# 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. from nose.plugins.attrib import attr from marvin.lib.base import * from marvin.lib.utils import * from marvin.lib.common import * #Import Local Modules from marvin.cloudstackTestCase import cloudstackTestCase from marvin.cloudstackAPI import * class Services: """Test Services for customer defects """ def __init__(self): self.services = { "account": { "email": "test@test.com", "firstname": "Test", "lastname": "User", "username": "test", # Random characters are appended for unique # username "password": "password", }, "service_offering": { "name": "Tiny Instance", "displaytext": "Tiny Instance", "cpunumber": 1, "cpuspeed": 100, "memory": 128, }, "disk_offering": { "displaytext": "Small", "name": "Small", "disksize": 1 }, "virtual_machine": { "displayname": "Test VM", "username": "root", "password": "password", "ssh_port": 22, "hypervisor": 'XenServer', "privateport": 22, "publicport": 22, "protocol": 'TCP', }, "static_nat": { "startport": 22, "endport": 22, "protocol": "TCP" }, "network_offering": { "name": 'Network offering-RVR services', "displaytext": 'Network off-RVR services', "guestiptype": 'Isolated', "supportedservices": 'Vpn,Dhcp,Dns,SourceNat,PortForwarding,Firewall,Lb,UserData,StaticNat', "traffictype": 'GUEST', "availability": 'Optional', "serviceProviderList": { "Vpn": 'VirtualRouter', "Dhcp": 'VirtualRouter', "Dns": 'VirtualRouter', "SourceNat": 'VirtualRouter', "PortForwarding": 'VirtualRouter', "Firewall": 'VirtualRouter', "Lb": 'VirtualRouter', "UserData": 'VirtualRouter', "StaticNat": 'VirtualRouter', }, "serviceCapabilityList": { "SourceNat": { "SupportedSourceNatTypes": "peraccount", "RedundantRouter": "true", }, "lb": { "SupportedLbIsolation": "dedicated" }, }, }, "host": { "username": "root", "password": "password", "publicport": 22, }, "network": { "name": "Test Network", "displaytext": "Test Network", }, "lbrule": { "name": "SSH", "alg": "roundrobin", # Algorithm used for load balancing "privateport": 22, "publicport": 22, "openfirewall": True, }, "natrule": { "privateport": 22, "publicport": 22, "protocol": "TCP" }, "natrule_221": { "privateport": 22, "publicport": 221, "protocol": "TCP" }, "fw_rule": { "startport": 1, "endport": 6000, "cidr": '55.55.0.0/11', # Any network (For creating FW rule) "protocol": 'TCP', }, "ostype": 'CentOS 5.3 (64-bit)', "sleep": 60, } class TestCreateRvRNetworkOffering(cloudstackTestCase): @classmethod def setUpClass(cls): cls.testClient = super(TestCreateRvRNetworkOffering, cls).getClsTestClient() cls.api_client = cls.testClient.getApiClient() cls.services = Services().services # Get Zone, Domain and templates cls.domain = get_domain(cls.api_client) cls.zone = get_zone(cls.api_client, cls.testClient.getZoneForTests()) cls._cleanup = [] return @classmethod def tearDownClass(cls): try: #Cleanup resources used cleanup_resources(cls.api_client, 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 = [] return def tearDown(self): try: cleanup_resources(self.apiclient, self.cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) return @attr(tags=["advanced", "advancedns", "ssh"]) def test_createRvRNetworkOffering(self): """Test create RvR supported network offering """ # Steps to validate # 1. create a network offering # - all services by VirtualRouter # - enable RedundantRouter servicecapability # 2. enable the network offering # Validate the following # 1. Redundant Router offering should be created successfully and # listed in listNetworkOfferings response # assert if RvR capability is enabled self.debug("Creating network offering with redundant VR capability") try: network_offering = NetworkOffering.create( self.apiclient, self.services["network_offering"], conservemode=True ) except Exception as e: self.fail("Create network offering failed! - %s" % e) self.debug("Enabling network offering - %s" % network_offering.name) # Enable Network offering network_offering.update(self.apiclient, state='Enabled') self.cleanup.append(network_offering) self.debug("Checking if the network offering created successfully?") network_offs = NetworkOffering.list( self.apiclient, id=network_offering.id, listall=True ) self.assertEqual( isinstance(network_offs, list), True, "List network offering should not return empty response" ) self.assertEqual( len(network_offs), 1, "List network off should have newly created network off" ) for service in network_offs[0].service: if service.name == 'SourceNat': self.debug("Verifying SourceNat capabilites") for capability in service.capability: if capability.name == 'RedundantRouter': self.assertTrue(capability.value=='true') self.debug("RedundantRouter is enabled") return class TestCreateRvRNetwork(cloudstackTestCase): @classmethod def setUpClass(cls): cls.testClient = super(TestCreateRvRNetwork, cls).getClsTestClient() cls.api_client = cls.testClient.getApiClient() cls.services = Services().services # Get Zone, Domain and templates cls.domain = get_domain(cls.api_client) cls.zone = get_zone(cls.api_client, cls.testClient.getZoneForTests()) cls.template = get_template( cls.api_client, cls.zone.id, cls.services["ostype"] ) cls.services["virtual_machine"]["zoneid"] = cls.zone.id cls.services["virtual_machine"]["template"] = cls.template.id cls._cleanup = [] cls.service_offering = ServiceOffering.create( cls.api_client, cls.services["service_offering"] ) cls._cleanup.append(cls.service_offering) cls.network_offering = NetworkOffering.create( cls.api_client, cls.services["network_offering"], conservemode=True ) cls._cleanup.append(cls.network_offering) # Enable Network offering cls.network_offering.update(cls.api_client, state='Enabled') return @classmethod def tearDownClass(cls): try: #Cleanup resources used cleanup_resources(cls.api_client, 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.account = Account.create( self.apiclient, self.services["account"], admin=True, domainid=self.domain.id ) self.cleanup = [] self.cleanup.insert(0, self.account) return def tearDown(self): try: cleanup_resources(self.apiclient, self.cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) return @attr(tags=["advanced", "advancedns", "ssh"]) def test_createRvRNetwork(self): """Test create network with redundant routers """ # Validate the following: # 1. listNetworkOfferings shows created offering # 2. listNetworks should show created network in Allocated state # 3. returns no Running routers in the network # 4. listVirtualmachines shows VM in Running state # 5. returns 2 routers # - same public IP # - same MAC address of public NIC # - different guestip address # - redundant state (MASTER or BACKUP) # - same gateway for the public traffic # 6. all routers, networks and user VMs are cleaned up # Creating network using the network offering created self.debug("Creating network with network offering: %s" % self.network_offering.id) network = Network.create( self.apiclient, self.services["network"], accountid=self.account.name, domainid=self.account.domainid, networkofferingid=self.network_offering.id, zoneid=self.zone.id ) self.debug("Created network with ID: %s" % network.id) networks = Network.list( self.apiclient, id=network.id, listall=True ) self.assertEqual( isinstance(networks, list), True, "List networks should return a valid response for created network" ) nw_response = networks[0] self.debug("Network state: %s" % nw_response.state) self.assertEqual( nw_response.state, "Allocated", "The network should be in allocated state after creation" ) self.debug("Listing routers for network: %s" % network.name) routers = Router.list( self.apiclient, networkid=network.id, listall=True ) self.assertEqual( routers, None, "Routers should not be spawned when network is in allocated state" ) self.debug("Deploying VM in account: %s" % self.account.name) # Spawn an instance in that network virtual_machine = VirtualMachine.create( self.apiclient, self.services["virtual_machine"], accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[str(network.id)] ) self.debug("Deployed VM in network: %s" % network.id) # wait for VR to update state time.sleep(self.services["sleep"]) self.debug("Listing routers for network: %s" % network.name) routers = Router.list( self.apiclient, networkid=network.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( len(routers), 2, "Length of the list router should be 2 (Backup & master)" ) if routers[0].redundantstate == 'MASTER': master_router = routers[0] backup_router = routers[1] else: master_router = routers[1] backup_router = routers[0] self.debug("Redundant states: %s, %s" % ( master_router.redundantstate, backup_router.redundantstate )) self.assertEqual( master_router.publicip, backup_router.publicip, "Public Ip should be same for both(MASTER & BACKUP)" ) self.assertEqual( master_router.redundantstate, "MASTER", "Redundant state of router should be MASTER" ) self.assertEqual( backup_router.redundantstate, "BACKUP", "Redundant state of router should be BACKUP" ) self.assertNotEqual( master_router.guestipaddress, backup_router.guestipaddress, "Both (MASTER & BACKUP) routers should not have same guest IP" ) self.assertNotEqual( master_router.guestmacaddress, backup_router.guestmacaddress, "Both (MASTER & BACKUP) routers should not have same guestMAC" ) return class TestCreateRvRNetworkNonDefaultGuestCidr(cloudstackTestCase): @classmethod def setUpClass(cls): cls.testClient = super(TestCreateRvRNetworkNonDefaultGuestCidr, cls).getClsTestClient() cls.api_client = cls.testClient.getApiClient() cls.services = Services().services # Get Zone, Domain and templates cls.domain = get_domain(cls.api_client) cls.zone = get_zone(cls.api_client, cls.testClient.getZoneForTests()) cls.template = get_template( cls.api_client, cls.zone.id, cls.services["ostype"] ) cls.services["virtual_machine"]["zoneid"] = cls.zone.id cls.services["virtual_machine"]["template"] = cls.template.id cls._cleanup = [] cls.service_offering = ServiceOffering.create( cls.api_client, cls.services["service_offering"] ) cls._cleanup.append(cls.service_offering) cls.network_offering = NetworkOffering.create( cls.api_client, cls.services["network_offering"], conservemode=True ) cls._cleanup.append(cls.network_offering) # Enable Network offering cls.network_offering.update(cls.api_client, state='Enabled') return @classmethod def tearDownClass(cls): try: #Cleanup resources used cleanup_resources(cls.api_client, 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.account = Account.create( self.apiclient, self.services["account"], admin=True, domainid=self.domain.id ) self.cleanup = [] self.cleanup.insert(0, self.account) return def tearDown(self): try: cleanup_resources(self.apiclient, self.cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) return @attr(tags=["advanced", "advancedns"]) def test_createRvRNetwork(self): """Test create network with non-default guest cidr with redundant routers """ # Validate the following: # 1. listNetworkOfferings shows created offering # 2. listNetworks should show created network in Allocated state # - gw = 192.168.2.1 and cidr = 192.168.2.0/23 # 3. returns no Running routers in the network # 4. listVirtualmachines shows VM in Running state # 5. returns 2 routers # - same public IP # - same MAC address of public NIC # - different guestip address # - redundant state (MASTER or BACKUP) # - same gateway for the public traffic # 6. all routers, networks and user VMs are cleaned up # Creating network using the network offering created self.debug("Creating network with network offering: %s" % self.network_offering.id) network = Network.create( self.apiclient, self.services["network"], accountid=self.account.name, domainid=self.account.domainid, networkofferingid=self.network_offering.id, zoneid=self.zone.id, netmask='255.255.254.0', gateway='192.168.2.1' ) self.debug("Created network with ID: %s" % network.id) networks = Network.list( self.apiclient, id=network.id, listall=True ) self.assertEqual( isinstance(networks, list), True, "List networks should return a valid response for created network" ) nw_response = networks[0] self.debug("Network state: %s" % nw_response.state) self.assertEqual( nw_response.state, "Allocated", "The network should be in allocated state after creation" ) self.assertEqual( nw_response.gateway, '192.168.2.1', "The gateway should be 192.168.2.1" ) self.assertEqual( nw_response.cidr, '192.168.2.0/23', "Guest cidr should be 192.168.2.0/23 but is %s" % nw_response.cidr ) self.debug("Listing routers for network: %s" % network.name) routers = Router.list( self.apiclient, networkid=network.id, listall=True ) self.assertEqual( routers, None, "Routers should not be spawned when network is in allocated state" ) self.debug("Deploying VM in account: %s" % self.account.name) # Spawn an instance in that network virtual_machine = VirtualMachine.create( self.apiclient, self.services["virtual_machine"], accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[str(network.id)] ) self.debug("Deployed VM in network: %s" % network.id) # wait for VR to update state time.sleep(self.services["sleep"]) self.debug("Listing routers for network: %s" % network.name) routers = Router.list( self.apiclient, networkid=network.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( len(routers), 2, "Length of the list router should be 2 (Backup & master)" ) if routers[0].redundantstate == 'MASTER': master_router = routers[0] backup_router = routers[1] else: master_router = routers[1] backup_router = routers[0] self.assertEqual( master_router.publicip, backup_router.publicip, "Public Ip should be same for both(MASTER & BACKUP)" ) self.assertEqual( master_router.redundantstate, "MASTER", "Redundant state of router should be MASTER" ) self.assertEqual( backup_router.redundantstate, "BACKUP", "Redundant state of router should be BACKUP" ) self.assertNotEqual( master_router.guestipaddress, backup_router.guestipaddress, "Both (MASTER & BACKUP) routers should not have same guest IP" ) self.assertNotEqual( master_router.guestmacaddress, backup_router.guestmacaddress, "Both (MASTER & BACKUP) routers should not have same guestMAC" ) return class TestRVRInternals(cloudstackTestCase): @classmethod def setUpClass(cls): cls.testClient = super(TestRVRInternals, cls).getClsTestClient() cls.api_client = cls.testClient.getApiClient() cls.services = Services().services # Get Zone, Domain and templates cls.domain = get_domain(cls.api_client) cls.zone = get_zone(cls.api_client, cls.testClient.getZoneForTests()) cls.template = get_template( cls.api_client, cls.zone.id, cls.services["ostype"] ) cls.services["virtual_machine"]["zoneid"] = cls.zone.id cls.services["virtual_machine"]["template"] = cls.template.id cls._cleanup = [] cls.service_offering = ServiceOffering.create( cls.api_client, cls.services["service_offering"] ) cls._cleanup.append(cls.service_offering) cls.network_offering = NetworkOffering.create( cls.api_client, cls.services["network_offering"], conservemode=True ) cls._cleanup.append(cls.network_offering) # Enable Network offering cls.network_offering.update(cls.api_client, state='Enabled') return @classmethod def tearDownClass(cls): try: #Cleanup resources used cleanup_resources(cls.api_client, cls._cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) return def setUp(self): self.apiclient = self.testClient.getApiClient() self.hypervisor = self.testClient.getHypervisorInfo() self.dbclient = self.testClient.getDbConnection() self.account = Account.create( self.apiclient, self.services["account"], admin=True, domainid=self.domain.id ) self.cleanup = [] self.cleanup.insert(0, self.account) return def tearDown(self): try: cleanup_resources(self.apiclient, self.cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) return @attr(tags=["advanced", "advancedns", "ssh"]) def test_redundantVR_internals(self): """Test redundant router internals """ # Steps to validate # 1. createNetwork using network offering for redundant virtual router # 2. listRouters in above network # 3. deployVM in above user account in the created network # 4. login to both Redundant Routers # 5. login to user VM # 6. delete user account # Validate the following: # 1. listNetworks lists network in Allocated state # 2. listRouters lists no routers created yet # 3. listRouters returns Master and Backup routers # 4. ssh in to both routers and verify: # - MASTER router has eth2 with public Ip address # - BACKUP router has only guest eth0 and link local eth1 # - Broadcast on MASTER eth2 is non-zero (0.0.0.0) # - execute checkrouter.sh in router home and check if it is status # "MASTER|BACKUP" as returned by the listRouters API # 5. DNS of the user VM is set to RedundantRouter Gateway # (/etc/resolv.conf) # Check that the default gateway for the guest is the rvr gateway # and not the guestIp of either of the RvRs # Creating network using the network offering created self.debug("Creating network with network offering: %s" % self.network_offering.id) network = Network.create( self.apiclient, self.services["network"], accountid=self.account.name, domainid=self.account.domainid, networkofferingid=self.network_offering.id, zoneid=self.zone.id ) self.debug("Created network with ID: %s" % network.id) networks = Network.list( self.apiclient, id=network.id, listall=True ) self.assertEqual( isinstance(networks, list), True, "List networks should return a valid response for created network" ) nw_response = networks[0] self.debug("Network state: %s" % nw_response.state) self.assertEqual( nw_response.state, "Allocated", "The network should be in allocated state after creation" ) self.debug("Listing routers for network: %s" % network.name) routers = Router.list( self.apiclient, networkid=network.id, listall=True ) self.assertEqual( routers, None, "Routers should not be spawned when network is in allocated state" ) self.debug("Deploying VM in account: %s" % self.account.name) # Spawn an instance in that network virtual_machine = VirtualMachine.create( self.apiclient, self.services["virtual_machine"], accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[str(network.id)] ) self.debug("Deployed VM in network: %s" % network.id) # wait for VR to update state time.sleep(self.services["sleep"]) self.debug("Listing routers for network: %s" % network.name) routers = Router.list( self.apiclient, networkid=network.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( len(routers), 2, "Length of the list router should be 2 (Backup & master)" ) if routers[0].redundantstate == 'MASTER': master_router = routers[0] backup_router = routers[1] else: master_router = routers[1] backup_router = routers[0] self.debug("Fetching the host details for double hop into router") hosts = Host.list( self.apiclient, id=master_router.hostid, listall=True ) self.assertEqual( isinstance(hosts, list), True, "List hosts should return a valid list" ) master_host = hosts[0] self.debug("Host for master router: %s" % master_host.name) self.debug("Host for master router: %s" % master_host.ipaddress) hosts = Host.list( self.apiclient, id=backup_router.hostid, listall=True ) self.assertEqual( isinstance(hosts, list), True, "List hosts should return a valid list" ) backup_host = hosts[0] self.debug("Host for backup router: %s" % backup_host.name) self.debug("Host for backup router: %s" % backup_host.ipaddress) self.debug(master_router.linklocalip) # Check eth2 port for master router if self.hypervisor.lower() == 'vmware': result = get_process_status( self.apiclient.connection.mgtSvr, 22, self.apiclient.connection.user, self.apiclient.connection.passwd, master_router.linklocalip, 'ip addr show eth2', hypervisor=self.hypervisor ) else: result = get_process_status( master_host.ipaddress, self.services['host']["publicport"], self.services['host']["username"], self.services['host']["password"], master_router.linklocalip, 'ip addr show eth2' ) res = str(result) self.debug("Command 'ip addr show eth2': %s" % result) self.debug("Router's public Ip: %s" % master_router.publicip) self.assertEqual( res.count("state UP"), 1, "MASTER router's public interface should be UP" ) self.assertEqual( result.count('brd 0.0.0.0'), 0, "Broadcast address of eth2 should not be 0.0.0.0" ) # Check eth2 port for backup router if self.hypervisor.lower() == 'vmware': result = get_process_status( self.apiclient.connection.mgtSvr, 22, self.apiclient.connection.user, self.apiclient.connction.passwd, backup_router.linklocalip, 'ip addr show eth2', hypervisor=self.hypervisor ) else: result = get_process_status( backup_host.ipaddress, self.services['host']["publicport"], self.services['host']["username"], self.services['host']["password"], backup_router.linklocalip, 'ip addr show eth2', ) res = str(result) self.debug("Command 'ip addr show eth2': %s" % result) self.assertEqual( res.count("state DOWN"), 1, "BACKUP router's public interface should be DOWN" ) self.assertEqual( result.count('brd 0.0.0.0'), 0, "Broadcast address of eth2 should not be 0.0.0.0" ) vms = VirtualMachine.list( self.apiclient, id=virtual_machine.id, listall=True ) self.assertEqual( isinstance(vms, list), True, "List VMs should not return empty response" ) vm = vms[0] self.assertNotEqual( vm.nic[0].gateway, master_router.publicip, "The gateway of user VM should be same as master router" ) self.assertNotEqual( vm.nic[0].gateway, backup_router.publicip, "The gateway of user VM should be same as backup router" ) return class TestRvRRedundancy(cloudstackTestCase): @classmethod def setUpClass(cls): cls.testClient = super(TestRvRRedundancy, cls).getClsTestClient() cls.api_client = cls.testClient.getApiClient() cls.services = Services().services # Get Zone, Domain and templates cls.domain = get_domain(cls.api_client) cls.zone = get_zone(cls.api_client, cls.testClient.getZoneForTests()) cls.template = get_template( cls.api_client, cls.zone.id, cls.services["ostype"] ) cls.services["virtual_machine"]["zoneid"] = cls.zone.id cls.services["virtual_machine"]["template"] = cls.template.id cls._cleanup = [] cls.service_offering = ServiceOffering.create( cls.api_client, cls.services["service_offering"] ) cls._cleanup.append(cls.service_offering) cls.network_offering = NetworkOffering.create( cls.api_client, cls.services["network_offering"], conservemode=True ) cls._cleanup.append(cls.network_offering) # Enable Network offering cls.network_offering.update(cls.api_client, state='Enabled') return @classmethod def tearDownClass(cls): try: #Cleanup resources used cleanup_resources(cls.api_client, 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.account = Account.create( self.apiclient, self.services["account"], admin=True, domainid=self.domain.id ) self.cleanup.insert(0, self.account) # Creating network using the network offering created self.debug("Creating network with network offering: %s" % self.network_offering.id) self.network = Network.create( self.apiclient, self.services["network"], accountid=self.account.name, domainid=self.account.domainid, networkofferingid=self.network_offering.id, zoneid=self.zone.id ) self.debug("Created network with ID: %s" % self.network.id) self.debug("Deploying VM in account: %s" % self.account.name) # Spawn an instance in that network self.virtual_machine = VirtualMachine.create( self.apiclient, self.services["virtual_machine"], accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[str(self.network.id)] ) self.debug("Deployed VM in network: %s" % self.network.id) # wait for VR to update state time.sleep(self.services["sleep"]) return def tearDown(self): try: cleanup_resources(self.apiclient, self.cleanup) except Exception as e: raise Exception("Warning: Exception during cleanup : %s" % e) return @attr(tags=["advanced", "advancedns", "ssh"]) def test_01_stopMasterRvR(self): """Test stop master RVR """ # Steps to validate # 1. createNetwork using network offering for redundant virtual router # listNetworks returns the allocated network # 2. listRouters in above network. Lists no routers in the created # network # 3. deployVM in above user account in the created network. VM is # successfully Running # 4. listRouters that has redundantstate=MASTER. only one router is # returned with redundantstate = MASTER for this network # 5. stopRouter that is Master. Router goes to stopped state # successfully # 6. listRouters in the account and in the network. Lists old MASTER # router in redundantstate=UNKNOWN, and the old BACKUP router as # new MASTER # 7. start the stopped router. Stopped rvr starts up successfully and # is in Running state # 8. listRouters in the account and in the network. Router shows up as # BACKUP and NOT MASTER, should have only one BACKUP and one MASTER # at the end, public IP of the SourceNAT should remain same after # reboot # 9. delete the account self.debug("Listing routers for network: %s" % self.network.name) routers = Router.list( self.apiclient, networkid=self.network.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( len(routers), 2, "Length of the list router should be 2 (Backup & master)" ) if routers[0].redundantstate == 'MASTER': master_router = routers[0] backup_router = routers[1] else: master_router = routers[1] backup_router = routers[0] self.debug("Stopping the MASTER router") try: Router.stop(self.apiclient, id=master_router.id) except Exception as e: self.fail("Failed to stop master router: %s" % e) # wait for VR to update state time.sleep(self.services["sleep"]) self.debug("Listing routers for network: %s" % self.network.name) routers = Router.list( self.apiclient, id=master_router.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertIn( routers[0].redundantstate, ['UNKNOWN', 'FAULT'], "Redundant state of the master router should be UNKNOWN/FAULT but is %s" % routers[0].redundantstate ) self.debug("Checking state of the backup router in %s" % self.network.name) routers = Router.list( self.apiclient, id=backup_router.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return backup router" ) self.assertEqual( routers[0].redundantstate, 'MASTER', "Redundant state of the router should be MASTER but is %s" % routers[0].redundantstate ) self.debug("Starting the old MASTER router") try: Router.start(self.apiclient, id=master_router.id) self.debug("old MASTER router started") except Exception as e: self.fail("Failed to start master router: %s" % e) # wait for VR to update state time.sleep(self.services["sleep"]) self.debug("Checking state of the master router in %s" % self.network.name) routers = Router.list( self.apiclient, id=master_router.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return backup router" ) self.assertEqual( routers[0].redundantstate, 'BACKUP', "Redundant state of the router should be BACKUP but is %s" % routers[0].redundantstate ) self.assertEqual( master_router.publicip, routers[0].publicip, "Public IP should be same after reboot" ) return @attr(tags=["advanced", "advancedns", "ssh"]) def test_02_stopBackupRvR(self): """Test stop backup RVR """ # Steps to validate # 1. createNetwork using network offering for redundant virtual router # listNetworks returns the allocated network # 2. listRouters in above network. Lists no routers in the created # network # 3. deployVM in above user account in the created network. VM is # successfully Running # 4. listRouters that has redundantstate=MASTER. only one router is # returned with redundantstate = MASTER for this network # 5. stopRouter that is BACKUP. Router goes to stopped state # successfully # 6. listRouters in the account and in the network. Lists old MASTER # router in redundantstate=UNKNOWN # 7. start the stopped router. Stopped rvr starts up successfully and # is in Running state # 8. listRouters in the account and in the network. Router shows up as # BACKUP and NOT MASTER, should have only one BACKUP and one MASTER # at the end, public IP of the SourceNAT should remain same after # reboot # 9. delete the account self.debug("Listing routers for network: %s" % self.network.name) routers = Router.list( self.apiclient, networkid=self.network.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( len(routers), 2, "Length of the list router should be 2 (Backup & master)" ) if routers[0].redundantstate == 'MASTER': master_router = routers[0] backup_router = routers[1] else: master_router = routers[1] backup_router = routers[0] self.debug("Stopping the BACKUP router") try: Router.stop(self.apiclient, id=backup_router.id) except Exception as e: self.fail("Failed to stop backup router: %s" % e) # wait for VR update state time.sleep(self.services["sleep"]) self.debug("Checking state of the backup router in %s" % self.network.name) routers = Router.list( self.apiclient, id=backup_router.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertIn( routers[0].redundantstate, ['UNKNOWN', 'FAULT'], "Redundant state of the backup router should be UNKNOWN/FAULT but is %s" % routers[0].redundantstate ) self.debug("Checking state of the master router in %s" % self.network.name) routers = Router.list( self.apiclient, id=master_router.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( routers[0].redundantstate, 'MASTER', "Redundant state of the router should be MASTER but is %s" % routers[0].redundantstate ) self.debug("Starting the old BACKUP router") try: Router.start(self.apiclient, id=backup_router.id) self.debug("old BACKUP router started") except Exception as e: self.fail("Failed to stop master router: %s" % e) # wait for VR to start and update state time.sleep(self.services["sleep"]) self.debug("Checking state of the backup router in %s" % self.network.name) routers = Router.list( self.apiclient, id=backup_router.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return backup router" ) self.assertEqual( routers[0].redundantstate, 'BACKUP', "Redundant state of the router should be BACKUP but is %s" % routers[0].redundantstate ) self.assertEqual( backup_router.publicip, routers[0].publicip, "Public IP should be same after reboot" ) return @attr(tags=["advanced", "advancedns", "ssh"]) def test_03_rebootMasterRvR(self): """Test reboot master RVR """ # Steps to validate # 1. createNetwork using network offering for redundant virtual router # listNetworks returns the allocated network # 2. listRouters in above network. Lists no routers in the created # network # 3. deployVM in above user account in the created network. VM is # successfully Running # 4. listRouters that has redundantstate=MASTER. only one router is # returned with redundantstate = MASTER for this network # 5. reboot router that is MASTER. Router reboots state # successfully # 6. lists old MASTER router in redundantstate=BACKUP and the old # BACKUP router as new MASTER + public IP of the SourceNAT should # remain same after the reboot self.debug("Listing routers for network: %s" % self.network.name) routers = Router.list( self.apiclient, networkid=self.network.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( len(routers), 2, "Length of the list router should be 2 (Backup & master)" ) if routers[0].redundantstate == 'MASTER': master_router = routers[0] backup_router = routers[1] else: master_router = routers[1] backup_router = routers[0] self.debug("Rebooting the master router") try: Router.reboot(self.apiclient, id=master_router.id) except Exception as e: self.fail("Failed to reboot MASTER router: %s" % e) # wait for VR to update state time.sleep(self.services["sleep"]) self.debug("Checking state of the master router in %s" % self.network.name) routers = Router.list( self.apiclient, id=master_router.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( routers[0].redundantstate, 'BACKUP', "Redundant state of the router should be BACKUP but is %s" % routers[0].redundantstate ) self.debug("Checking state of the backup router in %s" % self.network.name) routers = Router.list( self.apiclient, id=backup_router.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( routers[0].redundantstate, 'MASTER', "Redundant state of the router should be MASTER but is %s" % routers[0].redundantstate ) self.assertEqual( master_router.publicip, routers[0].publicip, "Public IP should be same after reboot" ) return @attr(tags=["advanced", "advancedns", "ssh"]) def test_04_rebootBackupRvR(self): """Test reboot backup RVR """ # Steps to validate # 1. createNetwork using network offering for redundant virtual router # listNetworks returns the allocated network # 2. listRouters in above network. Lists no routers in the created # network # 3. deployVM in above user account in the created network. VM is # successfully Running # 4. listRouters that has redundantstate=MASTER. only one router is # returned with redundantstate = MASTER for this network # 5. reboot router that is BACKUP. Router reboots state # successfully # 6. lists old BACKUP router in redundantstate=BACKUP, and the old # MASTER router is still MASTER+ public IP of the SourceNAT should # remain same after the reboot self.debug("Listing routers for network: %s" % self.network.name) routers = Router.list( self.apiclient, networkid=self.network.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( len(routers), 2, "Length of the list router should be 2 (Backup & master)" ) if routers[0].redundantstate == 'MASTER': master_router = routers[0] backup_router = routers[1] else: master_router = routers[1] backup_router = routers[0] self.debug("Rebooting the backup router") try: Router.reboot(self.apiclient, id=backup_router.id) except Exception as e: self.fail("Failed to reboot BACKUP router: %s" % e) # wait for VR to update state time.sleep(self.services["sleep"]) self.debug("Checking state of the backup router in %s" % self.network.name) routers = Router.list( self.apiclient, id=backup_router.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( routers[0].redundantstate, 'BACKUP', "Redundant state of the router should be BACKUP but is %s" % routers[0].redundantstate ) self.debug("Checking state of the master router in %s" % self.network.name) routers = Router.list( self.apiclient, id=master_router.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( routers[0].redundantstate, 'MASTER', "Redundant state of the router should be MASTER but is %s" % routers[0].redundantstate ) self.assertEqual( master_router.publicip, routers[0].publicip, "Public IP should be same after reboot" ) return @attr(tags=["advanced", "advancedns", "ssh"]) def test_05_stopBackupRvR_startInstance(self): """Test stop backup RVR and start instance """ # Steps to validate # 1. createNetwork using network offering for redundant virtual router # listNetworks returns the allocated network # 2. listRouters in above network. Lists no routers in the created # network # 3. deployVM in above user account in the created network. VM is # successfully Running # 4. listRouters that has redundantstate=MASTER. only one router is # returned with redundantstate = MASTER for this network # 5. stop router that is BACKUP. # 6. listRouters in the account and in the network # 7. deployVM in the user account in the created network # 8. listRouters in the account and in the network # 9. delete the account self.debug("Listing routers for network: %s" % self.network.name) routers = Router.list( self.apiclient, networkid=self.network.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( len(routers), 2, "Length of the list router should be 2 (Backup & master)" ) if routers[0].redundantstate == 'MASTER': master_router = routers[0] backup_router = routers[1] else: master_router = routers[1] backup_router = routers[0] self.debug("Stopping the backup router") try: Router.stop(self.apiclient, id=backup_router.id) except Exception as e: self.fail("Failed to stop BACKUP router: %s" % e) # wait for VR to update state time.sleep(self.services["sleep"]) self.debug("Checking state of the backup router in %s" % self.network.name) routers = Router.list( self.apiclient, id=backup_router.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertIn( routers[0].redundantstate, 'UNKNOWN', "Redundant state of the backup router should be UNKNOWN but is %s" % routers[0].redundantstate ) # Spawn an instance in that network vm_2 = VirtualMachine.create( self.apiclient, self.services["virtual_machine"], accountid=self.account.name, domainid=self.account.domainid, serviceofferingid=self.service_offering.id, networkids=[str(self.network.id)] ) self.debug("Deployed VM in network: %s" % self.network.id) vms = VirtualMachine.list( self.apiclient, id=vm_2.id, listall=True ) self.assertEqual( isinstance(vms, list), True, "List Vms should return a valid list" ) vm = vms[0] self.assertEqual( vm.state, "Running", "Vm should be in running state after deployment" ) self.debug("Checking state of the backup router in %s" % self.network.name) routers = Router.list( self.apiclient, id=backup_router.id, listall=True ) self.assertEqual( isinstance(routers, list), True, "list router should return Master and backup routers" ) self.assertEqual( routers[0].redundantstate, 'BACKUP', "Redundant state of the router should be BACKUP but is %s" % routers[0].redundantstate ) return