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cloudstack/test/integration/component/test_netscaler_nw_off.py

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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.
""" P1 tests for multiple netscaler instances
"""
#Import Local Modules
import marvin
from nose.plugins.attrib import attr
from marvin.cloudstackTestCase import *
from marvin.cloudstackAPI import *
from marvin.lib.utils import *
from marvin.lib.base import *
from marvin.lib.common import *
from marvin.sshClient import SshClient
import datetime
class Services:
"""Test netscaler Services
"""
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, # in MHz
"memory": 128, # In MBs
},
"virtual_machine": {
"displayname": "TestVM",
"username": "root",
"password": "password",
"ssh_port": 22,
"hypervisor": 'XenServer',
"privateport": 22,
"publicport": 22,
"protocol": 'TCP',
},
"netscaler_1": {
"ipaddress": '10.147.60.27',
"username": 'nsroot',
"password": 'nsroot',
"networkdevicetype": 'NetscalerVPXLoadBalancer',
"publicinterface": '1/1',
"privateinterface": '1/1',
"numretries": 2,
"lbdevicededicated": False,
"lbdevicecapacity": 50,
"port": 22,
},
"netscaler_2": {
"ipaddress": '192.168.100.100',
"username": 'nsroot',
"password": 'nsroot',
"networkdevicetype": 'NetscalerVPXLoadBalancer',
"publicinterface": '1/1',
"privateinterface": '1/1',
"numretries": 2,
"lbdevicededicated": False,
"lbdevicecapacity": 50,
"port": 22,
},
"netscaler_3": {
"ipaddress": '192.168.100.101',
"username": 'nsroot',
"password": 'nsroot',
"networkdevicetype": 'NetscalerVPXLoadBalancer',
"publicinterface": '1/1',
"privateinterface": '1/1',
"numretries": 2,
"lbdevicededicated": False,
"lbdevicecapacity": 50,
"port": 22,
},
"network_offering_dedicated": {
"name": 'Netscaler',
"displaytext": 'Netscaler',
"guestiptype": 'Isolated',
"supportedservices": 'Dhcp,Dns,SourceNat,PortForwarding,Vpn,Firewall,Lb,UserData,StaticNat',
"traffictype": 'GUEST',
"availability": 'Optional',
"specifyVlan": False,
"specifyIpRanges": False,
"serviceProviderList": {
"Dhcp": 'VirtualRouter',
"Dns": 'VirtualRouter',
"SourceNat": 'VirtualRouter',
"PortForwarding": 'VirtualRouter',
"Vpn": 'VirtualRouter',
"Firewall": 'VirtualRouter',
"Lb": 'Netscaler',
"UserData": 'VirtualRouter',
"StaticNat": 'VirtualRouter',
},
"serviceCapabilityList": {
"SourceNat": {
"SupportedSourceNatTypes": "peraccount"
},
"lb": {
"SupportedLbIsolation": "dedicated"
},
},
},
"network_offering": {
"name": 'Netscaler',
"displaytext": 'Netscaler',
"guestiptype": 'Isolated',
"supportedservices": 'Dhcp,Dns,SourceNat,PortForwarding,Vpn,Firewall,Lb,UserData,StaticNat',
"traffictype": 'GUEST',
"availability": 'Optional',
"serviceProviderList": {
"Dhcp": 'VirtualRouter',
"Dns": 'VirtualRouter',
"SourceNat": 'VirtualRouter',
"PortForwarding": 'VirtualRouter',
"Vpn": 'VirtualRouter',
"Firewall": 'VirtualRouter',
"Lb": 'Netscaler',
"UserData": 'VirtualRouter',
"StaticNat": 'VirtualRouter',
},
},
"network": {
"name": "Netscaler",
"displaytext": "Netscaler",
},
"lbrule": {
"name": "SSH",
"alg": "roundrobin",
# Algorithm used for load balancing
"privateport": 22,
"publicport": 22,
"openfirewall": False,
},
"lbrule_port_2221": {
"name": "SSH",
"alg": "leastconn",
# Algorithm used for load balancing
"privateport": 22,
"publicport": 2221,
"openfirewall": False,
},
"natrule": {
"privateport": 22,
"publicport": 22,
"protocol": "TCP"
},
"natrule_port_66": {
"privateport": 22,
"publicport": 66,
"protocol": "TCP"
},
"fw_rule": {
"startport": 1,
"endport": 6000,
"cidr": '55.55.0.0/11',
# Any network (For creating FW rule)
},
"ostype": 'CentOS 5.3 (64-bit)',
# Cent OS 5.3 (64 bit)
"sleep": 60,
"timeout": 10,
}
class TestAddMultipleNetScaler(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.testClient = super(TestAddMultipleNetScaler, cls).getClsTestClient()
cls.api_client = cls.testClient.getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client)
cls.zone = get_zone(cls.api_client, cls.testClient.getZoneForTests())
cls._cleanup = []
return
@classmethod
def tearDownClass(cls):
try:
#Cleanup resources used
cleanup_resources(cls.api_client, cls._cleanup)
except Exception as e:
raise Exception("Warning: Exception during cleanup : %s" % e)
return
def setUp(self):
self.apiclient = self.testClient.getApiClient()
self.dbclient = self.testClient.getDbConnection()
self.cleanup = []
return
def tearDown(self):
try:
self.debug("Cleaning up the resources")
#Clean up, terminate the created network offerings
cleanup_resources(self.apiclient, self.cleanup)
self.debug("Cleanup complete!")
except Exception as e:
raise Exception("Warning: Exception during cleanup : %s" % e)
return
@attr(tags = ["advancedns"])
def test_add_netscaler_device(self):
"""Test add netscaler device
"""
# Validate the following
# 1. Add multiple instances of netscaler
# 2. Netscaler should be configured successfully.
physical_networks = PhysicalNetwork.list(
self.apiclient,
zoneid=self.zone.id
)
self.assertEqual(
isinstance(physical_networks, list),
True,
"There should be atleast one physical network for advanced zone"
)
physical_network = physical_networks[0]
self.debug("Adding netscaler device: %s" %
self.services["netscaler_1"]["ipaddress"])
netscaler_1 = NetScaler.add(
self.apiclient,
self.services["netscaler_1"],
physicalnetworkid=physical_network.id
)
self.cleanup.append(netscaler_1)
self.debug("Checking if Netscaler network service provider is enabled?")
nw_service_providers = NetworkServiceProvider.list(
self.apiclient,
name='Netscaler',
physicalnetworkid=physical_network.id
)
self.assertEqual(
isinstance(nw_service_providers, list),
True,
"Network service providers list should not be empty"
)
netscaler_provider = nw_service_providers[0]
if netscaler_provider.state != 'Enabled':
self.debug("Netscaler provider is not enabled. Enabling it..")
response = NetworkServiceProvider.update(
self.apiclient,
id=netscaler_provider.id,
state='Enabled'
)
self.assertEqual(
response.state,
"Enabled",
"Network service provider should be in enabled state"
)
else:
self.debug("Netscaler service provider is already enabled.")
ns_list = NetScaler.list(
self.apiclient,
lbdeviceid=netscaler_1.lbdeviceid
)
self.assertEqual(
isinstance(ns_list, list),
True,
"NetScaler list should not be empty"
)
ns = ns_list[0]
self.assertEqual(
ns.lbdevicededicated,
False,
"NetScaler device is configured in shared mode"
)
self.assertEqual(
ns.lbdevicestate,
"Enabled",
"NetScaler device state should be enabled"
)
self.assertEqual(
ns.physicalnetworkid,
physical_network.id,
"Physical network id should match with the network in which device is configured"
)
self.debug("Adding netscaler device: %s" %
self.services["netscaler_2"]["ipaddress"])
netscaler_2 = NetScaler.add(
self.apiclient,
self.services["netscaler_2"],
physicalnetworkid=physical_network.id
)
self.cleanup.append(netscaler_2)
ns_list = NetScaler.list(
self.apiclient,
lbdeviceid=netscaler_1.lbdeviceid
)
self.assertEqual(
isinstance(ns_list, list),
True,
"NetScaler list should not be empty"
)
ns = ns_list[0]
self.assertEqual(
ns.lbdevicededicated,
False,
"NetScaler device is configured in shared mode"
)
self.assertEqual(
ns.lbdevicestate,
"Enabled",
"NetScaler device state should be enabled"
)
self.assertEqual(
ns.physicalnetworkid,
physical_network.id,
"Physical network id should match with the network in which device is configured"
)
self.debug("Another Netscaler device is added!")
return
class TestAddMultipleNSDiffZone(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = super(
TestAddMultipleNSDiffZone,
cls
).getClsTestClient().getApiClient()
cls.services = Services().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:
self.debug("Cleaning up the resources")
#Clean up, terminate the created network offerings
cleanup_resources(self.apiclient, self.cleanup)
self.debug("Cleanup complete!")
except Exception as e:
raise Exception("Warning: Exception during cleanup : %s" % e)
return
@attr(tags = ["advancedns", "multizone"])
def test_add_mul_netscaler_diff_zone(self):
"""Test add netscaler devices in different zones
"""
# Validate the following
# 1. Add multiple instances of Netscaler in different zones
# 2. Netscaler should be configured successfully.
# Check if there are multiple zones present in the given setup
zones = Zone.list(self.apiclient, listall=True)
self.assertEqual(
isinstance(zones, list),
True,
"List Zones API should return a valid list"
)
# Find the number of zones configured in advanced mode
zone_list = []
for zone in zones:
if zone.networktype == 'Advanced':
zone_list.append(zone)
self.assertGreater(
len(zone_list),
1,
"Atleast 2 advanced mode zones should be present for this test"
)
zoneid=zone_list[0].id
physical_networks = PhysicalNetwork.list(
self.apiclient,
zoneid=zone_list[0].id
)
self.assertEqual(
isinstance(physical_networks, list),
True,
"There should be atleast one physical network for advanced zone"
)
self.debug("Adding netscaler device: %s" %
self.services["netscaler_1"]["ipaddress"])
netscaler_1 = add_netscaler(self.apiclient, zoneid, self.services["netscaler_1"])
self.cleanup.append(netscaler_1)
physical_network = physical_networks[0]
ns_list = NetScaler.list(
self.apiclient,
lbdeviceid=netscaler_1.lbdeviceid
)
self.assertEqual(
isinstance(ns_list, list),
True,
"NetScaler list should not be empty"
)
ns = ns_list[0]
self.assertEqual(
ns.lbdevicededicated,
False,
"NetScaler device is configured in shared mode"
)
self.assertEqual(
ns.lbdevicestate,
"Enabled",
"NetScaler device state should be enabled"
)
self.assertEqual(
ns.physicalnetworkid,
physical_network.id,
"Physical network id should match with the network in which device is configured"
)
physical_networks = PhysicalNetwork.list(
self.apiclient,
zoneid=zone_list[1].id
)
zoneid=zone_list[1].id
self.assertEqual(
isinstance(physical_networks, list),
True,
"There should be atleast one physical network for advanced zone"
)
physical_network = physical_networks[0]
self.debug("Adding netscaler device: %s" %
self.services["netscaler_2"]["ipaddress"])
netscaler_2 = add_netscaler(self.apiclient, zoneid, self.services["netscaler_2"])
self.cleanup.append(netscaler_2)
ns_list = NetScaler.list(
self.apiclient,
lbdeviceid=netscaler_2.lbdeviceid
)
self.assertEqual(
isinstance(ns_list, list),
True,
"NetScaler list should not be empty"
)
ns = ns_list[0]
self.assertEqual(
ns.lbdevicededicated,
False,
"NetScaler device is configured in shared mode"
)
self.assertEqual(
ns.lbdevicestate,
"Enabled",
"NetScaler device state should be enabled"
)
self.assertEqual(
ns.physicalnetworkid,
physical_network.id,
"Physical network id should match with the network in which device is configured"
)
self.debug("Another Netscaler device is added!")
return
class TestNetScalerSharedMode(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.testClient = super(TestNetScalerSharedMode, cls).getClsTestClient()
cls.api_client = cls.testClient.getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client)
cls.zone = get_zone(cls.api_client, cls.testClient.getZoneForTests())
cls.template = get_template(
cls.api_client,
cls.zone.id,
cls.services["ostype"]
)
physical_networks = PhysicalNetwork.list(
cls.api_client,
zoneid=cls.zone.id
)
if isinstance(physical_networks, list):
cls.physical_network = physical_networks[0]
cls.services["netscaler_1"]["lbdevicecapacity"] = 2
cls.netscaler_1 = NetScaler.add(
cls.api_client,
cls.services["netscaler_1"],
physicalnetworkid=cls.physical_network.id
)
nw_service_providers = NetworkServiceProvider.list(
cls.api_client,
name='Netscaler',
physicalnetworkid=cls.physical_network.id
)
if isinstance(nw_service_providers, list):
netscaler_provider = nw_service_providers[0]
if netscaler_provider.state != 'Enabled':
response = NetworkServiceProvider.update(
cls.api_client,
id=netscaler_provider.id,
state='Enabled'
)
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.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.account_1 = Account.create(
cls.api_client,
cls.services["account"],
admin=True,
domainid=cls.domain.id
)
cls.account_2 = Account.create(
cls.api_client,
cls.services["account"],
admin=True,
domainid=cls.domain.id
)
cls.account_3 = Account.create(
cls.api_client,
cls.services["account"],
admin=True,
domainid=cls.domain.id
)
cls.account_4 = Account.create(
cls.api_client,
cls.services["account"],
admin=True,
domainid=cls.domain.id
)
cls.account_5 = Account.create(
cls.api_client,
cls.services["account"],
admin=True,
domainid=cls.domain.id
)
cls._cleanup = [
cls.service_offering,
cls.account_1,
cls.account_2,
cls.account_3,
cls.account_5,
]
cls.cleanup_devices = [cls.netscaler_1]
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:
self.debug("Cleaning up the resources")
#Clean up, terminate the created network offerings
cleanup_resources(self.apiclient, self.cleanup)
self.debug("Cleanup complete!")
except Exception as e:
raise Exception("Warning: Exception during cleanup : %s" % e)
return
@attr(tags = ["advancedns"])
def test_01_netscaler_shared_mode(self):
"""Test netscaler device in shared mode
"""
# Validate the following
# 1. Add Netscaler device in shared mode with capacity 3
# 2. Netscaler should be configured successfully.It should be able to
# service only 3 account.
ns_list = NetScaler.list(
self.apiclient,
lbdeviceid=self.netscaler_1.lbdeviceid
)
self.assertEqual(
isinstance(ns_list, list),
True,
"NetScaler list should not be empty"
)
ns = ns_list[0]
self.assertEqual(
ns.lbdevicededicated,
False,
"NetScaler device is configured in shared mode"
)
self.assertEqual(
ns.lbdevicestate,
"Enabled",
"NetScaler device state should be enabled"
)
# Creating network using the network offering created
self.debug("Creating network with network offering: %s" %
self.network_offering.id)
self.network_1 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_1.name,
domainid=self.account_1.domainid,
networkofferingid=self.network_offering.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_1.id)
self.debug("Deploying VM in account: %s" % self.account_1.name)
# Spawn an instance in that network
virtual_machine_1 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_1.name,
domainid=self.account_1.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_1.id)]
)
self.debug("Deployed VM in network: %s" % self.network_1.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_1.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_1.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
# Creating network using the network offering created
self.debug("Trying to create network with network offering: %s" %
self.network_offering.id)
self.network_2 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_2.name,
domainid=self.account_2.domainid,
networkofferingid=self.network_offering.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_2.id)
self.debug("Deploying VM in account: %s" % self.account_2.name)
# Spawn an instance in that network
virtual_machine_2 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_2.name,
domainid=self.account_2.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_2.id)]
)
self.debug("Deployed VM in network: %s" % self.network_2.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_2.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_2.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
# Creating network using the network offering created
self.debug("Trying to create network with network offering: %s" %
self.network_offering.id)
self.network_3 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_3.name,
domainid=self.account_3.domainid,
networkofferingid=self.network_offering.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_3.id)
self.debug("Deploying VM in account: %s" % self.account_3.name)
with self.assertRaises(Exception):
# Spawn an instance in that network
virtual_machine_3 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_3.name,
domainid=self.account_3.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_3.id)]
)
self.debug("Deploy VM failed as Netscaler device capacity is full!")
return
@attr(tags = ["advancedns"])
def test_02_multiple_netscaler_capacilty(self):
"""Test multiple netscaler devices with limited capacity
"""
# Validate the following
# 1. Add another netscaler device and spawn a new VM again
# 2. VM deployement should be successful
self.debug("Adding another netscaler device: %s" %
self.services["netscaler_2"]["ipaddress"])
self.services["netscaler_2"]["lbdevicecapacity"] = 2
netscaler_2 = NetScaler.add(
self.apiclient,
self.services["netscaler_2"],
physicalnetworkid=self.physical_network.id
)
self.cleanup_devices.append(netscaler_2)
ns_list = NetScaler.list(
self.apiclient,
lbdeviceid=netscaler_2.lbdeviceid
)
self.assertEqual(
isinstance(ns_list, list),
True,
"NetScaler list should not be empty"
)
ns = ns_list[0]
self.assertEqual(
ns.lbdevicededicated,
False,
"NetScaler device is configured in shared mode"
)
self.assertEqual(
ns.lbdevicestate,
"Enabled",
"NetScaler device state should be enabled"
)
self.assertEqual(
ns.physicalnetworkid,
self.physical_network.id,
"Physical network id should match with the network in which device is configured"
)
self.debug("Another Netscaler device is added!")
# Creating network using the network offering created
self.debug("Trying to create network with network offering: %s" %
self.network_offering.id)
networks = Network.list(
self.apiclient,
account=self.account_3.name,
domainid=self.account_3.domainid,
zoneid=self.zone.id,
listall=True
)
self.assertEqual(
isinstance(networks, list),
True,
"Network should be present for the account: %s" %
self.account_3.name
)
self.network_3 = networks[0]
self.debug("Created network with ID: %s" % self.network_3.id)
self.debug("Deploying VM in account: %s" % self.account_3.name)
# Spawn an instance in that network
virtual_machine_3 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_3.name,
domainid=self.account_3.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_3.id)]
)
self.debug("Deployed VM in network: %s" % self.network_3.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_3.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_3.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
return
@attr(tags = ["advancedns"])
def test_03_multiple_netscaler_full_capacilty(self):
"""Test netscaler device with full capacity
"""
# Validate the following
# 1. Spawn multiple instances for utilizing full capacity of Netscaler
# 2. Deploy VM should fail after capacity full in netscaler device
# Creating network using the network offering created
self.debug("Trying to create network with network offering: %s" %
self.network_offering.id)
self.network_4 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_4.name,
domainid=self.account_4.domainid,
networkofferingid=self.network_offering.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_4.id)
self.debug("Deploying VM in account: %s" % self.account_4.name)
# Spawn an instance in that network
virtual_machine_4 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_4.name,
domainid=self.account_4.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_4.id)]
)
self.debug("Deployed VM in network: %s" % self.network_4.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_4.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_4.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
# Creating network using the network offering created
self.debug("Trying to create network with network offering: %s" %
self.network_offering.id)
self.network_5 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_5.name,
domainid=self.account_5.domainid,
networkofferingid=self.network_offering.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_5.id)
self.debug("Deploying VM in account: %s" % self.account_5.name)
with self.assertRaises(Exception):
# Spawn an instance in that network
virtual_machine_5 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_5.name,
domainid=self.account_5.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_5.id)]
)
self.debug("Deploy VM failed as Netscaler device capacity is full!")
return
@attr(configuration = "network.gc")
@attr(tags = ["advancedns"])
def test_04_delete_account_after_capacity_full(self):
"""Test delete and add resouces after netscaler device capacity is full
"""
# Validate the following
# 1. Delete one of the account. Wait till Network.gc.wait &
# network.gc.interval time
# 2. Create an instance from another account
# 3. Deploy instance should succeed
self.debug("Delete account: %s" % self.account_4.name)
self.account_4.delete(self.apiclient)
self.debug("Account: %s is deleted" % self.account_4.name)
interval = list_configurations(
self.apiclient,
name='network.gc.interval'
)
wait = list_configurations(
self.apiclient,
name='network.gc.wait'
)
self.debug("Sleeping for: network.gc.interval + network.gc.wait")
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) + int(wait[0].value))
# Creating network using the network offering created
self.debug("Trying to create network with network offering: %s" %
self.network_offering.id)
self.network_5 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_5.name,
domainid=self.account_5.domainid,
networkofferingid=self.network_offering.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_5.id)
self.debug("Deploying VM in account: %s" % self.account_5.name)
# Spawn an instance in that network
virtual_machine_5 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_5.name,
domainid=self.account_5.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_5.id)]
)
self.debug("Deployed VM in network: %s" % self.network_5.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_5.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_5.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
return
class TestNwOffDedicatedNetscaler(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.testClient = super(TestNwOffDedicatedNetscaler, cls).getClsTestClient()
cls.api_client = cls.testClient.getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client)
cls.zone = get_zone(cls.api_client, cls.testClient.getZoneForTests())
cls.template = get_template(
cls.api_client,
cls.zone.id,
cls.services["ostype"]
)
physical_networks = PhysicalNetwork.list(
cls.api_client,
zoneid=cls.zone.id
)
if isinstance(physical_networks, list):
physical_network = physical_networks[0]
cls.services["netscaler_1"]["lbdevicecapacity"] = 3
cls.netscaler = NetScaler.add(
cls.api_client,
cls.services["netscaler_1"],
physicalnetworkid=physical_network.id
)
nw_service_providers = NetworkServiceProvider.list(
cls.api_client,
name='Netscaler',
physicalnetworkid=physical_network.id
)
if isinstance(nw_service_providers, list):
netscaler_provider = nw_service_providers[0]
if netscaler_provider.state != 'Enabled':
response = NetworkServiceProvider.update(
cls.api_client,
id=netscaler_provider.id,
state='Enabled'
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering_dedicated"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
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._cleanup = [
cls.service_offering,
cls.netscaler,
]
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_1 = Account.create(
self.apiclient,
self.services["account"],
admin=True,
domainid=self.domain.id
)
self.cleanup = [self.account_1]
return
def tearDown(self):
try:
self.debug("Cleaning up the resources")
#Clean up, terminate the created network offerings
cleanup_resources(self.apiclient, self.cleanup)
interval = list_configurations(
self.apiclient,
name='network.gc.interval'
)
wait = list_configurations(
self.apiclient,
name='network.gc.wait'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) + int(wait[0].value))
self.debug("Cleanup complete!")
except Exception as e:
raise Exception("Warning: Exception during cleanup : %s" % e)
return
@attr(tags = ["advancedns"])
def test_nw_off_dedicated_mode(self):
"""Test network offering in dedicated mode device
"""
# Validate the following
# 1. Add Netscaler device in shared mode
# 2. Create a network offering in dedicated mode.
# 3. Try to implemenent network with that network offering. Network
# craetion should fail.
ns_list = NetScaler.list(
self.apiclient,
lbdeviceid=self.netscaler.lbdeviceid
)
self.assertEqual(
isinstance(ns_list, list),
True,
"NetScaler list should not be empty"
)
ns = ns_list[0]
self.assertEqual(
ns.lbdevicededicated,
False,
"NetScaler device is configured in shared mode"
)
self.assertEqual(
ns.lbdevicestate,
"Enabled",
"NetScaler device state should be enabled"
)
# Creating network using the network offering created
self.debug("Creating network with network offering: %s" %
self.network_offering.id)
self.network_1 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_1.name,
domainid=self.account_1.domainid,
networkofferingid=self.network_offering.id,
zoneid=self.zone.id
)
self.debug("Deploy Instance with network: %s" % self.network_1.name)
with self.assertRaises(Exception):
# Spawn an instance in that network
VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_1.name,
domainid=self.account_1.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_1.id)]
)
self.debug("Created instance failed!")
return
class TestNwOffNetscaler(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.testClient = super(TestNwOffNetscaler, cls).getClsTestClient()
cls.api_client = cls.testClient.getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client)
cls.zone = get_zone(cls.api_client, cls.testClient.getZoneForTests())
cls.template = get_template(
cls.api_client,
cls.zone.id,
cls.services["ostype"]
)
physical_networks = PhysicalNetwork.list(
cls.api_client,
zoneid=cls.zone.id
)
if isinstance(physical_networks, list):
physical_network = physical_networks[0]
cls.services["netscaler_1"]["lbdevicecapacity"] = 3
cls.netscaler_1 = NetScaler.add(
cls.api_client,
cls.services["netscaler_1"],
physicalnetworkid=physical_network.id
)
cls.services["netscaler_2"].pop("lbdevicecapacity")
cls.services["netscaler_2"]["lbdevicededicated"] = True
cls.netscaler_2 = NetScaler.add(
cls.api_client,
cls.services["netscaler_2"],
physicalnetworkid=physical_network.id
)
nw_service_providers = NetworkServiceProvider.list(
cls.api_client,
name='Netscaler',
physicalnetworkid=physical_network.id
)
if isinstance(nw_service_providers, list):
netscaler_provider = nw_service_providers[0]
if netscaler_provider.state != 'Enabled':
response = NetworkServiceProvider.update(
cls.api_client,
id=netscaler_provider.id,
state='Enabled'
)
cls.network_offering = NetworkOffering.create(
cls.api_client,
cls.services["network_offering_dedicated"],
conservemode=True
)
cls.network_offering_shared = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering.update(cls.api_client, state='Enabled')
cls.network_offering_shared.update(cls.api_client, state='Enabled')
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._cleanup = [
cls.service_offering,
cls.netscaler_1,
cls.netscaler_2,
]
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_1 = Account.create(
self.apiclient,
self.services["account"],
admin=True,
domainid=self.domain.id
)
self.account_2 = Account.create(
self.apiclient,
self.services["account"],
admin=True,
domainid=self.domain.id
)
self.account_3 = Account.create(
self.apiclient,
self.services["account"],
admin=True,
domainid=self.domain.id
)
self.cleanup = [self.account_2, self.account_3]
return
def tearDown(self):
try:
self.debug("Cleaning up the resources")
#Clean up, terminate the created network offerings
cleanup_resources(self.apiclient, self.cleanup)
interval = list_configurations(
self.apiclient,
name='network.gc.interval'
)
wait = list_configurations(
self.apiclient,
name='network.gc.wait'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) + int(wait[0].value))
self.debug("Cleanup complete!")
except Exception as e:
raise Exception("Warning: Exception during cleanup : %s" % e)
return
@attr(tags = ["advancedns"])
def test_ns_shared_nw_dedicated(self):
"""Test netscaler device in shared mode with network offering in dedicated mode
"""
# Validate the following
# 1. Add Netscaler device in shared mode
# 2. Create a network offering in dedicated mode.
# 3. Try to implemenent network with that network offering. Network
# craetion should fail.
ns_list = NetScaler.list(
self.apiclient,
lbdeviceid=self.netscaler_1.lbdeviceid
)
self.assertEqual(
isinstance(ns_list, list),
True,
"NetScaler list should not be empty"
)
ns = ns_list[0]
self.assertEqual(
ns.lbdevicededicated,
False,
"NetScaler device is configured in shared mode"
)
self.assertEqual(
ns.lbdevicestate,
"Enabled",
"NetScaler device state should be enabled"
)
# 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_1.name,
domainid=self.account_1.domainid,
networkofferingid=self.network_offering.id,
zoneid=self.zone.id
)
self.debug("Deploying VM in account: %s" % self.account_1.name)
virtual_machine = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_1.name,
domainid=self.account_1.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network.id)]
)
# Creating network using the network offering created
self.debug("Creating different network with network offering: %s" %
self.network_offering.id)
self.network_2 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_2.name,
domainid=self.account_2.domainid,
networkofferingid=self.network_offering.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_2.id)
with self.assertRaises(Exception):
VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_2.name,
domainid=self.account_2.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_2.id)]
)
self.debug(
"Attempt to create second network with dedicated network offering failed!")
self.debug("Deleting account: %s" % self.account_1.name)
self.account_1.delete(self.apiclient)
self.debug("Account: %s deleted!" % self.account_1.name)
interval = list_configurations(
self.apiclient,
name='network.gc.interval'
)
wait = list_configurations(
self.apiclient,
name='network.gc.wait'
)
self.debug("Sleeping for: network.gc.interval + network.gc.wait")
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) + int(wait[0].value))
self.debug("Deploying VM in account: %s" % self.account_2.name)
# Spawn an instance in that network
virtual_machine_2 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_2.name,
domainid=self.account_2.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_2.id)]
)
self.debug("Deployed VM in network: %s" % self.network_2.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_2.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_2.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
# Creating network using the network offering created
self.debug("Trying to create network with network offering: %s" %
self.network_offering_shared.id)
self.network_3 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_3.name,
domainid=self.account_3.domainid,
networkofferingid=self.network_offering_shared.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_3.id)
self.debug("Deploying VM in account: %s" % self.account_3.name)
# Spawn an instance in that network
virtual_machine_3 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_3.name,
domainid=self.account_3.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_3.id)]
)
self.debug("Deployed VM in network: %s" % self.network_3.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_3.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_3.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
return
class TestNwOffSToDUpgrade(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.testClient = super(TestNwOffSToDUpgrade, cls).getClsTestClient()
cls.api_client = cls.testClient.getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client)
cls.zone = get_zone(cls.api_client, cls.testClient.getZoneForTests())
cls.template = get_template(
cls.api_client,
cls.zone.id,
cls.services["ostype"]
)
physical_networks = PhysicalNetwork.list(
cls.api_client,
zoneid=cls.zone.id
)
if isinstance(physical_networks, list):
cls.physical_network = physical_networks[0]
cls.services["netscaler_1"]["lbdevicecapacity"] = 3
cls.netscaler_1 = NetScaler.add(
cls.api_client,
cls.services["netscaler_1"],
physicalnetworkid=cls.physical_network.id
)
cls.services["netscaler_2"].pop("lbdevicecapacity")
cls.services["netscaler_2"]["lbdevicededicated"] = True
cls.netscaler_2 = NetScaler.add(
cls.api_client,
cls.services["netscaler_2"],
physicalnetworkid=cls.physical_network.id
)
nw_service_providers = NetworkServiceProvider.list(
cls.api_client,
name='Netscaler',
physicalnetworkid=cls.physical_network.id
)
if isinstance(nw_service_providers, list):
netscaler_provider = nw_service_providers[0]
if netscaler_provider.state != 'Enabled':
response = NetworkServiceProvider.update(
cls.api_client,
id=netscaler_provider.id,
state='Enabled'
)
cls.network_offering_dedicated = NetworkOffering.create(
cls.api_client,
cls.services["network_offering_dedicated"],
conservemode=True
)
cls.network_offering_shared = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering_dedicated.update(cls.api_client, state='Enabled')
cls.network_offering_shared.update(cls.api_client, state='Enabled')
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._cleanup = [
cls.service_offering,
cls.netscaler_1,
cls.netscaler_2,
]
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_1 = Account.create(
self.apiclient,
self.services["account"],
admin=True,
domainid=self.domain.id
)
self.account_2 = Account.create(
self.apiclient,
self.services["account"],
admin=True,
domainid=self.domain.id
)
self.account_3 = Account.create(
self.apiclient,
self.services["account"],
admin=True,
domainid=self.domain.id
)
self.cleanup = [self.account_1, self.account_2, self.account_3]
return
def tearDown(self):
try:
self.debug("Cleaning up the resources")
#Clean up, terminate the created network offerings
cleanup_resources(self.apiclient, self.cleanup)
interval = list_configurations(
self.apiclient,
name='network.gc.interval'
)
wait = list_configurations(
self.apiclient,
name='network.gc.wait'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) + int(wait[0].value))
self.debug("Cleanup complete!")
except Exception as e:
raise Exception("Warning: Exception during cleanup : %s" % e)
return
@attr(tags = ["advancedns"])
def test_shared_to_dedicated_upgrade(self):
"""Test upgrade from shared LB isolation to dedicated LB isolation"""
# Validate the following
# 1. Create a dedicated and shared network offering
# 2. Configure 2 instances of Netscaler one with dedicated and other
# shared mode
# 3. Deploy instance with shared network offering in account 1. create
# LB rules
# 4. Deploy instance with shared network offering in account 2. create
# LB rules
# 5. Deploy instance with dedicated network offering in account 3.
# Create Lb rules.
# 6. Configure another instace of netscaler in dedicated mode
# 7. upgrade networkj for user 1 to dedicated network offering.
# Create LB rules. LB rule creation should be successful
# Creating network using the network offering created
self.debug("Creating network with network offering: %s" %
self.network_offering_shared.id)
self.network_1 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_1.name,
domainid=self.account_1.domainid,
networkofferingid=self.network_offering_shared.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_1.id)
self.debug("Deploying VM in account: %s" % self.account_1.name)
# Spawn an instance in that network
virtual_machine_1 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_1.name,
domainid=self.account_1.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_1.id)]
)
self.debug("Deployed VM in network: %s" % self.network_1.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_1.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_1.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
# Creating network using the network offering created
self.debug("Trying to create network with network offering: %s" %
self.network_offering_shared.id)
self.network_2 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_2.name,
domainid=self.account_2.domainid,
networkofferingid=self.network_offering_shared.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_2.id)
self.debug("Deploying VM in account: %s" % self.account_2.name)
# Spawn an instance in that network
virtual_machine_2 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_2.name,
domainid=self.account_2.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_2.id)]
)
self.debug("Deployed VM in network: %s" % self.network_2.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_2.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_2.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
# Creating network using the network offering created
self.debug("Trying to create network with network offering: %s" %
self.network_offering_dedicated.id)
self.network_3 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_3.name,
domainid=self.account_3.domainid,
networkofferingid=self.network_offering_dedicated.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_3.id)
self.debug("Deploying VM in account: %s" % self.account_3.name)
# Spawn an instance in that network
virtual_machine_3 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_3.name,
domainid=self.account_3.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_3.id)]
)
self.debug("Deployed VM in network: %s" % self.network_3.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_3.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_3.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
self.debug("Configuring another Netscaler device in dedicated mode")
self.services["netscaler_3"].pop("lbdevicecapacity")
self.services["netscaler_3"]["lbdevicededicated"] = True
self.netscaler_3 = NetScaler.add(
self.apiclient,
self.services["netscaler_3"],
physicalnetworkid=self.physical_network.id
)
self.debug("Stopping All VMs before upgrading network for account: %s" %
self.account_1.name)
virtual_machine_1.stop(self.apiclient)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_1.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_1.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Stopped",
"VM state should be running after deployment"
)
self.debug("All Vms are in stopped state")
self.debug("Upgrading the network: %s" % self.network_1.id)
self.network_1.update(
self.apiclient,
networkofferingid=self.network_offering_dedicated.id,
changecidr=True
)
networks = Network.list(
self.apiclient,
id=self.network_1.id,
listall=True
)
self.assertEqual(
isinstance(networks, list),
True,
"List Networks should return a valid list for given network ID"
)
self.assertNotEqual(
len(networks),
0,
"Length of list networks should not be 0"
)
network = networks[0]
self.assertEqual(
network.networkofferingid,
self.network_offering_dedicated.id,
"Network offering ID should match with new offering ID"
)
self.debug("Starting All VMs after upgrading network for account: %s" %
self.account_1.name)
virtual_machine_1.start(self.apiclient)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_1.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_1.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
self.debug("All Vms are in running state")
try:
self.debug(
"Associating public Ip to the network: %s" %
self.network_1.name)
public_ip = PublicIPAddress.create(
self.apiclient,
accountid=self.account_1.name,
zoneid=self.zone.id,
domainid=self.account_1.domainid,
networkid=self.network_1.id
)
self.debug(
"Creating LB rule for IP address: %s with round robin algo" %
public_ip.ipaddress.ipaddress)
lb_rule = LoadBalancerRule.create(
self.apiclient,
self.services["lbrule"],
ipaddressid=public_ip.ipaddress.id,
accountid=self.account_1.name,
networkid=self.network_1.id
)
self.debug("Created the load balancing rule for public IP: %s" %
public_ip.ipaddress.ipaddress)
except Exception as e:
self.fail("Failed to create load balancing rule - %s" % e)
return
class TestNwOffDToSUpgrade(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.testClient = super(TestNwOffDToSUpgrade, cls).getClsTestClient()
cls.api_client = cls.testClient.getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client)
cls.zone = get_zone(cls.api_client, cls.testClient.getZoneForTests())
cls.template = get_template(
cls.api_client,
cls.zone.id,
cls.services["ostype"]
)
physical_networks = PhysicalNetwork.list(
cls.api_client,
zoneid=cls.zone.id
)
if isinstance(physical_networks, list):
cls.physical_network = physical_networks[0]
cls.services["netscaler_1"]["lbdevicecapacity"] = 3
cls.netscaler_1 = NetScaler.add(
cls.api_client,
cls.services["netscaler_1"],
physicalnetworkid=cls.physical_network.id
)
cls.services["netscaler_2"].pop("lbdevicecapacity")
cls.services["netscaler_2"]["lbdevicededicated"] = True
cls.netscaler_2 = NetScaler.add(
cls.api_client,
cls.services["netscaler_2"],
physicalnetworkid=cls.physical_network.id
)
nw_service_providers = NetworkServiceProvider.list(
cls.api_client,
name='Netscaler',
physicalnetworkid=cls.physical_network.id
)
if isinstance(nw_service_providers, list):
netscaler_provider = nw_service_providers[0]
if netscaler_provider.state != 'Enabled':
response = NetworkServiceProvider.update(
cls.api_client,
id=netscaler_provider.id,
state='Enabled'
)
cls.network_offering_dedicated = NetworkOffering.create(
cls.api_client,
cls.services["network_offering_dedicated"],
conservemode=True
)
cls.network_offering_shared = NetworkOffering.create(
cls.api_client,
cls.services["network_offering"],
conservemode=True
)
# Enable Network offering
cls.network_offering_dedicated.update(cls.api_client, state='Enabled')
cls.network_offering_shared.update(cls.api_client, state='Enabled')
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._cleanup = [
cls.service_offering,
cls.netscaler_1,
cls.netscaler_2,
]
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_1 = Account.create(
self.apiclient,
self.services["account"],
admin=True,
domainid=self.domain.id
)
self.account_2 = Account.create(
self.apiclient,
self.services["account"],
admin=True,
domainid=self.domain.id
)
self.account_3 = Account.create(
self.apiclient,
self.services["account"],
admin=True,
domainid=self.domain.id
)
self.cleanup = [self.account_1, self.account_2, self.account_3]
return
def tearDown(self):
try:
self.debug("Cleaning up the resources")
#Clean up, terminate the created network offerings
cleanup_resources(self.apiclient, self.cleanup)
interval = list_configurations(
self.apiclient,
name='network.gc.interval'
)
wait = list_configurations(
self.apiclient,
name='network.gc.wait'
)
# Sleep to ensure that all resources are deleted
time.sleep(int(interval[0].value) + int(wait[0].value))
self.debug("Cleanup complete!")
except Exception as e:
raise Exception("Warning: Exception during cleanup : %s" % e)
return
@attr(tags = ["advancedns"])
def test_shared_to_dedicated_upgrade(self):
"""Test upgrade from shared LB isolation to dedicated LB isolation"""
# Validate the following
# 1. Create a dedicated and shared network offering
# 2. Configure 2 instances of Netscaler one with dedicated and other
# shared mode
# 3. Deploy instance with shared network offering in account 1. create
# LB rules
# 4. Deploy instance with shared network offering in account 2. create
# LB rules
# 5. Deploy instance with dedicated network offering in account 3.
# Create Lb rules.
# 6. Configure another instace of netscaler in dedicated mode
# 7. upgrade networkj for user 1 to dedicated network offering.
# Create LB rules. LB rule creation should be successful
# Creating network using the network offering created
self.debug("Creating network with network offering: %s" %
self.network_offering_shared.id)
self.network_1 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_1.name,
domainid=self.account_1.domainid,
networkofferingid=self.network_offering_shared.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_1.id)
self.debug("Deploying VM in account: %s" % self.account_1.name)
# Spawn an instance in that network
virtual_machine_1 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_1.name,
domainid=self.account_1.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_1.id)]
)
self.debug("Deployed VM in network: %s" % self.network_1.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_1.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_1.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
# Creating network using the network offering created
self.debug("Trying to create network with network offering: %s" %
self.network_offering_shared.id)
self.network_2 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_2.name,
domainid=self.account_2.domainid,
networkofferingid=self.network_offering_shared.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_2.id)
self.debug("Deploying VM in account: %s" % self.account_2.name)
# Spawn an instance in that network
virtual_machine_2 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_2.name,
domainid=self.account_2.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_2.id)]
)
self.debug("Deployed VM in network: %s" % self.network_2.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_2.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_2.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
# Creating network using the network offering created
self.debug("Trying to create network with network offering: %s" %
self.network_offering_dedicated.id)
self.network_3 = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account_3.name,
domainid=self.account_3.domainid,
networkofferingid=self.network_offering_dedicated.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network_3.id)
self.debug("Deploying VM in account: %s" % self.account_3.name)
# Spawn an instance in that network
virtual_machine_3 = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account_3.name,
domainid=self.account_3.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network_3.id)]
)
self.debug("Deployed VM in network: %s" % self.network_3.id)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_3.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_3.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
self.debug("Stopping all VMs in account: %s" % self.account_3.name)
virtual_machine_3.stop(self.apiclient)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_3.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_3.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Stopped",
"VM state should be stopped"
)
self.debug("All user VMs stopped")
self.debug("Upgrading the network: %s" % self.network_3.id)
self.network_3.update(
self.apiclient,
networkofferingid=self.network_offering_shared.id,
changecidr=True
)
networks = Network.list(
self.apiclient,
id=self.network_3.id,
listall=True
)
self.assertEqual(
isinstance(networks, list),
True,
"List Networks should return a valid list for given network ID"
)
self.assertNotEqual(
len(networks),
0,
"Length of list networks should not be 0"
)
network = networks[0]
self.assertEqual(
network.networkofferingid,
self.network_offering_shared.id,
"Network offering ID should match with new offering ID"
)
self.debug("Starting instances in account: %s" % self.account_3.name)
virtual_machine_3.start(self.apiclient)
list_vm_response = VirtualMachine.list(
self.apiclient,
id=virtual_machine_3.id
)
self.debug(
"Verify listVirtualMachines response for virtual machine: %s" \
% virtual_machine_3.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
vm_response = list_vm_response[0]
self.assertEqual(
vm_response.state,
"Running",
"VM state should be running after deployment"
)
try:
self.debug(
"Associating public Ip to the network: %s" %
self.network_3.name)
public_ip = PublicIPAddress.create(
self.apiclient,
accountid=self.account_3.name,
zoneid=self.zone.id,
domainid=self.account_3.domainid,
networkid=self.network_3.id
)
self.debug(
"Creating LB rule for IP address: %s with round robin algo" %
public_ip.ipaddress.ipaddress)
lb_rule = LoadBalancerRule.create(
self.apiclient,
self.services["lbrule"],
ipaddressid=public_ip.ipaddress.id,
accountid=self.account_3.name,
networkid=self.network_3.id
)
self.debug("Created the load balancing rule for public IP: %s" %
public_ip.ipaddress.ipaddress)
except Exception as e:
self.fail("Failed to create load balancing rule - %s" % e)
return
class TestNOWithNetscaler(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.testClient = super(TestNOWithNetscaler, cls).getClsTestClient()
cls.api_client = cls.testClient.getApiClient()
cls.services = Services().services
# Get Zone, Domain and templates
cls.domain = get_domain(cls.api_client)
cls.zone = get_zone(cls.api_client, cls.testClient.getZoneForTests())
cls.services['mode'] = cls.zone.networktype
cls.template = get_template(
cls.api_client,
cls.zone.id,
cls.services["ostype"]
)
cls.services["virtual_machine"]["zoneid"] = cls.zone.id
cls.services["virtual_machine"]["template"] = cls.template.id
cls._cleanup = []
try:
cls.netscaler = add_netscaler(cls.api_client, cls.zone.id, cls.services["netscaler_1"])
cls._cleanup.append(cls.netscaler)
cls.service_offering = ServiceOffering.create(
cls.api_client,
cls.services["service_offering"]
)
except Exception as e:
cls.tearDownClass()
raise Exception ("Warning: Exception in setUpClass: %s" % e)
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)
cleanup_resources(self.apiclient, self.cleanup)
except Exception as e:
raise Exception("Warning: Exception during cleanup : %s" % e)
return
@attr(tags = ["advancedns"])
def test_01_netoff_without_conserve_mode(self):
"""Test Nw off with Conserve mode off, VR-All services, LB-netscaler
"""
# Validate the following
# 1. Create a Network from the above network offering and deploy a VM.
# 2. On source NAT ipaddress, we should NOT be allowed to add LB rule
# 3. On source NAT ipaddress, we should NOT be allowed to add PF rule
# 4. On an ipaddress that has PF rules, we should NOT be allowed to
# add a LB rules.
# 5. On an ipaddress that has Lb rules , we should NOT allow firewall
# rules to be programmed.
# 6. On an ipaddress that has Lb rules , we should NOT allow PF rules
# to be programmed.
# 7. We should be allowed to program multiple PF rules on the same Ip
# address on different public ports.
# 8. We should be allowed to program multiple LB rules on the same Ip
# address for different public port ranges.
# 9. On source NAT ipaddress, we should NOT be allowed to Enable VPN.
# Create a network offering with all virtual router services enabled
self.debug(
"Creating n/w offering with all services in VR, LB in NS & conserve mode:ON"
)
self.network_offering = NetworkOffering.create(
self.api_client,
self.services["network_offering"],
conservemode=False
)
self.cleanup.append(self.network_offering)
self.debug("Created n/w offering with ID: %s" %
self.network_offering.id)
# Enable Network offering
self.network_offering.update(self.apiclient, state='Enabled')
# Creating network using the network offering created
self.debug("Creating network with network offering: %s" %
self.network_offering.id)
self.network = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=self.network_offering.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network.id)
self.debug("Deploying VM in account: %s" % self.account.name)
# Spawn an instance in that network
virtual_machine = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account.name,
domainid=self.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network.id)]
)
self.debug("Deployed VM in network: %s" % self.network.id)
src_nat_list = PublicIPAddress.list(
self.apiclient,
associatednetworkid=self.network.id,
account=self.account.name,
domainid=self.account.domainid,
listall=True,
issourcenat=True,
)
self.assertEqual(
isinstance(src_nat_list, list),
True,
"List Public IP should return a valid source NAT"
)
self.assertNotEqual(
len(src_nat_list),
0,
"Length of response from listPublicIp should not be 0"
)
src_nat = src_nat_list[0]
self.debug("Trying to create LB rule on source NAT IP: %s" %
src_nat.ipaddress)
# Create Load Balancer rule with source NAT
with self.assertRaises(Exception):
LoadBalancerRule.create(
self.apiclient,
self.services["lbrule"],
ipaddressid=src_nat.id,
accountid=self.account.name
)
self.debug(
"Trying to create a port forwarding rule in source NAT: %s" %
src_nat.ipaddress)
#Create NAT rule
with self.assertRaises(Exception):
NATRule.create(
self.apiclient,
virtual_machine,
self.services["natrule"],
ipaddressid=src_nat.id
)
self.debug("Creating firewall rule on source NAT: %s" %
src_nat.ipaddress)
#Create Firewall rule on source NAT
fw_rule = FireWallRule.create(
self.apiclient,
ipaddressid=src_nat.id,
protocol='TCP',
cidrlist=[self.services["fw_rule"]["cidr"]],
startport=self.services["fw_rule"]["startport"],
endport=self.services["fw_rule"]["endport"]
)
self.debug("Created firewall rule: %s" % fw_rule.id)
fw_rules = FireWallRule.list(
self.apiclient,
id=fw_rule.id
)
self.assertEqual(
isinstance(fw_rules, list),
True,
"List fw rules should return a valid firewall rules"
)
self.assertNotEqual(
len(fw_rules),
0,
"Length of fw rules response should not be zero"
)
self.debug("Associating public IP for network: %s" % self.network.id)
ip_with_nat_rule = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
networkid=self.network.id
)
self.debug("Associated %s with network %s" % (
ip_with_nat_rule.ipaddress,
self.network.id
))
self.debug("Creating PF rule for IP address: %s" %
ip_with_nat_rule.ipaddress)
NATRule.create(
self.apiclient,
virtual_machine,
self.services["natrule"],
ipaddressid=ip_with_nat_rule.ipaddress.id
)
self.debug("Trying to create LB rule on IP with NAT: %s" %
ip_with_nat_rule.ipaddress)
# Create Load Balancer rule on IP already having NAT rule
with self.assertRaises(Exception):
LoadBalancerRule.create(
self.apiclient,
self.services["lbrule"],
ipaddressid=ip_with_nat_rule.ipaddress.id,
accountid=self.account.name
)
self.debug("Creating PF rule with public port: 66")
nat_rule = NATRule.create(
self.apiclient,
virtual_machine,
self.services["natrule_port_66"],
ipaddressid=ip_with_nat_rule.ipaddress.id
)
# Check if NAT rule created successfully
nat_rules = NATRule.list(
self.apiclient,
id=nat_rule.id
)
self.assertEqual(
isinstance(nat_rules, list),
True,
"List NAT rules should return valid list"
)
self.debug("Associating public IP for network: %s" % self.network.id)
ip_with_lb_rule = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
networkid=self.network.id
)
self.debug("Associated %s with network %s" % (
ip_with_lb_rule.ipaddress,
self.network.id
))
self.debug("Creating LB rule for IP address: %s" %
ip_with_lb_rule.ipaddress)
LoadBalancerRule.create(
self.apiclient,
self.services["lbrule"],
ipaddressid=ip_with_lb_rule.ipaddress.id,
accountid=self.account.name,
networkid=self.network.id
)
self.debug("Trying to create PF rule on IP with LB rule: %s" %
ip_with_nat_rule.ipaddress)
with self.assertRaises(Exception):
NATRule.create(
self.apiclient,
virtual_machine,
self.services["natrule"],
ipaddressid=ip_with_lb_rule.ipaddress.id
)
self.debug("Trying to create FW rule on IP with LB rule")
with self.assertRaises(Exception):
FireWallRule.create(
self.apiclient,
ipaddressid=src_nat.id,
protocol='TCP',
cidrlist=[self.services["fw_rule"]["cidr"]],
startport=self.services["fw_rule"]["startport"],
endport=self.services["fw_rule"]["endport"]
)
self.debug("Creating LB rule with public port: 2221")
lb_rule = LoadBalancerRule.create(
self.apiclient,
self.services["lbrule_port_2221"],
ipaddressid=ip_with_lb_rule.ipaddress.id,
accountid=self.account.name,
networkid=self.network.id
)
# Check if NAT rule created successfully
lb_rules = LoadBalancerRule.list(
self.apiclient,
id=lb_rule.id
)
self.assertEqual(
isinstance(lb_rules, list),
True,
"List LB rules should return valid list"
)
# User should be able to enable VPN on source NAT
self.debug("Enabling VPN on source NAT IP: %s" % src_nat.ipaddress)
# Assign VPN to source NAT
with self.assertRaises(Exception):
Vpn.create(
self.apiclient,
src_nat.id,
account=self.account.name,
domainid=self.account.domainid
)
return
@attr(tags = ["advancedns"])
def test_02_net_off_conserve_mode_ns(self):
"""Test NW off with Conserve mode ON, LB-Netscaler and VR-All services
"""
# Validate the following
# 1. Create a Network from the above network offering and deploy a VM.
# 2. On source NAT ipaddress, we should NOT be allowed to add LB rule
# 3. On source NAT ipaddress, we should be allowed to add PF rule and
# Fierwall rules.
# 4. On an ipaddress that has PF rules, we should NOT be allowed to
# add a LB rules.
# 5. On an ipaddress that has Lb rules , we should NOT allow firewall
# rules to be programmed.
# 6. On an ipaddress that has Lb rules , we should NOT allow PF rules
# to be programmed.
# 7. We should be allowed to program multiple PF rules on the same Ip
# address on different public ports.
# 8. We should be allowed to program multiple LB rules on the same Ip
# address for different public port ranges.
# 9. On source NAT ipaddress, we should be allowed to Enable VPN.
# Create a network offering with all virtual router services enabled
self.debug(
"Creating n/w offering with all services in VR & conserve mode:ON"
)
self.network_offering = NetworkOffering.create(
self.api_client,
self.services["network_offering"],
conservemode=True
)
self.cleanup.append(self.network_offering)
self.debug("Created n/w offering with ID: %s" %
self.network_offering.id)
# Enable Network offering
self.network_offering.update(self.apiclient, state='Enabled')
# Creating network using the network offering created
self.debug("Creating network with network offering: %s" %
self.network_offering.id)
self.network = Network.create(
self.apiclient,
self.services["network"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=self.network_offering.id,
zoneid=self.zone.id
)
self.debug("Created network with ID: %s" % self.network.id)
self.debug("Deploying VM in account: %s" % self.account.name)
# Spawn an instance in that network
virtual_machine = VirtualMachine.create(
self.apiclient,
self.services["virtual_machine"],
accountid=self.account.name,
domainid=self.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=[str(self.network.id)]
)
self.debug("Deployed VM in network: %s" % self.network.id)
src_nat_list = PublicIPAddress.list(
self.apiclient,
associatednetworkid=self.network.id,
account=self.account.name,
domainid=self.account.domainid,
listall=True,
issourcenat=True,
)
self.assertEqual(
isinstance(src_nat_list, list),
True,
"List Public IP should return a valid source NAT"
)
self.assertNotEqual(
len(src_nat_list),
0,
"Length of response from listPublicIp should not be 0"
)
src_nat = src_nat_list[0]
self.debug("Trying to create LB rule on source NAT IP: %s" %
src_nat.ipaddress)
# Create Load Balancer rule with source NAT
with self.assertRaises(Exception):
LoadBalancerRule.create(
self.apiclient,
self.services["lbrule"],
ipaddressid=src_nat.id,
accountid=self.account.name
)
self.debug(
"Trying to create a port forwarding rule in source NAT: %s" %
src_nat.ipaddress)
#Create NAT rule
nat_rule = NATRule.create(
self.apiclient,
virtual_machine,
self.services["natrule"],
ipaddressid=src_nat.id
)
self.debug("Created PF rule on source NAT: %s" % src_nat.ipaddress)
nat_rules = NATRule.list(
self.apiclient,
id=nat_rule.id
)
self.assertEqual(
isinstance(nat_rules, list),
True,
"List NAT should return a valid port forwarding rules"
)
self.assertNotEqual(
len(nat_rules),
0,
"Length of response from listLbRules should not be 0"
)
self.debug("Creating firewall rule on source NAT: %s" %
src_nat.ipaddress)
#Create Firewall rule on source NAT
fw_rule = FireWallRule.create(
self.apiclient,
ipaddressid=src_nat.id,
protocol='TCP',
cidrlist=[self.services["fw_rule"]["cidr"]],
startport=self.services["fw_rule"]["startport"],
endport=self.services["fw_rule"]["endport"]
)
self.debug("Created firewall rule: %s" % fw_rule.id)
fw_rules = FireWallRule.list(
self.apiclient,
id=fw_rule.id
)
self.assertEqual(
isinstance(fw_rules, list),
True,
"List fw rules should return a valid firewall rules"
)
self.assertNotEqual(
len(fw_rules),
0,
"Length of fw rules response should not be zero"
)
self.debug("Associating public IP for network: %s" % self.network.id)
ip_with_nat_rule = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
networkid=self.network.id
)
self.debug("Associated %s with network %s" % (
ip_with_nat_rule.ipaddress,
self.network.id
))
self.debug("Creating PF rule for IP address: %s" %
ip_with_nat_rule.ipaddress)
NATRule.create(
self.apiclient,
virtual_machine,
self.services["natrule"],
ipaddressid=ip_with_nat_rule.ipaddress.id
)
self.debug("Trying to create LB rule on IP with NAT: %s" %
ip_with_nat_rule.ipaddress)
# Create Load Balancer rule on IP already having NAT rule
with self.assertRaises(Exception):
LoadBalancerRule.create(
self.apiclient,
self.services["lbrule"],
ipaddressid=ip_with_nat_rule.ipaddress.id,
accountid=self.account.name
)
self.debug("Creating PF rule with public port: 66")
nat_rule = NATRule.create(
self.apiclient,
virtual_machine,
self.services["natrule_port_66"],
ipaddressid=ip_with_nat_rule.ipaddress.id
)
# Check if NAT rule created successfully
nat_rules = NATRule.list(
self.apiclient,
id=nat_rule.id
)
self.assertEqual(
isinstance(nat_rules, list),
True,
"List NAT rules should return valid list"
)
self.debug("Associating public IP for network: %s" % self.network.id)
ip_with_lb_rule = PublicIPAddress.create(
self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
networkid=self.network.id
)
self.debug("Associated %s with network %s" % (
ip_with_lb_rule.ipaddress,
self.network.id
))
self.debug("Creating LB rule for IP address: %s" %
ip_with_lb_rule.ipaddress)
LoadBalancerRule.create(
self.apiclient,
self.services["lbrule"],
ipaddressid=ip_with_lb_rule.ipaddress.id,
accountid=self.account.name,
networkid=self.network.id
)
self.debug("Trying to create PF rule on IP with LB rule: %s" %
ip_with_nat_rule.ipaddress)
with self.assertRaises(Exception):
NATRule.create(
self.apiclient,
virtual_machine,
self.services["natrule"],
ipaddressid=ip_with_lb_rule.ipaddress.id
)
self.debug("Trying to create FW rule on IP with LB rule")
with self.assertRaises(Exception):
FireWallRule.create(
self.apiclient,
ipaddressid=src_nat.id,
protocol='TCP',
cidrlist=[self.services["fw_rule"]["cidr"]],
startport=self.services["fw_rule"]["startport"],
endport=self.services["fw_rule"]["endport"]
)
self.debug("Creating LB rule with public port: 2221")
lb_rule = LoadBalancerRule.create(
self.apiclient,
self.services["lbrule_port_2221"],
ipaddressid=ip_with_lb_rule.ipaddress.id,
accountid=self.account.name,
networkid=self.network.id
)
# Check if NAT rule created successfully
lb_rules = LoadBalancerRule.list(
self.apiclient,
id=lb_rule.id
)
self.assertEqual(
isinstance(lb_rules, list),
True,
"List LB rules should return valid list"
)
# User should be able to enable VPN on source NAT
self.debug("Created VPN with source NAT IP: %s" % src_nat.ipaddress)
# Assign VPN to source NAT
vpn = Vpn.create(
self.apiclient,
src_nat.id,
account=self.account.name,
domainid=self.account.domainid
)
vpns = Vpn.list(
self.apiclient,
publicipid=src_nat.id,
listall=True,
)
self.assertEqual(
isinstance(vpns, list),
True,
"List VPNs should return a valid VPN list"
)
self.assertNotEqual(
len(vpns),
0,
"Length of list VNP response should not be zero"
)
return
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