assertEqual( validateList(list_volume)[0], PASS, "Check List volume response for vm id %s" % self.virtual_machine_1.id) list_data_volume_for_vm1 = list_volume[0] self.assertEqual( len(list_volume), 1, "There is no data disk attached to vm id:%s" % self.virtual_machine_1.id) self.assertEqual( list_data_volume_for_vm1.virtualmachineid, str( self.virtual_machine_1.id), "Check if volume state (attached) is reflected") # 2. Deploy a vm [vm2]with shared storage without data disk self.virtual_machine_2 = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.template.id, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering_1.id, zoneid=self.zone.id, mode=self.testdata["mode"]) verify_vm(self, self.virtual_machine_2.id) # 4. Create a new volume and attache to vm2 self.volume = Volume.create(self.userapiclient, services=self.testdata["volume"], diskofferingid=self.disk_offering_1.id, zoneid=self.zone.id ) list_data_volume = Volume.list(self.userapiclient, id=self.volume.id ) self.assertEqual( validateList(list_data_volume)[0], PASS, "Check List volume response for volume %s" % self.volume.id) self.assertEqual( list_data_volume[0].id, self.volume.id, "check list volume response for volume id: %s" % self.volume.id) self.debug( "volume id %s got created successfully" % list_data_volume[0].id) # Attach volume to vm2 self.virtual_machine_2.attach_volume(self.userapiclient, self.volume ) verify_attach_volume(self, self.virtual_machine_2.id, self.volume.id) # Variance if self.zone.localstorageenabled: # V1.Create vm3 with local storage offering self.virtual_machine_local_3 = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.template.id, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering_2.id, zoneid=self.zone.id, mode=self.testdata["mode"]) verify_vm(self, self.virtual_machine_local_3.id) # V2.create two data disk on local storage self.local_volumes = [] for i in range(2): local_volume = Volume.create( self.userapiclient, services=self.testdata["volume"], diskofferingid=self.disk_offering_local.id, zoneid=self.zone.id) list_local_data_volume = Volume.list(self.userapiclient, id=local_volume.id ) self.assertEqual( validateList(list_local_data_volume)[0], PASS, "Check List volume response for volume %s" % local_volume.id) self.assertEqual( list_local_data_volume[0].id, local_volume.id, "check list volume response for volume id: %s" % local_volume.id) self.debug( "volume id %s got created successfully" % list_local_data_volume[0].id) self.local_volumes.append(local_volume) # V3.Attach local disk to vm1 self.virtual_machine_1.attach_volume(self.userapiclient, self.local_volumes[0] ) verify_attach_volume( self, self.virtual_machine_1.id, self.local_volumes[0].id) if self.list_storage: # V4.create vm4 with zone wide storage self.virtual_machine_zone_4 = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.template.id, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.tagged_so.id, zoneid=self.zone.id, mode=self.testdata["mode"]) verify_vm(self, self.virtual_machine_zone_4.id) # V5.Create two data disk on zone wide storage self.zone_volumes = [] for i in range(2): zone_volume = Volume.create( self.userapiclient, services=self.testdata["volume"], diskofferingid=self.disk_offering_tagged.id, zoneid=self.zone.id) list_zone_data_volume = Volume.list(self.userapiclient, id=zone_volume.id ) self.assertEqual( validateList(list_zone_data_volume)[0], PASS, "Check List volume response for volume %s" % zone_volume.id) self.assertEqual( list_zone_data_volume[0].id, zone_volume.id, "check list volume response for volume id: %s" % zone_volume.id) self.debug( "volume id:%s got created successfully" % list_zone_data_volume[0].id) self.zone_volumes.append(zone_volume) # V6.Attach data disk running on ZWPS to VM1 (root disk on shared) self.virtual_machine_1.attach_volume(self.userapiclient, self.zone_volumes[0] ) verify_attach_volume( self, self.virtual_machine_1.id, self.zone_volumes[0].id) # V7. Create a cluster wide volume and attach to vm running on zone # wide storage self.cluster_volume = Volume.create( self.userapiclient, services=self.testdata["volume"], diskofferingid=self.disk_offering_1.id, zoneid=self.zone.id) list_cluster_volume = Volume.list(self.userapiclient, id=self.cluster_volume.id ) self.assertEqual( validateList(list_cluster_volume)[0], PASS, "Check List volume response for volume %s" % self.cluster_volume.id) self.assertEqual( list_cluster_volume[0].id, str( self.cluster_volume.id), "volume does not exist %s" % self.cluster_volume.id) self.debug( "volume id %s got created successfully" % list_cluster_volume[0].id) self.virtual_machine_zone_4.attach_volume(self.userapiclient, self.cluster_volume ) verify_attach_volume( self, self.virtual_machine_zone_4.id, self.cluster_volume.id) if self.list_storage and self.zone.localstorageenabled: # V8.Attach zone wide volume to vm running on local storage self.virtual_machine_local_3.attach_volume(self.userapiclient, self.zone_volumes[1] ) verify_attach_volume( self, self.virtual_machine_local_3.id, self.zone_volumes[1].id) # V9.Attach local volume to a vm running on zone wide storage self.virtual_machine_zone_4.attach_volume(self.userapiclient, self.local_volumes[1] ) verify_attach_volume( self, self.virtual_machine_zone_4.id, self.local_volumes[1].id) # 5. Detach data disk from vm1 and download it self.virtual_machine_1.detach_volume(self.userapiclient, volume=list_data_volume_for_vm1 ) verify_detach_volume( self, self.virtual_machine_1.id, list_data_volume_for_vm1.id) # download detached volume self.extract_volume = Volume.extract( self.userapiclient, volume_id=list_data_volume_for_vm1.id, zoneid=self.zone.id, mode='HTTP_DOWNLOAD') self.debug("extracted url is%s :" % self.extract_volume.url) try: formatted_url = urllib.parse.unquote_plus(self.extract_volume.url) self.debug( "Attempting to download volume at url %s" % formatted_url) response = urllib.request.urlopen(formatted_url) self.debug("response from volume url %s" % response.getcode()) fd, path = tempfile.mkstemp() self.debug( "Saving volume %s to path %s" % (list_data_volume_for_vm1.id, path)) os.close(fd) with open(path, 'wb') as fd: fd.write(response.read()) self.debug("Saved volume successfully") except Exception: self.fail( "Extract Volume Failed with invalid URL %s (vol id: %s)" % (self.extract_volume, list_data_volume_for_vm1.id)) # checking format of downloaded volume and assigning to # testdata["volume_upload"] if "OVA" in self.extract_volume.url.upper(): self.testdata["configurableData"]["upload_volume"]["format"] = "OVA" if "QCOW2" in self.extract_volume.url.upper(): self.testdata["configurableData"]["upload_volume"]["format"] = "QCOW2" # 6. Upload volume by providing url of downloaded volume in step 5 self.upload_response = Volume.upload( self.userapiclient, zoneid=self.zone.id, url=self.extract_volume.url, services=self.testdata["configurableData"]["upload_volume"]) self.upload_response.wait_for_upload(self.userapiclient ) self.debug("uploaded volume id is %s" % self.upload_response.id) # 7. Attach the volume to a different vm - vm2 self.virtual_machine_2.attach_volume(self.userapiclient, volume=self.upload_response ) verify_attach_volume( self, self.virtual_machine_2.id, self.upload_response.id) # 8. Try to delete an attached volume try: self.volume.delete(self.userapiclient ) self.fail( "Volume got deleted in attached state %s " % self.volume.id) except Exception as e: self.debug("Attached volume deletion failed because %s" % e) # 9. Create template from root volume of VM1(stop VM->create template # -> start vm) self.virtual_machine_1.stop(self.userapiclient ) self.list_root_disk_for_vm1 = Volume.list( self.userapiclient, virtualmachineid=self.virtual_machine_1.id, type='ROOT') self.assertEqual( validateList( self.list_root_disk_for_vm1)[0], PASS, "Check List volume response for vm %s" % self.virtual_machine_1.id) self.assertEqual( len( self.list_root_disk_for_vm1), 1, "list root disk for vm1 is empty : %s" % self.virtual_machine_1.id) self.template_from_vm1_root_disk = Template.create( self.userapiclient, self.testdata["template"], self.list_root_disk_for_vm1[0].id, account=self.account.name, domainid=self.account.domainid) list_template = Template.list( self.userapiclient, templatefilter=self.testdata["templatefilter"], id=self.template_from_vm1_root_disk.id) self.assertEqual( validateList(list_template)[0], PASS, "Check List template response for template id %s" % self.template_from_vm1_root_disk.id) self.assertEqual( len(list_template), 1, "list template response is empty for template id : %s" % list_template[0].id) self.assertEqual( list_template[0].id, self.template_from_vm1_root_disk.id, "list template id is not same as created template") self.debug( "Template id:%s got created successfully" % self.template_from_vm1_root_disk.id) self.virtual_machine_1.start(self.userapiclient ) # 10. Deploy a vm using template ,created from vm1's root disk self.virtual_machine_3 = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.template_from_vm1_root_disk.id, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering_1.id, zoneid=self.zone.id, mode=self.testdata["mode"]) verify_vm(self, self.virtual_machine_3.id) # 11.delete the template created from root disk of vm1 try: self.template_from_vm1_root_disk.delete(self.userapiclient ) self.debug( "Template id: %s got deleted successfully" % self.template_from_vm1_root_disk.id) except Exception as e: raise Exception("Template deletion failed with error %s" % e) list_template = Template.list( self.userapiclient, templatefilter=self.testdata["templatefilter"], id=self.template_from_vm1_root_disk.id) self.assertEqual( list_template, None, "Template is not deleted, id %s:" % self.template_from_vm1_root_disk.id) self.debug( "Template id%s got deleted successfully" % self.template_from_vm1_root_disk.id) # List vm and check the state of vm verify_vm(self, self.virtual_machine_3.id) # 12.Detach the disk from VM2 and re-attach the disk to VM1 self.virtual_machine_2.detach_volume(self.userapiclient, volume=self.upload_response ) verify_detach_volume( self, self.virtual_machine_2.id, self.upload_response.id) self.virtual_machine_1.attach_volume(self.userapiclient, volume=self.upload_response ) verify_attach_volume( self, self.virtual_machine_1.id, self.upload_response.id) # 15.Migrate volume(detached) and then attach to a vm and live-migrate self.migrate_volume = Volume.create( self.userapiclient, services=self.testdata["volume"], diskofferingid=self.disk_offering_1.id, zoneid=self.zone.id) list_volume = Volume.list(self.apiclient, id=self.migrate_volume.id ) self.assertEqual( validateList(list_volume)[0], PASS, "Check List volume response for volume %s" % self.migrate_volume.id) self.assertEqual( list_volume[0].id, str( self.migrate_volume.id), "volume does not exist %s" % self.migrate_volume.id) self.debug("volume id %s got created successfully" % list_volume[0].id) self.virtual_machine_1.attach_volume(self.userapiclient, self.migrate_volume ) verify_attach_volume( self, self.virtual_machine_1.id, self.migrate_volume.id) self.virtual_machine_1.detach_volume(self.userapiclient, volume=self.migrate_volume ) verify_detach_volume( self, self.virtual_machine_1.id, self.migrate_volume.id) list_volume = Volume.list(self.apiclient, id=self.migrate_volume.id ) self.assertEqual( validateList(list_volume)[0], PASS, "Check List volume response for volume %s" % self.migrate_volume.id) self.assertEqual( list_volume[0].id, str( self.migrate_volume.id), "volume does not exist %s" % self.migrate_volume.id) self.debug("volume id %s got created successfully" % list_volume[0].id) list_pool = StoragePool.list(self.apiclient, id=list_volume[0].storageid ) self.assertEqual( validateList(list_pool)[0], PASS, "Check List pool response for storage id %s" % list_volume[0].storageid) self.assertGreater( len(list_pool), 0, "Check the list list storagepoolresponse for vm id: %s" % list_volume[0].storageid) list_pools = StoragePool.list(self.apiclient, scope=list_pool[0].scope ) self.assertEqual( validateList(list_pools)[0], PASS, "Check List pool response for scope %s" % list_pool[0].scope) self.assertGreater( len(list_pools), 0, "Check the list vm response for scope :%s" % list_volume[0].scope) storagepoolid = None for i in range(len(list_pools)): if list_volume[0].storageid != list_pools[i].id: storagepoolid = list_pools[i].id break else: self.debug("No pool available for volume migration ") if storagepoolid is not None: try: volume_migrate = Volume.migrate(self.apiclient, storageid=storagepoolid, volumeid=self.migrate_volume.id ) except Exception as e: raise Exception("Volume migration failed with error %s" % e) self.virtual_machine_2.attach_volume(self.userapiclient, self.migrate_volume ) verify_attach_volume( self, self.virtual_machine_2.id, self.migrate_volume.id) pool_for_migration = StoragePool.listForMigration( self.apiclient, id=self.migrate_volume.id) self.assertEqual( validateList(pool_for_migration)[0], PASS, "Check list pool For Migration response for volume %s" % self.migrate_volume.id) self.assertGreater( len(pool_for_migration), 0, "Check the listForMigration response for volume :%s" % self.migrate_volume.id) try: volume_migrate = Volume.migrate( self.apiclient, storageid=pool_for_migration[0].id, volumeid=self.migrate_volume.id, livemigrate=True) except Exception as e: raise Exception("Volume migration failed with error %s" % e) else: try: self.migrate_volume.delete(self.userapiclient ) self.debug( "volume id:%s got deleted successfully " % self.migrate_volume.id) except Exception as e: raise Exception("Volume deletion failed with error %s" % e) # 16.Upload volume of size smaller than # storage.max.volume.upload.size(leaving the negative case) self.testdata["configurableData"]["upload_volume"]["format"] = "VHD" volume_upload = Volume.upload(self.userapiclient, self.testdata["configurableData"]["upload_volume"], zoneid=self.zone.id ) volume_upload.wait_for_upload(self.userapiclient ) self.debug( "volume id :%s got uploaded successfully is " % volume_upload.id) # 20.Detach data disk from vm 2 and delete the volume self.virtual_machine_2.detach_volume(self.userapiclient, volume=self.volume ) verify_detach_volume(self, self.virtual_machine_2.id, self.volume.id) try: self.volume.delete(self.userapiclient ) self.debug("volume id:%s got deleted successfully " % self.volume.id) except Exception as e: raise Exception("Volume deletion failed with error %s" % e) @attr( tags=[ "advanced", "advancedsg", "basic", ], required_hardware="True") def test_02_negative_path(self): """ negative test for volume life cycle # 1. Deploy a vm [vm1] with shared storage and data disk #v1. Create VM2 with local storage offering disk offerings # 2.TBD # 3. Detach the data disk from VM1 and Download the volume # 4.TBD # 5. Attach volume with deviceid = 0 # 6. Attach volume, specify a VM which is destroyed # 7.TBD # 8.TBD # 9.TBD # 10.TBD # 11.Upload the volume from T3 by providing the URL of the downloaded volume, but specify a wrong format (not supported by the hypervisor) # 12.Upload the same volume from T4 by providing a wrong URL # 13.Upload volume, provide wrong checksum # 14.Upload a volume when maximum limit for the account is reached # 15.TBD # 16.Upload volume with all correct parameters (covered in positive test path) # 17.TBD # 18.TBD # 19.Now attach the volume with all correct parameters (covered in positive test path) # 20.Destroy and expunge all VMs """ # 1. Deploy a vm [vm1] with shared storage and data disk self.virtual_machine_1 = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.template.id, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering_1.id, zoneid=self.zone.id, diskofferingid=self.disk_offering_1.id, mode=self.testdata["mode"]) verify_vm(self, self.virtual_machine_1.id) # List data volume for vm1 list_volume = Volume.list(self.userapiclient, virtualmachineid=self.virtual_machine_1.id, type='DATADISK' ) self.assertEqual( validateList(list_volume)[0], PASS, "Check List volume response for vm id %s" % self.virtual_machine_1.id) list_data_volume_for_vm1 = list_volume[0] self.assertEqual( len(list_volume), 1, "There is no data disk attached to vm id:%s" % self.virtual_machine_1.id) self.assertEqual( list_data_volume_for_vm1.virtualmachineid, str( self.virtual_machine_1.id), "Check if volume state (attached) is reflected") # Variance if self.zone.localstorageenabled: # V1.Create vm3 with local storage offering self.virtual_machine_local_2 = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.template.id, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering_2.id, zoneid=self.zone.id, mode=self.testdata["mode"]) verify_vm(self, self.virtual_machine_local_2.id) # 3. Detach the data disk from VM1 and Download the volume self.virtual_machine_1.detach_volume(self.userapiclient, volume=list_data_volume_for_vm1 ) verify_detach_volume( self, self.virtual_machine_1.id, list_data_volume_for_vm1.id) # download detached volume self.extract_volume = Volume.extract( self.userapiclient, volume_id=list_data_volume_for_vm1.id, zoneid=self.zone.id, mode='HTTP_DOWNLOAD') self.debug("extracted url is%s :" % self.extract_volume.url) try: formatted_url = urllib.parse.unquote_plus(self.extract_volume.url) self.debug( "Attempting to download volume at url %s" % formatted_url) response = urllib.request.urlopen(formatted_url) self.debug("response from volume url %s" % response.getcode()) fd, path = tempfile.mkstemp() self.debug( "Saving volume %s to path %s" % (list_data_volume_for_vm1.id, path)) os.close(fd) with open(path, 'wb') as fd: fd.write(response.read()) self.debug("Saved volume successfully") except Exception: self.fail( "Extract Volume Failed with invalid URL %s (vol id: %s)" % (self.extract_volume, list_data_volume_for_vm1.id)) # 6. Attach volume, specify a VM which is destroyed self.virtual_machine_2 = VirtualMachine.create( self.userapiclient, self.testdata["small"], templateid=self.template.id, accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering_1.id, zoneid=self.zone.id, mode=self.testdata["mode"]) verify_vm(self, self.virtual_machine_2.id) try: self.virtual_machine_2.delete(self.apiclient) except Exception as e: raise Exception("Vm deletion failed with error %s" % e) # Create a new volume self.volume = Volume.create(self.userapiclient, services=self.testdata["volume"], diskofferingid=self.disk_offering_1.id, zoneid=self.zone.id ) list_data_volume = Volume.list(self.userapiclient, id=self.volume.id ) self.assertEqual( validateList(list_data_volume)[0], PASS, "Check List volume response for volume %s" % self.volume.id) self.assertEqual( list_data_volume[0].id, self.volume.id, "check list volume response for volume id: %s" % self.volume.id) self.debug( "volume id %s got created successfully" % list_data_volume[0].id) # try Attach volume to vm2 try: self.virtual_machine_2.attach_volume(self.userapiclient, self.volume ) self.fail("Volume got attached to a destroyed vm ") except Exception: self.debug("Volume can't not be attached to a destroyed vm ") # 11.Upload the volume by providing the URL of the downloaded # volume, but specify a wrong format (not supported by the hypervisor) if "OVA" in self.extract_volume.url.upper(): self.testdata["configurableData"]["upload_volume"]["format"] = "VHD" else: self.testdata["configurableData"]["upload_volume"]["format"] = "OVA" try: self.upload_response = Volume.upload( self.userapiclient, zoneid=self.zone.id, url=self.extract_volume.url, services=self.testdata["configurableData"]["upload_volume"]) self.fail("Volume got uploaded with invalid format") except Exception as e: self.debug("upload volume failed due %s" % e) # 12. Upload the same volume from T4 by providing a wrong URL self.testdata["configurableData"]["upload_volume"]["format"] = "VHD" if "OVA" in self.extract_volume.url.upper(): self.testdata["configurableData"]["upload_volume"]["format"] = "OVA" if "QCOW2" in self.extract_volume.url.upper(): self.testdata["configurableData"]["upload_volume"]["format"] = "QCOW2" u1 = self.extract_volume.url.split('.') u1[-2] = "wrong" wrong_url = ".".join(u1) try: self.upload_response = Volume.upload( self.userapiclient, zoneid=self.zone.id, url=wrong_url, services=self.testdata["configurableData"]["upload_volume"]) self.upload_response.wait_for_upload(self.userapiclient ) self.fail("volume got uploaded with wrong url") except Exception as e: self.debug("upload volume failed due to %s" % e) # 13.Upload volume, provide wrong checksum try: self.upload_response = Volume.upload( self.userapiclient, zoneid=self.zone.id, url=self.extract_volume.url, services=self.testdata["configurableData"]["upload_volume"], checksome="123456") self.upload_response.wait_for_upload(self.userapiclient ) self.fail("volume got uploaded with wrong checksome") except Exception as e: self.debug("upload volume failed due to %s" % e) # 14.Upload a volume when maximum limit for the account is reached account_update = Resources.updateLimit(self.apiclient, resourcetype=2, account=self.account.name, domainid=self.account.domainid, max=1 ) list_resource = Resources.list(self.apiclient, account=self.account.name, domainid=self.account.domainid, resourcetype=2 ) self.assertEqual( validateList(list_resource)[0], PASS, "Check List resource response for volume %s" % self.account.name) self.assertEqual( str( list_resource[0].max), '1', "check list List resource response for account id: %s" % self.account.name) self.debug( "Max resources got updated successfully for account %s" % self.account.name) try: self.upload_response = Volume.upload( self.userapiclient, zoneid=self.zone.id, url=self.extract_volume.url, services=self.testdata["configurableData"]["upload_volume"]) self.upload_response.wait_for_upload(self.userapiclient ) self.fail("volume got uploaded after account reached max limit for\ volumes ") except Exception as e: self.debug("upload volume failed due to %s" % e)