# 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. """ P1 tests for Dedicating guest VLAN ranges Test Plan: https://cwiki.apache.org/confluence/display/CLOUDSTACK/Dedicated+Resources+-+Public+IP+Addresses+and+VLANs+per+Tenant+Test+Plan Issue Link: https://issues.apache.org/jira/browse/CLOUDSTACK-2251 Feature Specifications: https://cwiki.apache.org/confluence/display/CLOUDSTACK/FS-+Dedicate+Guest+VLANs+per+tenant """ #Import Local Modules from nose.plugins.attrib import attr from marvin.cloudstackTestCase import cloudstackTestCase, unittest from marvin.lib.utils import (validateList, cleanup_resources, random_gen, xsplit) from marvin.lib.base import (Account, Domain, PhysicalNetwork, NetworkOffering, Network, ServiceOffering, Project) from marvin.lib.common import (get_domain, get_zone, get_template, setNonContiguousVlanIds, isNetworkDeleted) from marvin.codes import PASS def LimitVlanRange(self, vlanrange, range=2): """Limits the length of vlan range""" vlan_endpoints = str(vlanrange).split("-") vlan_startid = int(vlan_endpoints[1]) vlan_endid = vlan_startid + (range-1) return str(vlan_startid) + "-" + str(vlan_endid) class TestDedicateGuestVLANRange(cloudstackTestCase): @classmethod def setUpClass(cls): cls.testClient = super(TestDedicateGuestVLANRange, cls).getClsTestClient() cls.apiclient = cls.testClient.getApiClient() cls.testdata = cls.testClient.getParsedTestDataConfig() # Get Zone, Domain cls.domain = get_domain(cls.apiclient) cls.zone = get_zone(cls.apiclient) cls.testdata["isolated_network"]["zoneid"] = cls.zone.id cls.testdata['mode'] = cls.zone.networktype template = get_template( cls.apiclient, cls.zone.id, cls.testdata["ostype"] ) cls._cleanup = [] try: cls.isolated_network_offering = NetworkOffering.create( cls.apiclient, cls.testdata["nw_off_isolated_persistent"]) cls._cleanup.append(cls.isolated_network_offering) cls.isolated_network_offering.update(cls.apiclient, state='Enabled') cls.testdata["nw_off_isolated_persistent"]["specifyVlan"] = True cls.isolated_network_offering_vlan = NetworkOffering.create( cls.apiclient, cls.testdata["nw_off_isolated_persistent"]) cls._cleanup.append(cls.isolated_network_offering_vlan) cls.isolated_network_offering_vlan.update(cls.apiclient, state='Enabled') cls.service_offering = ServiceOffering.create( cls.apiclient, cls.testdata["service_offering"]) cls._cleanup.append(cls.service_offering) cls.testdata["small"]["zoneid"] = cls.zone.id cls.testdata["small"]["template"] = template.id except Exception as e: cls.tearDownClass() raise unittest.SkipTest(e) return @classmethod def tearDownClass(cls): try: # Cleanup resources used cleanup_resources(cls.apiclient, cls._cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) return def setUp(self): self.apiclient = self.testClient.getApiClient() self.dbclient = self.testClient.getDbConnection() self.cleanup = [] self.physical_network, self.free_vlan = setNonContiguousVlanIds(self.apiclient, self.zone.id) return def tearDown(self): try: # Clean up cleanup_resources(self.apiclient, self.cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) finally: self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=self.physical_network.vlan) return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_01_dedicate_guest_vlan_range_root_domain(self): """Dedicate guest vlan range to account in root domain # Validate the following: # 1. Create two accounts under root domain # 2. Dedicate a new vlan range to account 1 # 3. Verify that the new vlan range is dedicated to account 1 by listing the dedicated range and checking the account name # 4. Try to create a guest network in account 2 usign the vlan in dedicated range # 5. The operation should fail # 6. Create a guest network in account 2 # 7. Verify that the vlan for guest network is acquired from the dedicated range # 8. Delete the guest network in account 2 # 9. Verify that the network is deleted # 10.Verify that the vlan is still dedicated to account 1 after deleting the network # 11.Release the vlan range back to the system # 12.Verify that ther list of dedicated vlans doesn't contain the vlan """ self.account1 = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account1) self.account2 = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account2) new_vlan = self.physical_network.vlan + "," + self.free_vlan["partial_range"][0] self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) # Dedicating guest vlan range dedicate_guest_vlan_range_response = PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account1.name, domainid=self.account1.domainid ) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated( self.apiclient, id=dedicate_guest_vlan_range_response.id ) dedicated_guest_vlan_response = list_dedicated_guest_vlan_range_response[0] self.assertEqual( dedicated_guest_vlan_response.account, self.account1.name, "Check account name is in listDedicatedGuestVlanRanges as the account the range is dedicated to" ) dedicatedvlans = str(self.free_vlan["partial_range"][0]).split("-") with self.assertRaises(Exception): isolated_network1 = Network.create( self.apiclient, self.testdata["isolated_network"], self.account2.name, self.account2.domainid, networkofferingid=self.isolated_network_offering_vlan.id, vlan=int(dedicatedvlans[0])) isolated_network1.delete(self.apiclient) isolated_network2 = Network.create( self.apiclient, self.testdata["isolated_network"], self.account1.name, self.account1.domainid, networkofferingid=self.isolated_network_offering.id) networks = Network.list(self.apiclient, id=isolated_network2.id) self.assertEqual(validateList(networks)[0], PASS, "networks list validation failed") self.assertTrue(int(dedicatedvlans[0]) <= int(networks[0].vlan) <= int(dedicatedvlans[1]), "Vlan of the network should be from the dedicated range") isolated_network2.delete(self.apiclient) self.assertTrue(isNetworkDeleted(self.apiclient, networkid=isolated_network2.id), "Network not deleted in timeout period") # List after deleting all networks, it should still be dedicated to the account list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated( self.apiclient, id=dedicate_guest_vlan_range_response.id ) dedicated_guest_vlan_response = list_dedicated_guest_vlan_range_response[0] self.assertEqual( dedicated_guest_vlan_response.account, self.account1.name, "Check account name is in listDedicatedGuestVlanRanges as the account the range is dedicated to" ) self.debug("Releasing guest vlan range"); dedicate_guest_vlan_range_response.release(self.apiclient) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated(self.apiclient) self.assertEqual( list_dedicated_guest_vlan_range_response, None, "Check vlan range is not available in listDedicatedGuestVlanRanges" ) return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_02_dedicate_guest_vlan_range_user_domain(self): """Dedicate guest vlan range to account in user domain # Validate the following: # 1. Create two accounts under user domain # 2. Dedicate a new vlan range to account 1 # 3. Verify that the new vlan range is dedicated to account 1 by listing the dedicated range and checking the account name # 4. Try to create a guest network in account 2 usign the vlan in dedicated range # 5. The operation should fail # 6. Create a guest network in account 2 # 7. Verify that the vlan for guest network is acquired from the dedicated range # 8. Delete the guest network in account 2 # 9. Verify that the network is deleted # 10.Verify that the vlan is still dedicated to account 1 after deleting the network # 11.Release the vlan range back to the system # 12.Verify that ther list of dedicated vlans doesn't contain the vlan """ self.user_domain1 = Domain.create( self.apiclient, services=self.testdata["domain"], parentdomainid=self.domain.id) self.cleanup.append(self.user_domain1) #Create Account self.account1 = Account.create( self.apiclient, self.testdata["account"], domainid=self.user_domain1.id ) self.cleanup.insert(-1, self.account1) #Create Account self.account2 = Account.create( self.apiclient, self.testdata["account"], domainid=self.user_domain1.id ) self.cleanup.insert(-1, self.account2) new_vlan = self.physical_network.vlan + "," + self.free_vlan["partial_range"][0] self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) # Dedicating guest vlan range dedicate_guest_vlan_range_response = PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account1.name, domainid=self.account1.domainid ) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated( self.apiclient, id=dedicate_guest_vlan_range_response.id ) dedicated_guest_vlan_response = list_dedicated_guest_vlan_range_response[0] self.assertEqual( dedicated_guest_vlan_response.account, self.account1.name, "Check account name is in listDedicatedGuestVlanRanges as the account the range is dedicated to" ) dedicatedvlans = str(self.free_vlan["partial_range"][0]).split("-") with self.assertRaises(Exception): isolated_network1 = Network.create( self.apiclient, self.testdata["isolated_network"], self.account2.name, self.account2.domainid, networkofferingid=self.isolated_network_offering_vlan.id, vlan=int(dedicatedvlans[0])) isolated_network1.delete(self.apiclient) isolated_network2 = Network.create( self.apiclient, self.testdata["isolated_network"], self.account1.name, self.account1.domainid, networkofferingid=self.isolated_network_offering.id) networks = Network.list(self.apiclient, id=isolated_network2.id, listall=True) self.assertEqual(validateList(networks)[0], PASS, "networks list validation failed") self.assertTrue(int(dedicatedvlans[0]) <= int(networks[0].vlan) <= int(dedicatedvlans[1]), "Vlan of the network should be from the dedicated range") isolated_network2.delete(self.apiclient) self.assertTrue(isNetworkDeleted(self.apiclient, networkid=isolated_network2.id), "Network not deleted in timeout period") self.debug("Releasing guest vlan range"); dedicate_guest_vlan_range_response.release(self.apiclient) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated(self.apiclient) self.assertEqual( list_dedicated_guest_vlan_range_response, None, "Check vlan range is not available in listDedicatedGuestVlanRanges" ) return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_03_multiple_guest_netwoks(self): """Dedicate multiple guest networks in account with dedicated vlan range # Validate the following: # 1. Create account under user domain # 2. Dedicate a new vlan range of range 2 to account # 3. Verify that the new vlan range is dedicated to account by listing the dedicated range and checking the account name # 4. Create a guest network in the account # 5. Verify that the vlan of the network is from dedicated range # 6. Repeat steps 4 and 5 for network 2 # 7. Now create 3rd guest network in the account # 8. Verify that the vlan of the network is not from the dedicated range, as all the vlans in dedicated range are now exhausted """ self.user_domain = Domain.create( self.apiclient, services=self.testdata["domain"], parentdomainid=self.domain.id) self.cleanup.append(self.user_domain) #Create Account self.account = Account.create( self.apiclient, self.testdata["account"], domainid=self.user_domain.id ) self.cleanup.insert(-1, self.account) self.free_vlan["partial_range"][0] = LimitVlanRange(self, self.free_vlan["partial_range"][0], range=2) vlan_startid = int(str(self.free_vlan["partial_range"][0]).split("-")[0]) vlan_endid = vlan_startid + 1 new_vlan = self.physical_network.vlan + "," + self.free_vlan["partial_range"][0] self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) # Dedicating guest vlan range dedicate_guest_vlan_range_response = PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account.name, domainid=self.account.domainid ) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated( self.apiclient, id=dedicate_guest_vlan_range_response.id ) dedicated_guest_vlan_response = list_dedicated_guest_vlan_range_response[0] self.assertEqual( dedicated_guest_vlan_response.account, self.account.name, "Check account name is in listDedicatedGuestVlanRanges as the account the range is dedicated to" ) isolated_network1 = Network.create( self.apiclient, self.testdata["isolated_network"], self.account.name, self.account.domainid, networkofferingid=self.isolated_network_offering.id) networks = Network.list(self.apiclient, id=isolated_network1.id, listall=True) self.assertEqual(validateList(networks)[0], PASS, "networks list validation failed") self.assertTrue(vlan_startid <= int(networks[0].vlan) <= vlan_endid, "Vlan of the network should be from the dedicated range") isolated_network2 = Network.create( self.apiclient, self.testdata["isolated_network"], self.account.name, self.account.domainid, networkofferingid=self.isolated_network_offering.id) networks = Network.list(self.apiclient, id=isolated_network2.id, listall=True) self.assertEqual(validateList(networks)[0], PASS, "networks list validation failed") self.assertTrue(vlan_startid <= int(networks[0].vlan) <= vlan_endid, "Vlan of the network should be from the dedicated range") isolated_network3 = Network.create( self.apiclient, self.testdata["isolated_network"], self.account.name, self.account.domainid, networkofferingid=self.isolated_network_offering.id) networks = Network.list(self.apiclient, id=isolated_network3.id, listall=True) self.assertEqual(validateList(networks)[0], PASS, "networks list validation failed") self.assertFalse(vlan_startid <= int(networks[0].vlan) <= vlan_endid, "Vlan of the network should not be from the dedicated range") return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_04_dedicate_guest_vlan_in_project(self): """Dedicate guest vlan range project owner account and test guest network vlan in project # Validate the following: # 1. Create account under user domain # 2. Create a project with this account # 3. Dedicate a new vlan range to the account # 4. Verify that the new vlan range is dedicated to account by listing the dedicated range and checking the account name # 5. Create a guest network in the project # 6. Verify that the vlan of the network is from dedicated range # 7. Repeat steps 4 and 5 for network 2 # 8. Now create 3rd guest network in the account # 9. Verify that the vlan of the network is not from the dedicated range, as all the vlans in dedicated range are now exhausted """ user_domain = Domain.create( self.apiclient, services=self.testdata["domain"], parentdomainid=self.domain.id) self.cleanup.append(user_domain) #Create Account self.account = Account.create( self.apiclient, self.testdata["account"], domainid=user_domain.id ) self.cleanup.insert(-1, self.account) # Create project as a domain admin project = Project.create(self.apiclient, self.testdata["project"], account=self.account.name, domainid=self.account.domainid) self.cleanup.insert(-2, project) self.free_vlan["partial_range"][0] = LimitVlanRange(self, self.free_vlan["partial_range"][0], range=2) vlan_startid = int(str(self.free_vlan["partial_range"][0]).split("-")[0]) vlan_endid = vlan_startid + 1 new_vlan = self.physical_network.vlan + "," + self.free_vlan["partial_range"][0] self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) # Dedicating guest vlan range dedicate_guest_vlan_range_response = PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account.name, domainid=self.account.domainid ) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated( self.apiclient, id=dedicate_guest_vlan_range_response.id ) dedicated_guest_vlan_response = list_dedicated_guest_vlan_range_response[0] self.assertEqual( dedicated_guest_vlan_response.account, self.account.name, "Check account name is in listDedicatedGuestVlanRanges as the account the range is dedicated to" ) isolated_network1 = Network.create( self.apiclient, self.testdata["isolated_network"], projectid=project.id, networkofferingid=self.isolated_network_offering.id) networks = Network.list(self.apiclient, id=isolated_network1.id, projectid=project.id, listall=True) self.assertEqual(validateList(networks)[0], PASS, "networks list validation failed") self.assertTrue(vlan_startid <= int(networks[0].vlan) <= vlan_endid, "Vlan of the network should be from the dedicated range") isolated_network2 = Network.create( self.apiclient, self.testdata["isolated_network"], projectid=project.id, networkofferingid=self.isolated_network_offering.id) networks = Network.list(self.apiclient, id=isolated_network2.id, projectid=project.id, listall=True) self.assertEqual(validateList(networks)[0], PASS, "networks list validation failed") self.assertTrue(vlan_startid <= int(networks[0].vlan) <= vlan_endid, "Vlan of the network should be from the dedicated range") isolated_network3 = Network.create( self.apiclient, self.testdata["isolated_network"], projectid=project.id, networkofferingid=self.isolated_network_offering.id) networks = Network.list(self.apiclient, id=isolated_network3.id, projectid=project.id, listall=True) self.assertEqual(validateList(networks)[0], PASS, "networks list validation failed") self.assertFalse(vlan_startid <= int(networks[0].vlan) <= vlan_endid, "Vlan of the network should be from the dedicated range") return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_05_dedicate_range_different_accounts(self): """Dedicate two different vlan ranges to two different accounts # Validate the following: # 1. Create two accounts in root domain # 2. Update the physical network with two different vlan ranges # 3. Dedicate first vlan range to the account 1 # 4. Dedicate 2nd vlan range to account 2 # 5. Both the operations should be successful """ self.account1 = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account1) self.account2 = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account2) new_vlan = self.physical_network.vlan + "," + self.free_vlan["partial_range"][0] + ","+\ self.free_vlan["partial_range"][1] self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) # Dedicating guest vlan range dedicate_guest_vlan_range_response = PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account1.name, domainid=self.account1.domainid ) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated( self.apiclient, id=dedicate_guest_vlan_range_response.id ) dedicated_guest_vlan_response = list_dedicated_guest_vlan_range_response[0] self.assertEqual( dedicated_guest_vlan_response.account, self.account1.name, "Check account name is in listDedicatedGuestVlanRanges as the account the range is dedicated to" ) # Dedicating guest vlan range dedicate_guest_vlan_range_response = PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][1], physicalnetworkid=self.physical_network.id, account=self.account2.name, domainid=self.account2.domainid ) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated( self.apiclient, id=dedicate_guest_vlan_range_response.id ) dedicated_guest_vlan_response = list_dedicated_guest_vlan_range_response[0] self.assertEqual( dedicated_guest_vlan_response.account, self.account2.name, "Check account name is in listDedicatedGuestVlanRanges as the account the range is dedicated to" ) return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_07_extend_vlan_range(self): """Dedicate vlan range to an account when some vlan in range are already acquired by same account # Validate the following: # 1. Create account under root domain # 2. Add a new vlan range to the physical network # 3. Create a guest network in account using the vlan id from the newly added range # 4. Try to dedicate the vlan range to account # 5. Operation should succeed """ self.account = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account) vlans = str(self.free_vlan["partial_range"][0]).split("-") startid = int(vlans[0]) endid = int(vlans[1]) vlan_range1 = str(startid) + "-" + str(endid) vlan_range2 = str(endid+1) + "-" + str(endid+2) full_range = str(startid) + "-" + str(endid+2) new_vlan = self.physical_network.vlan + "," + full_range self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) # Dedicating first range PhysicalNetwork.dedicate( self.apiclient, vlan_range1, physicalnetworkid=self.physical_network.id, account=self.account.name, domainid=self.account.domainid ) # Dedicating second range PhysicalNetwork.dedicate( self.apiclient, vlan_range2, physicalnetworkid=self.physical_network.id, account=self.account.name, domainid=self.account.domainid ) dedicated_ranges = PhysicalNetwork.listDedicated( self.apiclient, account=self.account.name, domainid=self.account.domainid, listall=True ) self.assertEqual(str(dedicated_ranges[0].guestvlanrange), full_range, "Dedicated vlan\ range not matching with expcted extended range") return class TestFailureScenarios(cloudstackTestCase): @classmethod def setUpClass(cls): cls.testClient = super(TestFailureScenarios, cls).getClsTestClient() cls.apiclient = cls.testClient.getApiClient() cls.testdata = cls.testClient.getParsedTestDataConfig() # Get Zone, Domain cls.domain = get_domain(cls.apiclient) cls.zone = get_zone(cls.apiclient) cls.testdata["isolated_network"]["zoneid"] = cls.zone.id cls.testdata['mode'] = cls.zone.networktype template = get_template( cls.apiclient, cls.zone.id, cls.testdata["ostype"] ) cls._cleanup = [] try: cls.isolated_network_offering = NetworkOffering.create( cls.apiclient, cls.testdata["nw_off_isolated_persistent"]) cls._cleanup.append(cls.isolated_network_offering) cls.isolated_network_offering.update(cls.apiclient, state='Enabled') cls.testdata["nw_off_isolated_persistent"]["specifyVlan"] = True cls.isolated_network_offering_vlan = NetworkOffering.create( cls.apiclient, cls.testdata["nw_off_isolated_persistent"]) cls._cleanup.append(cls.isolated_network_offering_vlan) cls.isolated_network_offering_vlan.update(cls.apiclient, state='Enabled') cls.service_offering = ServiceOffering.create( cls.apiclient, cls.testdata["service_offering"]) cls._cleanup.append(cls.service_offering) cls.testdata["small"]["zoneid"] = cls.zone.id cls.testdata["small"]["template"] = template.id except Exception as e: cls.tearDownClass() raise unittest.SkipTest(e) return @classmethod def tearDownClass(cls): try: # Cleanup resources used cleanup_resources(cls.apiclient, cls._cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) return def setUp(self): self.apiclient = self.testClient.getApiClient() self.dbclient = self.testClient.getDbConnection() self.cleanup = [] self.physical_network, self.free_vlan = setNonContiguousVlanIds(self.apiclient, self.zone.id) return def tearDown(self): try: # Clean up cleanup_resources(self.apiclient, self.cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) finally: self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=self.physical_network.vlan) return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_01_dedicate_wrong_vlan_range(self): """Dedicate invalid vlan range to account # Validate the following: # 1. Create an account in root domain # 2. Try to update physical network with invalid range (5000-5001) and dedicate it to account # 3. The operation should fail """ self.account = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account) vlan_range = "5000-5001" new_vlan = self.physical_network.vlan + "," + vlan_range with self.assertRaises(Exception): self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) # Dedicating guest vlan range PhysicalNetwork.dedicate( self.apiclient, vlan_range, physicalnetworkid=self.physical_network.id, account=self.account.name, domainid=self.account.domainid ) return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_02_dedicate_vlan_range_invalid_account(self): """Dedicate a guest vlan range to invalid account # Validate the following: # 1. Create an account in root domain # 2. Update physical network with new guest vlan range # 3. Try to dedicate it to invalid account # 4. The operation should fail """ self.account = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account) new_vlan = self.physical_network.vlan + "," + self.free_vlan["partial_range"][0] self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) with self.assertRaises(Exception): # Dedicating guest vlan range PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account.name+random_gen(), domainid=self.account.domainid ) return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_03_dedicate_already_dedicated_range(self): """Dedicate a guest vlan range which is already dedicated # Validate the following: # 1. Create two accounts in root domain # 2. Update physical network with new guest vlan range # 3. Dedicate the vlan range to account 1 # 4. Try to dedicate the same range to account 2, operation should fail """ self.account1 = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account1) self.account2 = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account2) new_vlan = self.physical_network.vlan + "," + self.free_vlan["partial_range"][0] self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) # Dedicating guest vlan range PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account1.name, domainid=self.account1.domainid ) with self.assertRaises(Exception): # Dedicating guest vlan range PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account2.name, domainid=self.account2.domainid ) return class TestDeleteVlanRange(cloudstackTestCase): @classmethod def setUpClass(cls): cls.testClient = super(TestDeleteVlanRange, cls).getClsTestClient() cls.apiclient = cls.testClient.getApiClient() cls.testdata = cls.testClient.getParsedTestDataConfig() # Get Zone, Domain cls.domain = get_domain(cls.apiclient) cls.zone = get_zone(cls.apiclient) cls.testdata["isolated_network"]["zoneid"] = cls.zone.id cls.testdata['mode'] = cls.zone.networktype template = get_template( cls.apiclient, cls.zone.id, cls.testdata["ostype"] ) cls._cleanup = [] try: cls.isolated_persistent_network_offering = NetworkOffering.create( cls.apiclient, cls.testdata["nw_off_isolated_persistent"]) cls._cleanup.append(cls.isolated_persistent_network_offering) cls.isolated_persistent_network_offering.update(cls.apiclient, state='Enabled') cls.isolated_network_offering = NetworkOffering.create( cls.apiclient, cls.testdata["isolated_network_offering"]) cls._cleanup.append(cls.isolated_network_offering) cls.isolated_network_offering.update(cls.apiclient, state='Enabled') cls.testdata["nw_off_isolated_persistent"]["specifyvlan"] = True cls.isolated_network_offering_vlan = NetworkOffering.create( cls.apiclient, cls.testdata["nw_off_isolated_persistent"]) cls._cleanup.append(cls.isolated_network_offering_vlan) cls.isolated_network_offering_vlan.update(cls.apiclient, state='Enabled') cls.service_offering = ServiceOffering.create( cls.apiclient, cls.testdata["service_offering"]) cls._cleanup.append(cls.service_offering) cls.testdata["small"]["zoneid"] = cls.zone.id cls.testdata["small"]["template"] = template.id except Exception as e: cls.tearDownClass() raise unittest.SkipTest(e) return @classmethod def tearDownClass(cls): try: # Cleanup resources used cleanup_resources(cls.apiclient, cls._cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) return def setUp(self): self.apiclient = self.testClient.getApiClient() self.dbclient = self.testClient.getDbConnection() self.cleanup = [] self.physical_network, self.free_vlan = setNonContiguousVlanIds(self.apiclient, self.zone.id) return def tearDown(self): try: # Clean up cleanup_resources(self.apiclient, self.cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) finally: self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=self.physical_network.vlan) return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_01_delete_dedicated_vlan_range(self): """Try to delete a dedicated vlan range which is not in use # Validate the following: # 1. Creat an account in the root domain # 2. update the physical network with a new vlan range # 3. Dedicated this vlan range to the account # 4. Verify that the vlan range is dedicated to the account by listing it and verifying the account name # 5. Try to delete the vlan range by updating physical network vlan, operation should fail # 6. Release the dedicted range and then delete the vlan range # 7. The operation should succeed """ self.account = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account) new_vlan = self.free_vlan["partial_range"][0] extended_vlan = self.physical_network.vlan + "," + new_vlan self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=extended_vlan) # Dedicating guest vlan range dedicate_guest_vlan_range_response = PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account.name, domainid=self.account.domainid ) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated( self.apiclient, id=dedicate_guest_vlan_range_response.id ) dedicated_guest_vlan_response = list_dedicated_guest_vlan_range_response[0] self.assertEqual( dedicated_guest_vlan_response.account, self.account.name, "Check account name is in listDedicatedGuestVlanRanges as the account the range is dedicated to" ) with self.assertRaises(Exception): # Deleting the dedicated vlan range self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=self.physical_network.vlan) dedicate_guest_vlan_range_response.release(self.apiclient) self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=self.physical_network.vlan) physical_networks = PhysicalNetwork.list(self.apiclient, id=self.physical_network.id, listall=True) self.assertEqual(validateList(physical_networks)[0], PASS, "Physical networks list validation failed") vlans = xsplit(physical_networks[0].vlan, [',']) self.assertFalse(new_vlan in vlans, "newly added vlan is not deleted from physical network") @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_02_delete_dedicated_vlan_range_vlan_in_use(self): """Try to delete a dedicated vlan rang which is in use # Validate the following: # 1. Creat an account in the root domain # 2. update the physical network with a new vlan range # 3. Dedicated this vlan range to the account # 4. Verify that the vlan range is dedicated to the account by listing it and verifying the account name # 5. Create a guest network in the account and verify that the vlan of network is from the dedicated range # 6. Try to delete the vlan range by updating physical network vlan # 7. The operation should fail """ self.account = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account) new_vlan = self.physical_network.vlan + "," + self.free_vlan["partial_range"][0] self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) # Dedicating guest vlan range dedicate_guest_vlan_range_response = PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account.name, domainid=self.account.domainid ) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated( self.apiclient, id=dedicate_guest_vlan_range_response.id ) dedicated_guest_vlan_response = list_dedicated_guest_vlan_range_response[0] self.assertEqual( dedicated_guest_vlan_response.account, self.account.name, "Check account name is in listDedicatedGuestVlanRanges as the account the range is dedicated to" ) Network.create( self.apiclient, self.testdata["isolated_network"], self.account.name, self.account.domainid, networkofferingid=self.isolated_persistent_network_offering.id) with self.assertRaises(Exception): # Deleting the dedicated vlan range self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=self.physical_network.vlan) return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_03_delete_account(self): """Try to delete a dedicated vlan rang which is in use # Validate the following: # 1. Creat an account in the root domain # 2. Update the physical network with a new vlan range # 3. Dedicated this vlan range to the account # 4. Verify that the vlan range is dedicated to the account by listing it and verifying the account name # 5. Create a guest network in the account which consumes vlan from dedicated range # 6. Delete the account # 7. Verify that the vlan of the physical network remains the same """ self.account = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account) new_vlan = self.physical_network.vlan + "," + self.free_vlan["partial_range"][0] self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) # Dedicating guest vlan range dedicate_guest_vlan_range_response = PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account.name, domainid=self.account.domainid ) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated( self.apiclient, id=dedicate_guest_vlan_range_response.id ) dedicated_guest_vlan_response = list_dedicated_guest_vlan_range_response[0] self.assertEqual( dedicated_guest_vlan_response.account, self.account.name, "Check account name is in listDedicatedGuestVlanRanges as the account the range is dedicated to" ) Network.create( self.apiclient, self.testdata["isolated_network"], self.account.name, self.account.domainid, networkofferingid=self.isolated_persistent_network_offering.id) self.account.delete(self.apiclient) self.cleanup.remove(self.account) physical_networks = PhysicalNetwork.list(self.apiclient, id=self.physical_network.id, listall=True) self.assertEqual(validateList(physical_networks)[0], PASS, "Physical networks list validation failed") self.assertEqual(physical_networks[0].vlan, new_vlan, "The vlan of physical network \ should be same after deleting account") return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_04_release_range_no_vlan_in_use(self): """Release a dedicated vlan range when no vlan id is in use # Validate the following: # 1. Create account in root domain # 2. Dedicate a new vlan range to account # 3. Verify that the new vlan range is dedicated to account by listing the dedicated range and checking the account name # 4. Release the range # 5. Verify the range is released back to system by listing dedicated ranges (list should be empty) """ self.account1 = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account1) new_vlan = self.physical_network.vlan + "," + self.free_vlan["partial_range"][0] self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) # Dedicating guest vlan range dedicate_guest_vlan_range_response = PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account1.name, domainid=self.account1.domainid ) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated( self.apiclient, id=dedicate_guest_vlan_range_response.id ) dedicated_guest_vlan_response = list_dedicated_guest_vlan_range_response[0] self.assertEqual( dedicated_guest_vlan_response.account, self.account1.name, "Check account name is in listDedicatedGuestVlanRanges as the account the range is dedicated to" ) self.debug("Releasing guest vlan range"); dedicate_guest_vlan_range_response.release(self.apiclient) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated(self.apiclient) self.assertEqual( list_dedicated_guest_vlan_range_response, None, "Check vlan range is not available in listDedicatedGuestVlanRanges" ) return @attr(tags = ["advanced", "selfservice"], required_hardware="false") def test_05_release_range_vlan_in_use(self): """Release a dedicated vlan range when no vlan id is in use # Validate the following: # 1. Create account in root domain # 2. Dedicate a new vlan range to account # 3. Verify that the new vlan range is dedicated to account by listing the dedicated range and checking the account name # 4. Release the range # 5. The operation should succeed, as all vlans which are not in use should be released """ self.account1 = Account.create( self.apiclient, self.testdata["account"], domainid=self.domain.id ) self.cleanup.append(self.account1) new_vlan = self.physical_network.vlan + "," + self.free_vlan["partial_range"][0] self.physical_network.update(self.apiclient, id=self.physical_network.id, vlan=new_vlan) # Dedicating guest vlan range dedicate_guest_vlan_range_response = PhysicalNetwork.dedicate( self.apiclient, self.free_vlan["partial_range"][0], physicalnetworkid=self.physical_network.id, account=self.account1.name, domainid=self.account1.domainid ) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated( self.apiclient, id=dedicate_guest_vlan_range_response.id ) dedicated_guest_vlan_response = list_dedicated_guest_vlan_range_response[0] self.assertEqual( dedicated_guest_vlan_response.account, self.account1.name, "Check account name is in listDedicatedGuestVlanRanges as the account the range is dedicated to" ) dedicatedvlans = str(self.free_vlan["partial_range"][0]).split("-") isolated_network = Network.create( self.apiclient, self.testdata["isolated_network"], self.account1.name, self.account1.domainid, networkofferingid=self.isolated_network_offering.id) networks = Network.list(self.apiclient, id=isolated_network.id) self.assertEqual(validateList(networks)[0], PASS, "networks list validation failed") self.assertTrue(int(dedicatedvlans[0]) <= int(networks[0].vlan) <= int(dedicatedvlans[1]), "Vlan of the network should be from the dedicated range") self.debug("Releasing guest vlan range"); dedicate_guest_vlan_range_response.release(self.apiclient) list_dedicated_guest_vlan_range_response = PhysicalNetwork.listDedicated(self.apiclient) self.assertEqual( list_dedicated_guest_vlan_range_response, None, "Check vlan range is not available in listDedicatedGuestVlanRanges" ) return