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cloudstack/test/integration/component/test_redundant_router.py
Prasanna Santhanam 8f57a851be account name dereferences as account.name 
Fix to tests to conform to library changes.

Signed-off-by: Prasanna Santhanam <tsp@apache.org>
2013-05-14 10:34:01 +05:30

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# 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 random import random
import marvin
from nose.plugins.attrib import attr
from marvin.integration.lib.base import *
from marvin.integration.lib.utils import *
from marvin.integration.lib.common import *
#Import Local Modules
from marvin.cloudstackTestCase import *
from marvin.cloudstackAPI import *
from marvin import remoteSSHClient
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',
},
"volume": {
"diskname": "APP Data Volume",
"size": 1,
# in GBs
"diskdevice": "/dev/xvdb",
# Data Disk
},
"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,
"mode": 'advanced',
# Networking mode, Advanced, Basic
}
class TestCreateRvRNetworkOffering(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestCreateRvRNetworkOffering,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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:
#Clean up, terminate the created network offerings
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
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"
)
return
class TestCreateRvRNetwork(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestCreateRvRNetwork,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
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.api_client = super(
TestCreateRvRNetworkNonDefaultGuestCidr,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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
# - 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.account.domainid,
networkofferingid=self.network_offering.id,
zoneid=self.zone.id,
guestcidr=' 192.168.2.0/23'
)
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"
)
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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
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.api_client = super(
TestRVRInternals,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
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.apiclient.hypervisor.lower() == 'vmware':
result = get_process_status(
self.apiclient.connection.mgtSvr,
22,
self.apiclient.connection.user,
self.apiclient.connection.passwd,
master_router.linklocalip,
'ifconfig eth2',
hypervisor=self.apiclient.hypervisor
)
else:
result = get_process_status(
host.ipaddress,
self.services['host']["publicport"],
self.services['host']["username"],
self.services['host']["password"],
master_router.linklocalip,
'ifconfig eth2'
)
res = str(result)
self.debug("Command 'ifconfig eth2': %s" % result)
self.debug("Router's public Ip: %s" % master_router.publicip)
self.assertEqual(
res.count(master_router.publicip),
1,
"master router should have the public IP configured"
)
self.assertEqual(
result.count('Bcast:0.0.0.0'),
0,
"Broadcast address of eth2 should not be 0.0.0.0"
)
# Check eth2 port for backup router
if self.apiclient.hypervisor.lower() == 'vmware':
result = get_process_status(
self.apiclient.connection.mgtSvr,
22,
self.apiclient.connection.user,
self.apiclient.connction.passwd,
backup_router.linklocalip,
'ifconfig eth2',
hypervisor=self.apiclient.hypervisor
)
else:
result = get_process_status(
host.ipaddress,
self.services['host']["publicport"],
self.services['host']["username"],
self.services['host']["password"],
backup_router.linklocalip,
'ifconfig eth2'
)
res = str(result)
self.debug("Command 'ifconfig eth2': %s" % result)
self.assertEqual(
res.count('Bcast:0.0.0.0'),
1,
"backup router should NOT have the public IP configured"
)
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 TestRedundancy(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestRedundancy,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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
)
# 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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network.id)]
)
self.debug("Deployed VM in network: %s" % self.network.id)
self.cleanup = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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_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:
cmd = stopRouter.stopRouter(cmd)
cmd.id = master_router.id
self.apiclient.stopRouter(cmd)
except Exception as e:
self.fail("Failed to stop master router: %s" % e)
self.debug("Listing routers for network: %s" % self.network.name)
routers = Router.list(
self.apiclient,
networkid=self.network.id,
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,
'UNKNOWN',
"Redundant state of the router should be UNKNOWN"
)
self.debug("Listing routers for network: %s" % self.network.name)
routers = Router.list(
self.apiclient,
networkid=self.network.id,
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"
)
self.debug("Starting the old MASTER router")
try:
cmd = startRouter.startRouter(cmd)
cmd.id = master_router.id
self.apiclient.startRouter(cmd)
self.debug("old MASTER router started")
except Exception as e:
self.fail("Failed to stop master router: %s" % e)
self.debug("Listing routers for network: %s" % self.network.name)
routers = Router.list(
self.apiclient,
networkid=self.network.id,
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"
)
self.assertEqual(
master_router.publicip,
routers[0].publicip,
"Public IP should be same after reboot"
)
return
@attr(tags=["advanced", "advancedns", "ssh"])
def test_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:
cmd = stopRouter.stopRouter(cmd)
cmd.id = backup_router.id
self.apiclient.stopRouter(cmd)
except Exception as e:
self.fail("Failed to stop backup router: %s" % e)
self.debug("Listing routers for network: %s" % self.network.name)
routers = Router.list(
self.apiclient,
networkid=self.network.id,
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,
'UNKNOWN',
"Redundant state of the router should be UNKNOWN"
)
self.debug("Listing routers for network: %s" % self.network.name)
routers = Router.list(
self.apiclient,
networkid=self.network.id,
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"
)
self.debug("Starting the old BACKUP router")
try:
cmd = startRouter.startRouter(cmd)
cmd.id = backup_router.id
self.apiclient.startRouter(cmd)
self.debug("old BACKUP router started")
except Exception as e:
self.fail("Failed to stop master router: %s" % e)
self.debug("Listing routers for network: %s" % self.network.name)
routers = Router.list(
self.apiclient,
networkid=self.network.id,
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"
)
self.assertEqual(
backup_router.publicip,
routers[0].publicip,
"Public IP should be same after reboot"
)
return
@attr(tags=["advanced", "advancedns", "ssh"])
def test_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:
cmd = rebootRouter.rebootRouter(cmd)
cmd.id = master_router.id
self.apiclient.rebootRouter(cmd)
except Exception as e:
self.fail("Failed to reboot MASTER router: %s" % e)
self.debug("Listing routers for network: %s" % self.network.name)
routers = Router.list(
self.apiclient,
networkid=self.network.id,
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"
)
self.debug("Listing routers for network: %s" % self.network.name)
routers = Router.list(
self.apiclient,
networkid=self.network.id,
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"
)
self.assertEqual(
master_router.publicip,
routers[0].publicip,
"Public IP should be same after reboot"
)
return
@attr(tags=["advanced", "advancedns", "ssh"])
def test_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 backuo router")
try:
cmd = rebootRouter.rebootRouter(cmd)
cmd.id = backup_router.id
self.apiclient.rebootRouter(cmd)
except Exception as e:
self.fail("Failed to reboot BACKUP router: %s" % e)
self.debug("Listing routers for network: %s" % self.network.name)
routers = Router.list(
self.apiclient,
networkid=self.network.id,
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"
)
self.debug("Listing routers for network: %s" % self.network.name)
routers = Router.list(
self.apiclient,
networkid=self.network.id,
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"
)
self.assertEqual(
master_router.publicip,
routers[0].publicip,
"Public IP should be same after reboot"
)
return
@attr(tags=["advanced", "advancedns", "ssh"])
def test_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:
cmd = stopRouter.stopRouter(cmd)
cmd.id = backup_router.id
self.apiclient.stopRouter(cmd)
except Exception as e:
self.fail("Failed to stop BACKUP router: %s" % e)
self.debug("Listing routers for network: %s" % self.network.name)
routers = Router.list(
self.apiclient,
networkid=self.network.id,
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,
'UNKNOWN',
"Redundant state of the router should be UNKNOWN"
)
# Spawn an instance in that network
vm_2 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account.name,
domainid=self.account.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % 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("Listing routers for network: %s" % self.network.name)
routers = Router.list(
self.apiclient,
networkid=self.network.id,
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"
)
return
class TestApplyAndDeleteNetworkRulesOnRvR(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestApplyAndDeleteNetworkRulesOnRvR,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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_apply_and__delete_NetworkRulesOnRvR(self):
"""Test apply and delete network rules on redundant router
"""
# Steps to validate
# 1. listNetworks should show the created network in allocated state
# 2. listRouters returns no running routers
# 3. VMs should be deployed and in Running state
# 4. should list MASTER and BACKUP routers
# 5. listPublicIpAddresses for networkid should show acquired IP
# 6. listRemoteAccessVpns for the network associated should show the
# VPN created
# 7. listRemoteAccessVpns for the network associated should return
# empty response
# 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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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)"
)
self.debug("Associating public IP for network: %s" % network.name)
public_ip = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip.ipaddress.ipaddress,
network.id
))
self.debug("Enabling static NAT for IP: %s" %
public_ip.ipaddress.ipaddress)
try:
static_nat = StaticNATRule.create(
self.apiclient,
self.services["fw_rule"],
ipaddressid=public_ip.ipaddress.id
)
self.debug("Static NAT enabled for IP: %s" %
public_ip.ipaddress.ipaddress)
static_nat.enable(
self.apiclient,
ipaddressid=public_ip.ipaddress.id,
virtualmachineid=virtual_machine.id
)
except Exception as e:
self.fail("Failed to enable static NAT on IP: %s - %s" % (
public_ip.ipaddress.ipaddress, e))
public_ips = PublicIPAddress.list(
self.apiclient,
networkid=network.id,
listall=True,
isstaticnat=True
)
self.assertEqual(
isinstance(public_ips, list),
True,
"List public Ip for network should list the Ip addr"
)
self.assertEqual(
public_ips[0].ipaddress,
public_ip.ipaddress.ipaddress,
"List public Ip for network should list the Ip addr"
)
self.debug("creating a FW rule on IP: %s" %
public_ip.ipaddress.ipaddress)
fw_rule = FireWallRule.create(
self.apiclient,
ipaddressid=public_ip.ipaddress.id,
protocol='TCP',
cidrlist=[self.services["fw_rule"]["cidr"]],
startport=self.services["fw_rule"]["startport"],
endport=self.services["fw_rule"]["endport"]
)
self.debug("Created a firewall rule on 22 port of IP: %s" %
public_ip.ipaddress.ipaddress)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip.ipaddress.ipaddress)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
self.debug("Associating public IP for network: %s" % network.name)
public_ip_2 = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip_2.ipaddress.ipaddress,
network.id
))
nat_rule = NATRule.create(
self.apiclient,
virtual_machine,
self.services["natrule_221"],
ipaddressid=public_ip_2.ipaddress.id,
openfirewall=True
)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip_2.ipaddress.ipaddress,
reconnect=True,
port=self.services["natrule_221"]["publicport"]
)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
self.debug("Associating public IP for network: %s" % network.name)
public_ip_3 = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip_3.ipaddress.ipaddress,
network.id
))
self.debug("Creating LB rule for IP address: %s" %
public_ip_3.ipaddress.ipaddress)
lb_rule = LoadBalancerRule.create(
self.apiclient,
self.services["lbrule"],
ipaddressid=public_ip_3.ipaddress.id,
accountid=self.account.name,
networkid=network.id
)
self.debug("Adding %s to the LB rule %s" % (
virtual_machine.name,
lb_rule.name
))
lb_rule.assign(self.apiclient, [virtual_machine])
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip_3.ipaddress.ipaddress,
reconnect=True,
port=self.services["lbrule"]["publicport"]
)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
return
class TestEnableVPNOverRvR(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestEnableVPNOverRvR,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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_enableVPNOverRvR(self):
"""Test redundant router internals
"""
# Steps to validate
# 1. listNetworks should show the created network in allocated state
# 2. listRouters returns no running routers
# 3. VMs should be deployed and in Running state
# 4. should list MASTER and BACKUP routers
# 5. listPublicIpAddresses for networkid should show acquired IP addr
# 6. listRemoteAccessVpns for the network associated should show VPN
# created
# 7. listRemoteAccessVpns for the network associated should return
# empty response
# 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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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)"
)
self.debug("Associating public IP for network: %s" % network.name)
public_ip = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip.ipaddress.ipaddress,
network.id
))
self.debug("Creating a remote access VPN for account: %s" %
self.account.name)
try:
vpn = Vpn.create(
self.apiclient,
publicipid=public_ip.ipaddress.id,
account=self.account.name,
domainid=self.account.account.domainid
)
except Exception as e:
self.fail("Failed to create VPN for account: %s - %s" % (
self.account.name, e))
try:
vpnuser = VpnUser.create(
self.apiclient,
username="root",
password="password",
account=self.account.name,
domainid=self.account.account.domainid
)
except Exception as e:
self.fail("Failed to create VPN user: %s" % e)
self.debug("Checking if the remote access VPN is created or not?")
remote_vpns = Vpn.list(
self.apiclient,
account=self.account.name,
domainid=self.account.account.domainid,
publicipid=public_ip.ipaddress.id,
listall=True
)
self.assertEqual(
isinstance(remote_vpns, list),
True,
"List remote VPNs should not return empty response"
)
self.debug("Deleting the remote access VPN for account: %s" %
self.account.name)
try:
vpn.delete(self.apiclient)
except Exception as e:
self.fail("Failed to delete VPN : %s" % e)
self.debug("Checking if the remote access VPN is created or not?")
remote_vpns = Vpn.list(
self.apiclient,
account=self.account.name,
domainid=self.account.account.domainid,
publicipid=public_ip.ipaddress.id,
listall=True
)
self.assertEqual(
remote_vpns,
None,
"List remote VPNs should not return empty response"
)
return
class TestNetworkRulesMasterDownDeleteNetworkRules(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestNetworkRulesMasterDownDeleteNetworkRules,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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_applyNetworkRules_MasterDown_deleteNetworkRules(self):
"""Test apply network rules when master down and delete network rules
"""
# Steps to validate
# 1. listNetworks should show the created network in allocated state
# 2. listRouters returns no running routers
# 3. VMs should be deployed and in Running state
# 4. should list MASTER and BACKUP routers
# 5. listPublicIpAddresses for networkid should show acquired IP addr
# 6. listStaticNats for the network associated
# 7. listFirewallRules should show allowed ports open
# 8. ssh to succeed to the guestVM
# 9. listPublicIpAddresses for networkid should show acquired IP addr
# 10. listPortForwardRules to show open ports 221, 222
# 11. ssh should succeed for both ports
# 12. listPublicIpAddresses for networkid should show acquired IP addr
# 13 and 14. listLoadBalancerRules should show associated VMs for
# public IP
# 15. ssh should succeed to the user VMs
# 16. listRouters should show one Router in MASTER state and Running
# 17. ssh should work for PF, FW, and LB ips
# 18. listRouters should show both routers MASTER and BACKUP in
# Running state
# 19. listPortForwardingRules, listFirewallRules, listLoadBalancerRule
# should return empty response
# 20. listPublicIpAddresses should show now more addresses
# 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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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("Stopping router ID: %s" % master_router.id)
try:
#Stop the router
cmd = stopRouter.stopRouterCmd()
cmd.id = master_router.id
self.apiclient.stopRouter(cmd)
except Exception as e:
self.fail("Failed to stop master router..")
self.debug("Associating public IP for network: %s" % network.name)
public_ip = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip.ipaddress.ipaddress,
network.id
))
self.debug("Enabling static NAT for IP: %s" %
public_ip.ipaddress.ipaddress)
try:
static_nat = StaticNATRule.create(
self.apiclient,
self.services["fw_rule"],
ipaddressid=public_ip.ipaddress.id
)
static_nat.enable(
self.apiclient,
ipaddressid=public_ip.ipaddress.id,
virtualmachineid=virtual_machine.id
)
self.debug("Static NAT enabled for IP: %s" %
public_ip.ipaddress.ipaddress)
except Exception as e:
self.fail("Failed to enable static NAT on IP: %s - %s" % (
public_ip.ipaddress.ipaddress, e))
public_ips = PublicIPAddress.list(
self.apiclient,
networkid=network.id,
listall=True,
isstaticnat=True
)
self.assertEqual(
isinstance(public_ips, list),
True,
"List public Ip for network should list the Ip addr"
)
self.assertEqual(
public_ips[0].ipaddress,
public_ip.ipaddress.ipaddress,
"List public Ip for network should list the Ip addr"
)
self.debug("creating a FW rule on IP: %s" %
public_ip.ipaddress.ipaddress)
fw_rule = FireWallRule.create(
self.apiclient,
ipaddressid=public_ip.ipaddress.id,
protocol='TCP',
cidrlist=[self.services["fw_rule"]["cidr"]],
startport=self.services["fw_rule"]["startport"],
endport=self.services["fw_rule"]["endport"]
)
self.debug("Created a firewall rule on 22 port of IP: %s" %
public_ip.ipaddress.ipaddress)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip.ipaddress.ipaddress)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
self.debug("Associating public IP for network: %s" % network.name)
public_ip_2 = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip_2.ipaddress.ipaddress,
network.id
))
nat_rule = NATRule.create(
self.apiclient,
virtual_machine,
self.services["natrule_221"],
ipaddressid=public_ip_2.ipaddress.id,
openfirewall=True
)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip_2.ipaddress.ipaddress,
reconnect=True,
port=self.services["natrule_221"]["publicport"]
)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
self.debug("Associating public IP for network: %s" % network.name)
public_ip_3 = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip_3.ipaddress.ipaddress,
network.id
))
self.debug("Creating LB rule for IP address: %s" %
public_ip_3.ipaddress.ipaddress)
lb_rule = LoadBalancerRule.create(
self.apiclient,
self.services["lbrule"],
ipaddressid=public_ip_3.ipaddress.id,
accountid=self.account.name,
networkid=network.id
)
self.debug("Adding %s to the LB rule %s" % (
virtual_machine.name,
lb_rule.name
))
lb_rule.assign(self.apiclient, [virtual_machine])
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip_3.ipaddress.ipaddress,
reconnect=True,
port=self.services["lbrule"]["publicport"]
)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
self.debug("Starting router ID: %s" % master_router.id)
try:
#Stop the router
cmd = startRouter.startRouterCmd()
cmd.id = master_router.id
self.apiclient.startRouter(cmd)
except Exception as e:
self.fail("Failed to start master router..")
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)"
)
for router in routers:
self.assertEqual(
router.state,
"Running",
"Router state should be running"
)
return
class TestApplyDeleteNetworkRulesRebootRouter(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestApplyDeleteNetworkRulesRebootRouter,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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_applyNetworkRules_MasterDown_deleteNetworkRules(self):
"""Test apply network rules when master & backup routers rebooted
"""
# Steps to validate
# 1. listNetworks should show the created network in allocated state
# 2. listRouters returns no running routers
# 3. VMs should be deployed and in Running state
# 4. should list MASTER and BACKUP routers
# 5. listPublicIpAddresses for networkid should show acquired IP addr
# 6. listStaticNats for the network associated
# 7. listFirewallRules should show allowed ports open
# 8. ssh to succeed to the guestVM
# 9. listPublicIpAddresses for networkid should show acquired IP addr
# 10. listPortForwardRules to show open ports 221, 222
# 11. ssh should succeed for both ports
# 12. listPublicIpAddresses for networkid should show acquired IP addr
# 13 and 14. listLoadBalancerRules should show associated VMs for
# public IP
# 15. ssh should succeed to the user VMs
# 16. listRouters should show one Router in MASTER state and Running
# 17. ssh should work for PF, FW, and LB ips
# 18. listRouters should show both routers MASTER and BACKUP in
# Running state
# 19. listPortForwardingRules, listFirewallRules, listLoadBalancerRule
# should return empty response
# 20. listPublicIpAddresses should show now more addresses
# 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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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("Associating public IP for network: %s" % network.name)
public_ip = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip.ipaddress.ipaddress,
network.id
))
self.debug("Enabling static NAT for IP: %s" %
public_ip.ipaddress.ipaddress)
try:
static_nat = StaticNATRule.create(
self.apiclient,
self.services["fw_rule"],
ipaddressid=public_ip.ipaddress.id
)
static_nat.enable(
self.apiclient,
ipaddressid=public_ip.ipaddress.id,
virtualmachineid=virtual_machine.id
)
self.debug("Static NAT enabled for IP: %s" %
public_ip.ipaddress.ipaddress)
except Exception as e:
self.fail("Failed to enable static NAT on IP: %s - %s" % (
public_ip.ipaddress.ipaddress, e))
public_ips = PublicIPAddress.list(
self.apiclient,
networkid=network.id,
listall=True,
isstaticnat=True
)
self.assertEqual(
isinstance(public_ips, list),
True,
"List public Ip for network should list the Ip addr"
)
self.assertEqual(
public_ips[0].ipaddress,
public_ip.ipaddress.ipaddress,
"List public Ip for network should list the Ip addr"
)
self.debug("creating a FW rule on IP: %s" %
public_ip.ipaddress.ipaddress)
fw_rule = FireWallRule.create(
self.apiclient,
ipaddressid=public_ip.ipaddress.id,
protocol='TCP',
cidrlist=[self.services["fw_rule"]["cidr"]],
startport=self.services["fw_rule"]["startport"],
endport=self.services["fw_rule"]["endport"]
)
self.debug("Created a firewall rule on 22 port of IP: %s" %
public_ip.ipaddress.ipaddress)
self.debug("Associating public IP for network: %s" % network.name)
public_ip_2 = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip_2.ipaddress.ipaddress,
network.id
))
nat_rule = NATRule.create(
self.apiclient,
virtual_machine,
self.services["natrule_221"],
ipaddressid=public_ip_2.ipaddress.id,
openfirewall=True
)
self.debug("Associating public IP for network: %s" % network.name)
public_ip_3 = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip_3.ipaddress.ipaddress,
network.id
))
self.debug("Creating LB rule for IP address: %s" %
public_ip_3.ipaddress.ipaddress)
lb_rule = LoadBalancerRule.create(
self.apiclient,
self.services["lbrule"],
ipaddressid=public_ip_3.ipaddress.id,
accountid=self.account.name,
networkid=network.id
)
self.debug("Adding %s to the LB rule %s" % (
virtual_machine.name,
lb_rule.name
))
lb_rule.assign(self.apiclient, [virtual_machine])
self.debug("Starting router ID: %s" % master_router.id)
for router in routers:
try:
self.debug("Rebooting router ID: %s" % master_router.id)
#Stop the router
cmd = rebootRouter.rebootRouterCmd()
cmd.id = router.id
self.apiclient.rebootRouter(cmd)
except Exception as e:
self.fail("Failed to reboot router..")
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)"
)
for router in routers:
self.assertEqual(
router.state,
"Running",
"Router state should be running"
)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip.ipaddress.ipaddress)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip_2.ipaddress.ipaddress,
reconnect=True,
port=self.services["natrule_221"]["publicport"]
)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip_3.ipaddress.ipaddress,
reconnect=True,
port=self.services["lbrule"]["publicport"]
)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
return
class TestRestartRvRNetworkWithoutCleanup(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestRestartRvRNetworkWithoutCleanup,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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_restartRvRNetwork_withoutCleanup(self):
"""Test apply rules after network restart
"""
# 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. restartNetwork cleanup=false
# 5. listRouters in the account
# 6. delete the account
# 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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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("restarting network with cleanup=False")
try:
network.restart(self.apiclient, cleanup=False)
except Exception as e:
self.fail("Failed to cleanup network - %s" % e)
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)"
)
for router in routers:
self.assertEqual(
router.state,
"Running",
"Router state should be running"
)
self.assertIn(
router.linklocalip,
[master_router.linklocalip, backup_router.linklocalip],
"Routers should have same linklocal IP after nw restart"
)
return
class TestRestartRvRNetworkWithCleanup(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestRestartRvRNetworkWithCleanup,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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_restartRvRNetwork_withCleanup(self):
"""Test Restart network with cleanup
"""
# 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. restartNetwork cleanup=false
# 5. listRouters in the account
# 6. delete the account
# 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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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("restarting network with cleanup=True")
try:
network.restart(self.apiclient, cleanup=True)
except Exception as e:
self.fail("Failed to cleanup network - %s" % e)
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)"
)
for router in routers:
self.assertEqual(
router.state,
"Running",
"Router state should be running"
)
self.assertIn(
router.linklocalip,
[master_router.linklocalip, backup_router.linklocalip],
"Routers should have same linklocal IP after nw restart"
)
return
class TestDeleteRvRNetwork(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestDeleteRvRNetwork,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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_restartRvRNetwork_withCleanup(self):
"""Test Restart network with cleanup
"""
# 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. restartNetwork cleanup=false
# 5. listRouters in the account
# 6. delete the account
# 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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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)"
)
self.debug("Trying to delete the network with running Vms")
with self.assertRaises(Exception):
network.delete(self.apiclient, cleanup=True)
self.debug("Network delete failed!")
self.debug("Destroying the user VMs for account: %s" %
self.account.name)
try:
virtual_machine.delete(self.apiclient)
except Exception as e:
self.fail("Failed to delete guest Vm from account: %s - %s" %
(self.account.name, e))
interval = list_configurations(
self.apiclient,
name='expunge.delay'
)
delay = int(interval[0].value)
interval = list_configurations(
self.apiclient,
name='expunge.interval'
)
exp = int(interval[0].value)
self.debug("Sleeping for exp delay + interval time")
# Sleep to ensure that all resources are deleted
time.sleep((delay + exp) * 2)
self.debug("Trying to delete guest network for account: %s" %
self.account.name)
try:
network.delete(self.apiclient)
except Exception as e:
self.fail("Failed to delete network: %s" % e)
return
class TestNetworkGCRvR(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestNetworkGCRvR,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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_networkGC_RvR(self):
"""Test network garbage collection with RVR
"""
# 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. stop the running user VM
# 5. wait for network.gc time
# 6. listRouters
# 7. start the routers MASTER and BACK
# 8. wait for network.gc time and listRouters
# 9. delete the account
# 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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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)"
)
self.debug("Stopping the user VM: %s" % virtual_machine.name)
try:
virtual_machine.stop(self.apiclient)
except Exception as e:
self.fail("Failed to stop guest Vm: %s - %s" %
(virtual_machine.name, e))
interval = list_configurations(
self.apiclient,
name='network.gc.interval'
)
delay = int(interval[0].value)
interval = list_configurations(
self.apiclient,
name='network.gc.wait'
)
exp = int(interval[0].value)
self.debug("Sleeping for network gc wait + interval time")
# Sleep to ensure that all resources are deleted
time.sleep((delay + exp) * 2)
routers = Router.list(
self.apiclient,
networkid=network.id,
listall=True
)
self.assertEqual(
isinstance(routers, list),
True,
"list router should return Master and backup routers"
)
for router in routers:
self.assertEqual(
router.state,
"Stopped",
"Router should be in stopped state"
)
self.debug("Starting the stopped router again")
cmd = startRouter.startRouterCmd()
cmd.id = router.id
self.apiclient.startRouter(cmd)
routers = Router.list(
self.apiclient,
networkid=network.id,
listall=True
)
self.assertEqual(
isinstance(routers, list),
True,
"list router should return Master and backup routers"
)
for router in routers:
self.assertEqual(
router.state,
"Running",
"Router should be in running state"
)
self.debug("Sleeping for network gc wait + interval time")
# Sleep to ensure that all resources are deleted
time.sleep((delay + exp) * 2)
routers = Router.list(
self.apiclient,
networkid=network.id,
listall=True
)
self.assertEqual(
isinstance(routers, list),
True,
"list router should return Master and backup routers"
)
for router in routers:
self.assertEqual(
router.state,
"Stopped",
"Router should be in stopped state"
)
return
class TestApplyRulesRestartRvRNetwork(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestApplyRulesRestartRvRNetwork,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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_applyRules_restartRvRNetwork(self):
"""Test apply rules after network restart
"""
# Steps to validate
# 1. listNetworks should show the created network in allocated state
# 2. listRouters returns no running routers
# 3. VMs should be deployed and in Running state
# 4. should list MASTER and BACKUP routers
# 5. listPublicIpAddresses for networkid should show acquired IP addr
# 6. listStaticNats for the network associated
# 7. listFirewallRules should show allowed ports open
# 8. ssh to succeed to the guestVM
# 9. listPublicIpAddresses for networkid should show acquired IP addr
# 10. listPortForwardRules to show open ports 221, 222
# 11. ssh should succeed for both ports
# 12. listPublicIpAddresses for networkid should show acquired IP addr
# 13 and 14. listLoadBalancerRules should show associated VMs for
# public IP
# 15. ssh should succeed to the user VMs
# 16. listRouters should show one Router in MASTER state and Running &
# one in BACKUP and Running
# 17. ssh should work for PF, FW, and LB ips
# 18. listRouters should show one Router in MASTER state and Running &
# one in BACKUP and Running
# 19. ssh should work for PF, FW, and LB ips
# 20. listPortForwardingRules, listFirewallRules, listLoadBalancerRule
# should return empty response
# 21. listPublicIpAddresses should show now more addresses
# 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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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("Associating public IP for network: %s" % network.name)
public_ip = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip.ipaddress.ipaddress,
network.id
))
self.debug("Enabling static NAT for IP: %s" %
public_ip.ipaddress.ipaddress)
try:
static_nat = StaticNATRule.create(
self.apiclient,
self.services["fw_rule"],
ipaddressid=public_ip.ipaddress.id
)
static_nat.enable(
self.apiclient,
ipaddressid=public_ip.ipaddress.id,
virtualmachineid=virtual_machine.id
)
self.debug("Static NAT enabled for IP: %s" %
public_ip.ipaddress.ipaddress)
except Exception as e:
self.fail("Failed to enable static NAT on IP: %s - %s" % (
public_ip.ipaddress.ipaddress, e))
public_ips = PublicIPAddress.list(
self.apiclient,
networkid=network.id,
listall=True,
isstaticnat=True
)
self.assertEqual(
isinstance(public_ips, list),
True,
"List public Ip for network should list the Ip addr"
)
self.assertEqual(
public_ips[0].ipaddress,
public_ip.ipaddress.ipaddress,
"List public Ip for network should list the Ip addr"
)
self.debug("creating a FW rule on IP: %s" %
public_ip.ipaddress.ipaddress)
fw_rule = FireWallRule.create(
self.apiclient,
ipaddressid=public_ip.ipaddress.id,
protocol='TCP',
cidrlist=[self.services["fw_rule"]["cidr"]],
startport=self.services["fw_rule"]["startport"],
endport=self.services["fw_rule"]["endport"]
)
self.debug("Created a firewall rule on 22 port of IP: %s" %
public_ip.ipaddress.ipaddress)
self.debug("Associating public IP for network: %s" % network.name)
public_ip_2 = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip_2.ipaddress.ipaddress,
network.id
))
nat_rule = NATRule.create(
self.apiclient,
virtual_machine,
self.services["natrule_221"],
ipaddressid=public_ip_2.ipaddress.id,
openfirewall=True
)
self.debug("Associating public IP for network: %s" % network.name)
public_ip_3 = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.account.domainid,
networkid=network.id
)
self.debug("Associated %s with network %s" % (
public_ip_3.ipaddress.ipaddress,
network.id
))
self.debug("Creating LB rule for IP address: %s" %
public_ip_3.ipaddress.ipaddress)
lb_rule = LoadBalancerRule.create(
self.apiclient,
self.services["lbrule"],
ipaddressid=public_ip_3.ipaddress.id,
accountid=self.account.name,
networkid=network.id
)
self.debug("Adding %s to the LB rule %s" % (
virtual_machine.name,
lb_rule.name
))
lb_rule.assign(self.apiclient, [virtual_machine])
self.debug("Restarting network ID: %s with cleanup true" %
network.id)
try:
network.restart(self.apiclient, cleanup=True)
except Exception as e:
self.fail("Failed to cleanup network")
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)"
)
for router in routers:
self.assertEqual(
router.state,
"Running",
"Router state should be running"
)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip.ipaddress.ipaddress)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip_2.ipaddress.ipaddress,
reconnect=True,
port=self.services["natrule_221"]["publicport"]
)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip_3.ipaddress.ipaddress,
reconnect=True,
port=self.services["lbrule"]["publicport"]
)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
self.debug("Restarting network ID: %s with cleanup false" %
network.id)
try:
network.restart(self.apiclient, cleanup=False)
except Exception as e:
self.fail("Failed to cleanup network")
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)"
)
for router in routers:
self.assertEqual(
router.state,
"Running",
"Router state should be running"
)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip.ipaddress.ipaddress)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip_2.ipaddress.ipaddress,
reconnect=True,
port=self.services["natrule_221"]["publicport"]
)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
self.debug("Trying to SSH into the virtual machine")
try:
virtual_machine.get_ssh_client(
ipaddress=public_ip_3.ipaddress.ipaddress,
reconnect=True,
port=self.services["lbrule"]["publicport"]
)
self.debug("SSH to guest VM succeeded")
except Exception as e:
self.fail("SSH to guest VM failed: %s" % e)
return
class TestUpgradeDowngradeRVR(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestUpgradeDowngradeRVR,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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_upgradeVR_to_redundantVR(self):
"""Test upgrade virtual router to redundant virtual router
"""
# Steps to validate
# 1. create a network with DefaultNetworkOfferingWithSourceNATservice
# (all VR based services)
# 2. deploy a VM in the above network and listRouters
# 3. create a network Offering that has redundant router enabled and
# all VR based services
# 4. updateNetwork created above to the offfering in 3.
# 5. listRouters in the network
# 6. delete account in which resources are created
# Validate the following
# 1. listNetworks should show the created network in allocated state
# 2. VM should be deployed and in Running state and there should be
# one Router running for this network
# 3. listNetworkOfferings should show craeted offering for RvR
# 4. listNetworks shows the network still successfully implemented
# 5. listRouters shows two routers Up and Running (MASTER and BACKUP)
network_offerings = NetworkOffering.list(
self.apiclient,
name='DefaultIsolatedNetworkOfferingWithSourceNatService',
listall=True
)
self.assertEqual(
isinstance(network_offerings, list),
True,
"List network offering should not return empty response"
)
network_off_vr = network_offerings[0]
# Creating network using the network offering created
self.debug("Creating network with network offering: %s" %
network_off_vr.id)
network = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account.name,
domainid=self.account.account.domainid,
networkofferingid=network_off_vr.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("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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in the account: %s" %
self.account.name)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("Listing routers for account: %s" %
self.account.name)
routers = Router.list(
self.apiclient,
account=self.account.name,
domainid=self.account.account.domainid,
listall=True
)
self.assertEqual(
isinstance(routers, list),
True,
"list router should return only one router"
)
self.assertEqual(
len(routers),
1,
"Length of the list router should be 1"
)
self.debug("Upgrading the network to RVR network offering..")
try:
network.update(
self.apiclient,
networkofferingid=self.network_offering.id
)
except Exception as e:
self.fail("Failed to upgrade the network from VR to RVR: %s" % e)
self.debug("Listing routers for account: %s" %
self.account.name)
routers = Router.list(
self.apiclient,
account=self.account.name,
domainid=self.account.account.domainid,
listall=True
)
self.assertEqual(
isinstance(routers, list),
True,
"list router should return two routers"
)
self.assertEqual(
len(routers),
2,
"Length of the list router should be 2 (MASTER & BACKUP)"
)
return
@attr(tags=["advanced", "advancedns", "ssh"])
def test_downgradeRvR_to_VR(self):
"""Test downgrade redundant virtual router to virtual router
"""
# Steps to validate
# 1. create a network Offering that has redundant router enabled and
# all VR based services
# 2. create a network with above offering
# 3. deploy a VM in the above network and listRouters
# 4. create a network Offering that has redundant router disabled and
# all VR based services
# 5. updateNetwork - downgrade - created above to the offfering in 4.
# 6. listRouters in the network
# 7. delete account in which resources are created
# Validate the following
# 1. listNetworkOfferings should show craeted offering for RvR
# 2. listNetworks should show the created network in allocated state
# 3. VM should be deployed and in Running state and there should be
# two routers (MASTER and BACKUP) for this network
# 4. listNetworkOfferings should show craeted offering for VR
# 5. listNetworks shows the network still successfully implemented
# 6. listRouters shows only one router for this network in Running
# 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.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("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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in the account: %s" %
self.account.name)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("Listing routers for account: %s" %
self.account.name)
routers = Router.list(
self.apiclient,
account=self.account.name,
domainid=self.account.account.domainid,
listall=True
)
self.assertEqual(
isinstance(routers, list),
True,
"list router should return two routers"
)
self.assertEqual(
len(routers),
2,
"Length of the list router should be 2 (MASTER & BACKUP)"
)
network_offerings = NetworkOffering.list(
self.apiclient,
name='DefaultIsolatedNetworkOfferingWithSourceNatService',
listall=True
)
self.assertEqual(
isinstance(network_offerings, list),
True,
"List network offering should not return empty response"
)
network_off_vr = network_offerings[0]
self.debug("Upgrading the network to RVR network offering..")
try:
network.update(
self.apiclient,
networkofferingid=network_off_vr.id
)
except Exception as e:
self.fail("Failed to upgrade the network from VR to RVR: %s" % e)
self.debug("Listing routers for account: %s" %
self.account.name)
routers = Router.list(
self.apiclient,
account=self.account.name,
domainid=self.account.account.domainid,
listall=True
)
self.assertEqual(
isinstance(routers, list),
True,
"list router should return only one router"
)
self.assertEqual(
len(routers),
1,
"Length of the list router should be 1"
)
return
class TestRVRWithDiffEnvs(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestRVRWithDiffEnvs,
cls
).getClsTestClient().getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client, cls.services)
cls.zone = get_zone(cls.api_client, cls.services)
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.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls._cleanup = [
cls.service_offering,
cls.network_offering,
]
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 = []
return
def tearDown(self):
try:
self.account.delete(self.apiclient)
interval = list_configurations(
self.apiclient,
name='account.cleanup.interval'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) * 2)
#Clean up, terminate the created network offerings
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_RvR_multipods(self):
"""Test RvR with muti pods
"""
# Steps to validate
# 0. listPods should have at least 2 pods
# 1. create a network offering for redundant router
# 2. create a network out of this offering
# 3. deploy a VM in this network
# 4. listRouters
# 5. delete the account
# Validate the following
# 1. listNetworkOfferings should show created offering for RvR
# 2. listNetworks should show the created network in allocated state
# 3. VM should be deployed and in Running state
# 4. There should be two routers (MASTER and BACKUP) for this network
# ensure both routers should be on different pods
self.debug("Checking if the current zone has 2 active pods in it..")
pods = Pod.list(
self.apiclient,
zoneid=self.zone.id,
listall=True,
allocationstate="Enabled"
)
self.assertEqual(
isinstance(pods, list),
True,
"List pods should not return an empty response"
)
if len(pods) < 2:
raise unittest.SkipTest("The env don't have 2 pods req for test")
# 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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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)"
)
self.assertNotEqual(
routers[0].podid,
routers[1].podid,
"Both the routers should be in different pods"
)
return
@attr(tags=["advanced", "advancedns", "ssh"])
def test_RvR_multicluster(self):
"""Test RvR with muti clusters
"""
# Steps to validate
# 0. listClusters should have at least two clusters (if there are
# multiple pods, disable all except one with two clusters)
# 1. create a network offering for redundant router
# 2. create a network out of this offering
# 3. deploy a VM in this network on a host in either of clusters
# found in 0. (specify hostid for deployment)
# 4. listRouters
# 5. delete the account
# 6. enable all disabled pods
# Validate the following
# 1. listNetworkOfferings should show created offering for RvR
# 2. listNetworks should show the created network in allocated state
# 3. VM should be deployed and in Running state
# 4. There should be two routers (MASTER and BACKUP) for this network
# ensure both routers should be on different pods
self.debug("Checking if the current zone has 2 active pods in it..")
pods = Pod.list(
self.apiclient,
zoneid=self.zone.id,
listall=True,
allocationstate="Enabled"
)
self.assertEqual(
isinstance(pods, list),
True,
"List pods should not return an empty response"
)
enabled_pod = pods[0]
self.debug("Cheking if pod has atleast 2 clusters")
clusters = Cluster.list(
self.apiclient,
podid=enabled_pod.id,
listall=True
)
self.assertEqual(
isinstance(clusters, list),
True,
"List clusters should not return empty response"
)
if len(clusters) < 2:
raise unittest.SkipTest(
"The env don't have 2 clusters req for test")
self.debug("disable all pods except one!")
if len(pods) > 1:
for pod in pods:
cmd = updatePod.updatePodCmd()
cmd.id = pod.id
cmd.allocationstate = 'Disabled'
self.apiclient.updatePod(cmd)
self.debug("Warning: Disabled all pods in zone")
cmd = updatePod.updatePodCmd()
cmd.id = pods[0].id
cmd.allocationstate = 'Enabled'
self.apiclient.updatePod(cmd)
self.debug("Enabled first pod for testing..")
# 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.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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)]
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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)"
)
hosts = Host.list(
self.apiclient,
id=routers[0].hostid,
listall=True
)
self.assertEqual(
isinstance(hosts, list),
True,
"List host should return a valid data"
)
first_host = hosts[0]
hosts = Host.list(
self.apiclient,
id=routers[1].hostid,
listall=True
)
self.assertEqual(
isinstance(hosts, list),
True,
"List host should return a valid data"
)
second_host = hosts[0]
# Checking if the cluster IDs of both routers are different?
self.assertNotEqual(
first_host.clusterid,
second_host.clusterid,
"Both the routers should be in different clusters"
)
self.debug("Enabling remaining pods if any..")
pods = Pod.list(
self.apiclient,
zoneid=self.zone.id,
listall=True,
allocationstate="Disabled"
)
for pod in pods:
cmd = updatePod.updatePodCmd()
cmd.id = pod.id
cmd.allocationstate = 'Enabled'
self.apiclient.updatePod(cmd)
return
@attr(tags=["advanced", "advancedns", "ssh"])
def test_RvR_multiprimarystorage(self):
"""Test RvR with muti primary storage
"""
# Steps to validate
# 0. listStoragePools should have atleast two pools in a single
# cluster (disable pods/clusters as necessary)
# 1. create a network offering for redundant router
# 2. create a network out of this offering
# 3. deploy a VM in this network on a host in the cluster from 0
# (specify hostid for deployment)
# 4. listRouters
# 5. delete the account
# 6. enable the clusters and pods
# Validate the following
# 1. listNetworkOfferings should show created offering for RvR
# 2. listNetworks should show the created network in allocated state
# 3. VM should be deployed and in Running state and on the specified
# host
# 4. There should be two routers (MASTER and BACKUP) for this network
# ensure both routers should be on different storage pools
self.debug(
"Checking if the current zone has multiple active pods in it..")
pods = Pod.list(
self.apiclient,
zoneid=self.zone.id,
listall=True,
allocationstate="Enabled"
)
self.assertEqual(
isinstance(pods, list),
True,
"List pods should not return an empty response"
)
enabled_pod = pods[0]
self.debug("Cheking if pod has multiple clusters")
clusters = Cluster.list(
self.apiclient,
podid=enabled_pod.id,
listall=True
)
self.assertEqual(
isinstance(clusters, list),
True,
"List clusters should not return empty response"
)
enabled_cluster = clusters[0]
self.debug("Cheking if cluster has multiple storage pools")
storage_pools = StoragePool.list(
self.apiclient,
clusterid=enabled_cluster.id,
listall=True
)
self.assertEqual(
isinstance(storage_pools, list),
True,
"List storage pools should not return empty response"
)
if len(storage_pools) < 2:
raise unittest.SkipTest(
"The env don't have 2 storage pools req for test")
self.debug("disable all pods except one!")
if len(pods) > 1:
for pod in pods:
cmd = updatePod.updatePodCmd()
cmd.id = pod.id
cmd.allocationstate = 'Disabled'
self.apiclient.updatePod(cmd)
self.debug("Warning: Disabled all pods in zone")
cmd = updatePod.updatePodCmd()
cmd.id = pods[0].id
cmd.allocationstate = 'Enabled'
self.apiclient.updatePod(cmd)
self.debug("Enabled first pod for testing..")
self.debug("disable all clusters except one!")
if len(pods) > 1:
for cluster in clusters:
cmd = updateCluster.updateClusterCmd()
cmd.id = cluster.id
cmd.allocationstate = 'Disabled'
self.apiclient.updateCluster(cmd)
self.debug("Warning: Disabled all pods in zone")
cmd = updateCluster.updateClusterCmd()
cmd.id = clusters[0].id
cmd.allocationstate = 'Enabled'
self.apiclient.updateCluster(cmd)
self.debug("Enabled first cluster for testing..")
# 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.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("Retrieving the list of hosts in the cluster")
hosts = Host.list(
self.apiclient,
clusterid=enabled_cluster.id,
listall=True
)
self.assertEqual(
isinstance(hosts, list),
True,
"List hosts should not return an empty response"
)
host = hosts[0]
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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)],
hostid=host.id
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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)"
)
self.assertNotEqual(
routers[0].hostid,
routers[1].hostid,
"Both the routers should be in different storage pools"
)
self.debug("Enabling remaining pods if any..")
pods = Pod.list(
self.apiclient,
zoneid=self.zone.id,
listall=True,
allocationstate="Disabled"
)
self.assertEqual(
isinstance(pods, list),
True,
"List pods should not return an empty response"
)
for pod in pods:
cmd = updatePod.updatePodCmd()
cmd.id = pod.id
cmd.allocationstate = 'Enabled'
self.apiclient.updatePod(cmd)
clusters = Cluster.list(
self.apiclient,
allocationstate="Disabled",
podid=enabled_pod.id,
listall=True
)
for cluster in clusters:
cmd = updateCluster.updateClusterCmd()
cmd.id = cluster.id
cmd.allocationstate = 'Enabled'
self.apiclient.updateCluster(cmd)
return
@attr(tags=["advanced", "advancedns", "ssh"])
def test_RvR_multihosts(self):
"""Test RvR with muti hosts
"""
# Steps to validate
# 0. listHosts should have atleast two hosts in a single cluster
# (disable pods/clusters as necessary)
# 1. create a network offering for redundant router
# 2. create a network out of this offering
# 3. deploy a VM in this network on a host in the cluster from 0
# (specify hostid for deployment)
# 4. listRouters
# 5. delete the account
# 6. enable the clusters and pods
# Validate the following
# 1. listNetworkOfferings should show created offering for RvR
# 2. listNetworks should show the created network in allocated state
# 3. VM should be deployed and in Running state and on specified host
# 4. There should be two routers (MASTER and BACKUP) for this network
# ensure both routers should be on different hosts
self.debug(
"Checking if the current zone has multiple active pods in it..")
pods = Pod.list(
self.apiclient,
zoneid=self.zone.id,
listall=True,
allocationstate="Enabled"
)
self.assertEqual(
isinstance(pods, list),
True,
"List pods should not return an empty response"
)
enabled_pod = pods[0]
self.debug("Cheking if pod has multiple clusters")
clusters = Cluster.list(
self.apiclient,
podid=enabled_pod.id,
listall=True
)
self.assertEqual(
isinstance(clusters, list),
True,
"List clusters should not return empty response"
)
enabled_cluster = clusters[0]
self.debug("Cheking if cluster has multiple hosts")
hosts = Host.list(
self.apiclient,
clusterid=enabled_cluster.id,
listall=True
)
self.assertEqual(
isinstance(hosts, list),
True,
"List hosts should not return empty response"
)
if len(hosts) < 2:
raise unittest.SkipTest(
"The env don't have 2 hosts req for test")
self.debug("disable all pods except one!")
if len(pods) > 1:
for pod in pods:
cmd = updatePod.updatePodCmd()
cmd.id = pod.id
cmd.allocationstate = 'Disabled'
self.apiclient.updatePod(cmd)
self.debug("Warning: Disabled all pods in zone")
cmd = updatePod.updatePodCmd()
cmd.id = pods[0].id
cmd.allocationstate = 'Enabled'
self.apiclient.updatePod(cmd)
self.debug("Enabled first pod for testing..")
self.debug("disable all clusters except one!")
if len(pods) > 1:
for cluster in clusters:
cmd = updateCluster.updateClusterCmd()
cmd.id = cluster.id
cmd.allocationstate = 'Disabled'
self.apiclient.updateCluster(cmd)
self.debug("Warning: Disabled all pods in zone")
cmd = updateCluster.updateClusterCmd()
cmd.id = clusters[0].id
cmd.allocationstate = 'Enabled'
self.apiclient.updateCluster(cmd)
self.debug("Enabled first cluster for testing..")
# 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.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("Retrieving the list of hosts in the cluster")
hosts = Host.list(
self.apiclient,
clusterid=enabled_cluster.id,
listall=True
)
self.assertEqual(
isinstance(hosts, list),
True,
"List hosts should not return an empty response"
)
host = hosts[0]
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.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(network.id)],
hostid=host.id
)
self.debug("Deployed VM in network: %s" % network.id)
vms = VirtualMachine.list(
self.apiclient,
id=virtual_machine.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("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)"
)
self.assertNotEqual(
routers[0].hostid,
routers[1].hostid,
"Both the routers should be in different hosts"
)
self.debug("Enabling remaining pods if any..")
pods = Pod.list(
self.apiclient,
zoneid=self.zone.id,
listall=True,
allocationstate="Disabled"
)
if pods is not None:
for pod in pods:
cmd = updatePod.updatePodCmd()
cmd.id = pod.id
cmd.allocationstate = 'Enabled'
self.apiclient.updatePod(cmd)
clusters = Cluster.list(
self.apiclient,
allocationstate="Disabled",
podid=enabled_pod.id,
listall=True
)
if clusters is not None:
for cluster in clusters:
cmd = updateCluster.updateClusterCmd()
cmd.id = cluster.id
cmd.allocationstate = 'Enabled'
self.apiclient.updateCluster(cmd)
return
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