def setUpClass(cls):
cls.logger = MarvinLog('test').getLogger()
test_client = super(TestVpcVpn, cls).getClsTestClient()
cls.apiclient = test_client.getApiClient()
cls.services = Services().services
cls.zone = get_zone(cls.apiclient, test_client.getZoneForTests())
cls.domain = get_domain(cls.apiclient)
cls.compute_offering = ServiceOffering.create(
cls.apiclient, cls.services["compute_offering"])
cls.account = Account.create(cls.apiclient,
services=cls.services["account"])
cls.logger.debug("Successfully created account: %s, id: %s" %
(cls.account.name, cls.account.id))
cls.hypervisor = test_client.getHypervisorInfo()
cls._cleanup = [cls.account, cls.compute_offering]
cls.template = get_template(cls.apiclient, cls.zone.id)
cls.logger.debug("Retrieving default Network offering for VPCs")
cls.network_offerings = NetworkOffering.list(
cls.apiclient, name="DefaultIsolatedNetworkOfferingForVpcNetworks")
if cls.network_offerings is None or len(cls.network_offerings) <= 0:
raise Exception("No VPC based network offering")
return
def validate_network_offering(self, net_offering, state=None):
"""Validates the Network offering"""
self.debug("Check if the Network offering is created successfully ?")
net_offs = NetworkOffering.list(self.api_client, id=net_offering.id)
self.assertEqual(isinstance(net_offs, list), True,
"List Network offering should return a valid list")
self.assertEqual(
net_offering.name, net_offs[0].name,
"Name of the Network offering should match with the returned list data"
)
if state:
self.assertEqual(net_offs[0].state, state,
"Network offering state should be '%s'" % state)
self.debug("Network offering creation successfully validated - %s" %
net_offering.name)
def validate_NetworkOffering(self, net_offering, state=None):
"""Validates the Network offering"""
self.debug("Check if the Network offering is created successfully ?")
net_offs = NetworkOffering.list(self.api_client,
id=net_offering.id
)
self.assertEqual(isinstance(net_offs, list), True,
"List Network offering should return a valid list"
)
self.assertEqual(net_offering.name, net_offs[0].name,
"Name of the Network offering should match with the returned list data"
)
if state:
self.assertEqual(net_offs[0].state, state,
"Network offering state should be in state - %s" % state
)
self.debug("Network offering creation successfully validated for %s" % net_offering.name)
def test_01_create_ipv6_network_offering(self):
"""Test to create network offering
# Validate the following:
# 1. createNetworkOffering should return valid info for new offering
# 2. The Cloud Database contains the valid information
"""
Configurations.update(self.apiclient,
ipv6_offering_config_name,
"true")
ipv6_service = self.services["network_offering"]
ipv6_service["internetprotocol"] = "dualstack"
network_offering = NetworkOffering.create(
self.apiclient,
ipv6_service
)
self.cleanup.append(network_offering)
self.debug("Created Network offering with ID: %s" % network_offering.id)
list_network_off_response = NetworkOffering.list(self.apiclient,
id=network_offering.id)
self.assertEqual(
isinstance(list_network_off_response, list),
True,
"Check list response returns a valid list"
)
self.assertNotEqual(
len(list_network_off_response),
0,
"Check Network offering is created"
)
network_off_response = list_network_off_response[0]
self.assertEqual(
network_off_response.id,
network_offering.id,
"Check server id in listNetworkOfferings"
)
self.assertEqual(
network_off_response.internetprotocol.lower(),
ipv6_service["internetprotocol"].lower(),
"Check internetprotocol in listNetworkOfferings"
)
return
def setUpClass(cls):
cls.logger = logging.getLogger('TestVPCSite2SiteVPN')
cls.stream_handler = logging.StreamHandler()
cls.logger.setLevel(logging.DEBUG)
cls.logger.addHandler(cls.stream_handler)
testClient = super(TestVpcSite2SiteVpn, cls).getClsTestClient()
cls.apiclient = testClient.getApiClient()
cls.services = Services().services
cls.zone = get_zone(cls.apiclient, testClient.getZoneForTests())
cls.domain = get_domain(cls.apiclient)
cls.compute_offering = ServiceOffering.create(
cls.apiclient,
cls.services["compute_offering"]
)
cls.account = Account.create(
cls.apiclient, services=cls.services["account"])
cls.hypervisor = testClient.getHypervisorInfo()
cls.logger.debug("Downloading Template: %s from: %s" % (cls.services["template"][
cls.hypervisor.lower()], cls.services["template"][cls.hypervisor.lower()]["url"]))
cls.template = Template.register(cls.apiclient, cls.services["template"][cls.hypervisor.lower(
)], cls.zone.id, hypervisor=cls.hypervisor.lower(), account=cls.account.name, domainid=cls.domain.id)
cls.template.download(cls.apiclient)
if cls.template == FAILED:
assert False, "get_template() failed to return template"
cls.logger.debug("Successfully created account: %s, id: \
%s" % (cls.account.name,
cls.account.id))
cls.networkoffering = NetworkOffering.list(
cls.apiclient, name="DefaultIsolatedNetworkOfferingForVpcNetworks")
assert cls.networkoffering is not None and len(
cls.networkoffering) > 0, "No VPC based network offering"
cls._cleanup = [cls.template, cls.account, cls.compute_offering]
return
def validate_NetworkOffering(self, net_offering, state=None):
"""Validates the Network offering"""
self.debug("Validating the creation and state of Network offering - %s"
% net_offering.name)
net_offs = NetworkOffering.list(self.api_client,
id=net_offering.id
)
self.assertEqual(isinstance(net_offs, list), True,
"List Network offering should return a valid list"
)
self.assertEqual(net_offering.name, net_offs[0].name,
"Name of the Network offering should match with the "
"returned list data"
)
if state:
self.assertEqual(net_offs[0].state, state,
"Network offering state should be '%s'" % state
)
self.debug("Successfully validated the creation and state of Network "
"offering - %s" % net_offering.name)
def test_15_restore_vm_with_template_id(self):
"""
Test restoring Virtual Machine with template id
"""
noffering = NetworkOffering.list(
self.user_api_client,
name="DefaultIsolatedNetworkOfferingWithSourceNatService")
vm1network = Network.create(self.user_api_client,
self.services["network"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=noffering[0].id,
zoneid=self.zone.id)
list_nw_response = Network.list(self.user_api_client, id=vm1network.id)
self.assertEqual(isinstance(list_nw_response, list), True,
"Check list response returns a valid networks list")
restorevm = VirtualMachine.create(
self.user_api_client,
self.services["small"],
networkids=vm1network.id,
accountid=self.account.name,
domainid=self.account.domainid,
serviceofferingid=self.service_offering.id,
mode=self.services['mode'],
startvm="true")
time.sleep(600)
list_vm_response = VirtualMachine.list(self.user_api_client,
id=restorevm.id)
self.assertEqual(list_vm_response[0].state, "Running",
"Check virtual machine is in running state")
custom_disk_offering = DiskOffering.list(self.user_api_client,
name="custom")
newvolume = Volume.create(self.user_api_client,
self.services["volume"],
zoneid=self.zone.id,
account=self.account.name,
domainid=self.domain.id,
diskofferingid=custom_disk_offering[0].id,
size=1)
# Attach volume to VM
cmd = attachVolume.attachVolumeCmd()
cmd.id = newvolume.id
cmd.virtualmachineid = restorevm.id
cmd.deviceid = 1
vol1 = self.user_api_client.attachVolume(cmd)
cmd = restoreVirtualMachine.restoreVirtualMachineCmd()
cmd.virtualmachineid = restorevm.id
cmd.templateid = self.xtemplate.id
self.user_api_client.restoreVirtualMachine(cmd)
time.sleep(600)
list_vm_response = VirtualMachine.list(self.user_api_client,
id=restorevm.id)
self.assertEqual(isinstance(list_vm_response, list), True,
"Check list response returns a valid list")
self.assertNotEqual(len(list_vm_response), 0,
"Check VM available in List Virtual Machines")
self.assertEqual(list_vm_response[0].state, "Running",
"Check virtual machine is in Stopped state")
restorevm.delete(self.apiclient)
vm1network.delete(self.user_api_client)
return
def test_01_create_delete_portforwarding_fornonvpc(self):
"""
@summary: Test to list, create and delete Port Forwarding for
IP Address associated to Non VPC network
@Steps:
Step1: Creating a Network for the user
Step2: Associating an IP Addresses for Network
Step3: Launching Virtual Machine in network created in step 2
Step4: Listing Port Forwarding Rules for the IP Address associated
in Step2
Step5: Verifying that no Port Forwarding Rules are listed
Step6: Creating a Port Forwarding Rule for IP Address associated in
Step2
Step7: Listing Port Forwarding Rules for the IP Address associated in
Step2
Step8: Verifying 1 Port Forwarding Rule is listed
Step9: Deleting the Port Forwarding Rule created in Step6
Step10: Listing Port Forwarding Rules for the IP Address associated in
Step2
Step11: Verifying that no Port Forwarding Rules are listed
"""
# Listing all the Networks's for a user
list_networks_before = Network.list(
self.userapiclient,
listall=self.services["listall"],
type="Isolated"
)
# Verifying No Networks are listed
self.assertIsNone(
list_networks_before,
"Networks listed for newly created User"
)
# Listing Network Offerings
network_offerings_list = NetworkOffering.list(
self.apiClient,
forvpc="false",
guestiptype="Isolated",
state="Enabled",
supportedservices="SourceNat,PortForwarding",
zoneid=self.zone.id
)
status = validateList(network_offerings_list)
self.assertEquals(
PASS,
status[0],
"Isolated Network Offerings with sourceNat,\
PortForwarding enabled are not found"
)
# Creating a network
network = Network.create(
self.userapiclient,
self.services["network"],
accountid=self.account.name,
domainid=self.domain.id,
networkofferingid=network_offerings_list[0].id,
zoneid=self.zone.id
)
self.assertIsNotNone(
network,
"Network creation failed"
)
# Listing all the IP Addresses for a user
list_ipaddresses_before = PublicIPAddress.list(
self.userapiclient,
listall=self.services["listall"]
)
# Verifying no IP Addresses are listed
self.assertIsNone(
list_ipaddresses_before,
"IP Addresses listed for newly created User"
)
# Associating an IP Addresses to Network created
associated_ipaddress = PublicIPAddress.create(
self.userapiclient,
services=self.services["network"],
networkid=network.id
)
self.assertIsNotNone(
associated_ipaddress,
"Failed to Associate IP Address"
)
# Listing all the IP Addresses for a user
list_ipaddresses_after = PublicIPAddress.list(
self.userapiclient,
listall=self.services["listall"]
)
status = validateList(list_ipaddresses_after)
self.assertEquals(
PASS,
status[0],
"IP Addresses Association Failed"
)
# Verifying the length of the list is 1
self.assertEqual(
1,
len(list_ipaddresses_after),
"Number of IP Addresses associated are not matching expected"
)
# Launching a Virtual Machine with above created Network
vm_created = VirtualMachine.create(
self.userapiclient,
self.services["virtual_machine"],
accountid=self.account.name,
domainid=self.account.domainid,
networkids=network.id,
serviceofferingid=self.service_offering.id,
)
self.assertIsNotNone(
vm_created,
"Failed to launch a VM under network created"
)
self.cleanup.append(network)
# Listing Virtual Machines in running state in above created network
list_vms_running = VirtualMachine.list(
self.userapiclient,
listall=self.services["listall"],
state="Running",
networkid=network.id
)
status = validateList(list_vms_running)
self.assertEquals(
PASS,
status[0],
"VM Created is not in Running state"
)
# Verifying the length of the list is 1
self.assertEqual(
1,
len(list_ipaddresses_after),
"VM Created is not in Running state"
)
self.assertEquals(
vm_created.id,
list_vms_running[0].id,
"VM Created is not in Running state"
)
# Listing Virtual Machines in stopped state in above created network
list_vms_stopped = VirtualMachine.list(
self.userapiclient,
listall=self.services["listall"],
state="Stopped",
networkid=network.id
)
# Verifying no VMs are in stopped state
self.assertIsNone(
list_vms_stopped,
"VM Created is in stopped state"
)
# Listing Port Forwarding Rules for the IP Address associated
list_prtfwdrule_before = NATRule.list(
self.userapiclient,
listall=self.services["listall"],
ipaddressid=associated_ipaddress.ipaddress.id
)
# Verifying no port forwarding rules are listed
self.assertIsNone(
list_prtfwdrule_before,
"Port Forwarding Rules listed for newly associated IP Address"
)
# Creating a Port Forwarding rule
portfwd_rule = NATRule.create(
self.userapiclient,
virtual_machine=vm_created,
services=self.services["natrule"],
ipaddressid=associated_ipaddress.ipaddress.id,
)
self.assertIsNotNone(
portfwd_rule,
"Failed to create Port Forwarding Rule"
)
# Verifying details of Sticky Policy created
# Creating expected and actual values dictionaries
expected_dict = {
"ipaddressid": associated_ipaddress.ipaddress.id,
"privateport": str(self.services["natrule"]["privateport"]),
"publicport": str(self.services["natrule"]["publicport"]),
"protocol": str(self.services["natrule"]["protocol"]).lower(),
}
actual_dict = {
"ipaddressid": portfwd_rule.ipaddressid,
"privateport": str(portfwd_rule.privateport),
"publicport": str(portfwd_rule.publicport),
"protocol": portfwd_rule.protocol,
}
portfwd_status = self.__verify_values(
expected_dict,
actual_dict
)
self.assertEqual(
True,
portfwd_status,
"Created Port Forward Rule details are not as expected"
)
# Listing Port Forwarding Rules for the IP Address associated
list_prtfwdrule_after = NATRule.list(
self.userapiclient,
listall=self.services["listall"],
ipaddressid=associated_ipaddress.ipaddress.id
)
status = validateList(list_prtfwdrule_after)
self.assertEquals(
PASS,
status[0],
"Failed to create Port Forwarding Rule"
)
# Verifying the length of the list is 1
self.assertEqual(
1,
len(list_prtfwdrule_after),
"Failed to create Port Forwarding Rule"
)
# Deleting Port Forwarding Rule
portfwd_rule.delete(self.userapiclient)
# Creating a Port Forwarding rule with port range
portfwd_rule = NATRule.create(
self.userapiclient,
virtual_machine=vm_created,
services=self.services["natrulerange"],
ipaddressid=associated_ipaddress.ipaddress.id,
)
self.assertIsNotNone(
portfwd_rule,
"Failed to create Port Forwarding Rule"
)
#update the private port for port forwarding rule
updatefwd_rule = portfwd_rule.update(self.userapiclient,
portfwd_rule.id,
virtual_machine=vm_created,
services=self.services["updatenatrulerange"],
)
# Verifying details of Sticky Policy created
# Creating expected and actual values dictionaries
expected_dict = {
"privateport": str(self.services["updatenatrulerange"]["privateport"]),
"privateendport": str(self.services["updatenatrulerange"]["privateendport"]),
}
actual_dict = {
"privateport": str(updatefwd_rule.privateport),
"privateendport": str(updatefwd_rule.privateendport),
}
portfwd_status = self.__verify_values(
expected_dict,
actual_dict
)
self.assertEqual(
True,
portfwd_status,
"Updated Port Forward Rule details are not as expected"
)
# Deleting Port Forwarding Rule
portfwd_rule.delete(self.userapiclient)
# Listing Port Forwarding Rules for the IP Address associated
list_prtfwdrule_after = NATRule.list(
self.userapiclient,
listall=self.services["listall"],
ipaddressid=associated_ipaddress.ipaddress.id
)
# Verifying no port forwarding rules are listed
self.assertIsNone(
list_prtfwdrule_after,
"Port Forwarding Rules listed after deletion"
)
# Destroying the VM Launched
vm_created.delete(self.apiClient)
self.cleanup.append(self.account)
return
def test_16_create_template_volume(self):
"""Test Create template from volume
"""
noffering=NetworkOffering.list(
self.user_api_client,
name="DefaultIsolatedNetworkOfferingWithSourceNatService"
)
vm2network=Network.create(
self.user_api_client,
self.services["network"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=noffering[0].id,
zoneid=self.zone.id
)
list_nw_response = Network.list(
self.user_api_client,
id=vm2network.id
)
self.assertEqual(
isinstance(list_nw_response, list),
True,
"Check list response returns a valid networks list"
)
templatevm = VirtualMachine.create(
self.user_api_client,
self.services["small"],
templateid=self.template.id,
accountid=self.account.name,
domainid=self.account.domainid,
networkids=vm2network.id,
serviceofferingid=self.service_offering.id,
mode=self.services['mode'],
startvm="true"
)
time.sleep(600)
vm_response = VirtualMachine.list(
self.user_api_client,
id=templatevm.id)
self.assertNotEqual(
len(vm_response),
0,
"Check VMs available in List VMs response"
)
vm = vm_response[0]
self.assertEqual(
vm.state,
'Running',
"Check the state of VM created from Template"
)
templatevm.stop(self.user_api_client,forced="false")
vm_response = VirtualMachine.list(
self.user_api_client,
id=templatevm.id)
vm = vm_response[0]
self.assertEqual(
vm.state,
'Stopped',
"Check the state of VM is in Stopped state before creating the Template"
)
list_volume_response = Volume.list(
self.user_api_client,
virtualmachineid=vm.id,
type="ROOT",
listall=True
)
#Create template from Virtual machine and Volume ID
roottemplate = Template.create(
self.user_api_client,
self.services["interop"]["template"],
volumeid=list_volume_response[0].id,
account=self.account.name,
domainid=self.domain.id,
)
time.sleep(600)
list_template_response = Template.list(
self.user_api_client,
templatefilter=\
self.services["templatefilter"],
id=roottemplate.id
)
self.assertEqual(
isinstance(list_template_response, list),
True,
"Check list response returns a valid list"
)
#Verify template response to check whether template added successfully
self.assertNotEqual(
len(list_template_response),
0,
"Check template available in List Templates"
)
template_response = list_template_response[0]
self.assertEqual(
template_response.displaytext,
self.services["interop"]["template"]["displaytext"],
"Check display text of newly created template"
)
name = template_response.name
self.assertEqual(
name.count(self.services["interop"]["template"]["name"]),
1,
"Check name of newly created template"
)
templatevm.delete(self.apiclient)
vm2network.delete(self.user_api_client)
vm3network=Network.create(
self.user_api_client,
self.services["network"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=noffering[0].id,
zoneid=self.zone.id
)
list_nw_response = Network.list(
self.user_api_client,
id=vm3network.id
)
self.assertEqual(
isinstance(list_nw_response, list),
True,
"Check list response returns a valid networks list"
)
templatevm = VirtualMachine.create(
self.user_api_client,
self.services["small"],
templateid=roottemplate.id,
networkids=vm3network.id,
serviceofferingid=self.service_offering.id,
accountid=self.account.name,
domainid=self.account.domainid,
mode=self.services['mode'],
startvm="true"
)
time.sleep(600)
vm_response = VirtualMachine.list(
self.user_api_client,
id=templatevm.id)
self.assertNotEqual(
len(vm_response),
0,
"Check VMs available in List VMs response"
)
vm = vm_response[0]
self.assertEqual(
vm.state,
'Running',
"Check the state of VM created from Template"
)
# Delete the template
roottemplate.delete(self.user_api_client)
list_template_response = Template.list(
self.user_api_client,
templatefilter=\
self.services["template"]["templatefilter"],
id=roottemplate.id,
zoneid=self.zone.id
)
self.assertEqual(
list_template_response,
None,
"Check template available in List Templates"
)
templatevm.delete(self.apiclient)
vm3network.delete(self.user_api_client)
return
def test_15_restore_vm_with_template_id(self):
"""
Test restoring Virtual Machine with template id
"""
noffering=NetworkOffering.list(
self.user_api_client,
name="DefaultIsolatedNetworkOfferingWithSourceNatService"
)
vm1network=Network.create(
self.user_api_client,
self.services["network"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=noffering[0].id,
zoneid=self.zone.id
)
list_nw_response = Network.list(
self.user_api_client,
id=vm1network.id
)
self.assertEqual(
isinstance(list_nw_response, list),
True,
"Check list response returns a valid networks list"
)
restorevm = VirtualMachine.create(
self.user_api_client,
self.services["small"],
networkids=vm1network.id,
accountid=self.account.name,
domainid=self.account.domainid,
serviceofferingid=self.service_offering.id,
mode=self.services['mode'],
startvm="true"
)
time.sleep(600)
list_vm_response = VirtualMachine.list(
self.user_api_client,
id=restorevm.id
)
self.assertEqual(
list_vm_response[0].state,
"Running",
"Check virtual machine is in running state"
)
custom_disk_offering=DiskOffering.list(
self.user_api_client,
name="custom"
)
newvolume = Volume.create(
self.user_api_client,
self.services["volume"],
zoneid=self.zone.id,
account=self.account.name,
domainid=self.domain.id,
diskofferingid=custom_disk_offering[0].id,
size=1
)
# Attach volume to VM
cmd = attachVolume.attachVolumeCmd()
cmd.id = newvolume.id
cmd.virtualmachineid = restorevm.id
cmd.deviceid=1
vol1=self.user_api_client.attachVolume(cmd)
cmd = restoreVirtualMachine.restoreVirtualMachineCmd()
cmd.virtualmachineid = restorevm.id
cmd.templateid = self.xtemplate.id
self.user_api_client.restoreVirtualMachine(cmd)
time.sleep(600)
list_vm_response = VirtualMachine.list(
self.user_api_client,
id=restorevm.id
)
self.assertEqual(
isinstance(list_vm_response, list),
True,
"Check list response returns a valid list"
)
self.assertNotEqual(
len(list_vm_response),
0,
"Check VM available in List Virtual Machines"
)
self.assertEqual(
list_vm_response[0].state,
"Running",
"Check virtual machine is in Stopped state"
)
restorevm.delete(self.apiclient)
vm1network.delete(self.user_api_client)
return
def test_19_template_tag(self):
""" Test creation, listing and deletion tag on templates
"""
try:
noffering=NetworkOffering.list(
self.user_api_client,
name="DefaultIsolatedNetworkOfferingWithSourceNatService"
)
vm4network=Network.create(
self.user_api_client,
self.services["network"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=noffering[0].id,
zoneid=self.zone.id
)
list_nw_response = Network.list(
self.user_api_client,
id=vm4network.id
)
self.assertEqual(
isinstance(list_nw_response, list),
True,
"Check list response returns a valid networks list"
)
vm_1 = VirtualMachine.create(
self.user_api_client,
self.services["small"],
templateid=self.template.id,
networkids=vm4network.id,
serviceofferingid=self.service_offering.id,
accountid=self.account.name,
domainid=self.account.domainid,
mode=self.services['mode'],
startvm="true"
)
time.sleep(600)
self.debug("Stopping the virtual machine: %s" % vm_1.name)
# Stop virtual machine
vm_1.stop(self.user_api_client)
except Exception as e:
self.fail("Failed to stop VM: %s" % e)
timeout = self.services["timeout"]
while True:
list_volume = Volume.list(
self.user_api_client,
virtualmachineid=vm_1.id,
type='ROOT',
listall=True
)
if isinstance(list_volume, list):
break
elif timeout == 0:
raise Exception("List volumes failed.")
time.sleep(5)
timeout = timeout - 1
self.volume = list_volume[0]
self.debug("Creating template from ROOT disk of virtual machine: %s" %
vm_1.name)
# Create template from volume
template = Template.create(
self.user_api_client,
self.services["template"],
self.volume.id
)
self.cleanup.append(template)
self.debug("Created the template(%s). Now restarting the userVm: %s" %
(template.name, vm_1.name))
vm_1.start(self.user_api_client)
self.debug("Creating a tag for the template")
tag = Tag.create(
self.user_api_client,
resourceIds=template.id,
resourceType='Template',
tags={'OS': 'windows8'}
)
self.debug("Tag created: %s" % tag.__dict__)
tags = Tag.list(
self.user_api_client,
listall=True,
resourceType='Template',
key='OS',
value='windows8'
)
self.assertEqual(
isinstance(tags, list),
True,
"List tags should not return empty response"
)
self.assertEqual(
tags[0].value,
'windows8',
'The tag should have original value'
)
Template.list(
self.user_api_client,
templatefilter=self.services["template"]["templatefilter"],
listall=True,
key='OS',
value='windows8'
)
self.debug("Deleting the created tag..")
try:
tag.delete(
self.user_api_client,
resourceIds=template.id,
resourceType='Template',
tags={'OS': 'windows8'}
)
except Exception as e:
self.fail("Failed to delete the tag - %s" % e)
self.debug("Verifying if tag is actually deleted!")
tags = Tag.list(
self.user_api_client,
listall=True,
resourceType='Template',
key='OS',
value='windows8'
)
self.assertEqual(
tags,
None,
"List tags should return empty response"
)
return
def test_01_redundant_vpc_site2site_vpn(self):
"""Test Site 2 Site VPN Across redundant VPCs"""
self.logger.debug("Starting test: test_02_redundant_vpc_site2site_vpn")
# 0) Get the default network offering for VPC
networkOffering = NetworkOffering.list(
self.apiclient, name="DefaultIsolatedNetworkOfferingForVpcNetworks")
self.assert_(networkOffering is not None and len(
networkOffering) > 0, "No VPC based network offering")
# Create and enable redundant VPC offering
redundant_vpc_offering = self._create_vpc_offering(
'redundant_vpc_offering')
self.assert_(redundant_vpc_offering is not None,
"Failed to create redundant VPC Offering")
redundant_vpc_offering.update(self.apiclient, state='Enabled')
# Create VPC 1
vpc1 = None
try:
vpc1 = VPC.create(
apiclient=self.apiclient,
services=self.services["vpc"],
networkDomain="vpc1.vpn",
vpcofferingid=redundant_vpc_offering.id,
zoneid=self.zone.id,
account=self.account.name,
domainid=self.domain.id
)
except Exception as e:
self.fail(e)
finally:
self.assert_(vpc1 is not None, "VPC1 creation failed")
self.logger.debug("VPC1 %s created" % vpc1.id)
# Create VPC 2
vpc2 = None
try:
vpc2 = VPC.create(
apiclient=self.apiclient,
services=self.services["vpc2"],
networkDomain="vpc2.vpn",
vpcofferingid=redundant_vpc_offering.id,
zoneid=self.zone.id,
account=self.account.name,
domainid=self.account.domainid
)
except Exception as e:
self.fail(e)
finally:
self.assert_(vpc2 is not None, "VPC2 creation failed")
self.logger.debug("VPC2 %s created" % vpc2.id)
default_acl = NetworkACLList.list(
self.apiclient, name="default_allow")[0]
# Create network in VPC 1
ntwk1 = None
try:
ntwk1 = Network.create(
apiclient=self.apiclient,
services=self.services["network_1"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=networkOffering[0].id,
zoneid=self.zone.id,
vpcid=vpc1.id,
aclid=default_acl.id
)
except Exception as e:
self.fail(e)
finally:
self.assertIsNotNone(ntwk1, "Network failed to create")
self.logger.debug("Network %s created in VPC %s" % (ntwk1.id, vpc1.id))
# Create network in VPC 2
ntwk2 = None
try:
ntwk2 = Network.create(
apiclient=self.apiclient,
services=self.services["network_2"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=networkOffering[0].id,
zoneid=self.zone.id,
vpcid=vpc2.id,
aclid=default_acl.id
)
except Exception as e:
self.fail(e)
finally:
self.assertIsNotNone(ntwk2, "Network failed to create")
self.logger.debug("Network %s created in VPC %s" % (ntwk2.id, vpc2.id))
# Deploy a vm in network 2
vm1 = None
try:
vm1 = VirtualMachine.create(self.apiclient, services=self.services["virtual_machine"],
templateid=self.template.id,
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
serviceofferingid=self.compute_offering.id,
networkids=ntwk1.id,
hypervisor=self.hypervisor
)
except Exception as e:
self.fail(e)
finally:
self.assert_(vm1 is not None, "VM failed to deploy")
self.assert_(vm1.state == 'Running', "VM is not running")
self.logger.debug("VM %s deployed in VPC %s" % (vm1.id, vpc1.id))
# Deploy a vm in network 2
vm2 = None
try:
vm2 = VirtualMachine.create(self.apiclient, services=self.services["virtual_machine"],
templateid=self.template.id,
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
serviceofferingid=self.compute_offering.id,
networkids=ntwk2.id,
hypervisor=self.hypervisor
)
except Exception as e:
self.fail(e)
finally:
self.assert_(vm2 is not None, "VM failed to deploy")
self.assert_(vm2.state == 'Running', "VM is not running")
self.debug("VM %s deployed in VPC %s" % (vm2.id, vpc2.id))
# 4) Enable Site-to-Site VPN for VPC
vpn1_response = Vpn.createVpnGateway(self.apiclient, vpc1.id)
self.assert_(
vpn1_response is not None, "Failed to enable VPN Gateway 1")
self.logger.debug("VPN gateway for VPC %s enabled" % vpc1.id)
vpn2_response = Vpn.createVpnGateway(self.apiclient, vpc2.id)
self.assert_(
vpn2_response is not None, "Failed to enable VPN Gateway 2")
self.logger.debug("VPN gateway for VPC %s enabled" % vpc2.id)
# 5) Add VPN Customer gateway info
src_nat_list = PublicIPAddress.list(
self.apiclient,
account=self.account.name,
domainid=self.account.domainid,
listall=True,
issourcenat=True,
vpcid=vpc1.id
)
ip1 = src_nat_list[0]
src_nat_list = PublicIPAddress.list(
self.apiclient,
account=self.account.name,
domainid=self.account.domainid,
listall=True,
issourcenat=True,
vpcid=vpc2.id
)
ip2 = src_nat_list[0]
services = self.services["vpncustomergateway"]
customer1_response = VpnCustomerGateway.create(
self.apiclient, services, "Peer VPC1", ip1.ipaddress, vpc1.cidr, self.account.name, self.domain.id)
self.debug("VPN customer gateway added for VPC %s enabled" % vpc1.id)
self.logger.debug(vars(customer1_response))
customer2_response = VpnCustomerGateway.create(
self.apiclient, services, "Peer VPC2", ip2.ipaddress, vpc2.cidr, self.account.name, self.domain.id)
self.debug("VPN customer gateway added for VPC %s enabled" % vpc2.id)
self.logger.debug(vars(customer2_response))
# 6) Connect two VPCs
vpnconn1_response = Vpn.createVpnConnection(
self.apiclient, customer1_response.id, vpn2_response['id'], True)
self.debug("VPN passive connection created for VPC %s" % vpc2.id)
vpnconn2_response = Vpn.createVpnConnection(
self.apiclient, customer2_response.id, vpn1_response['id'])
self.debug("VPN connection created for VPC %s" % vpc1.id)
self.assertEqual(
vpnconn2_response['state'], "Connected", "Failed to connect between VPCs!")
# acquire an extra ip address to use to ssh into vm2
try:
vm2.public_ip = PublicIPAddress.create(
apiclient=self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
services=self.services,
networkid=ntwk2.id,
vpcid=vpc2.id)
except Exception as e:
self.fail(e)
finally:
self.assert_(
vm2.public_ip is not None, "Failed to aqcuire public ip for vm2")
# Create port forward to be able to ssh into vm2
natrule = None
try:
natrule = self._create_natrule(
vpc2, vm2, 22, 22, vm2.public_ip, ntwk2)
except Exception as e:
self.fail(e)
finally:
self.assert_(
natrule is not None, "Failed to create portforward for vm2")
time.sleep(20)
# setup ssh connection to vm2
ssh_client = self._get_ssh_client(vm2, self.services, 10)
if ssh_client:
# run ping test
packet_loss = ssh_client.execute(
"/bin/ping -c 3 -t 10 " + vm1.nic[0].ipaddress + " |grep packet|cut -d ' ' -f 7| cut -f1 -d'%'")[0]
self.assert_(int(packet_loss) == 0, "Ping did not succeed")
else:
self.fail("Failed to setup ssh connection to %s" % vm2.public_ip)
def test_01_vpc_remote_access_vpn(self):
"""Test Remote Access VPN in VPC"""
self.logger.debug("Starting test: test_01_vpc_remote_access_vpn")
# 0) Get the default network offering for VPC
self.logger.debug("Retrieving default VPC offering")
networkOffering = NetworkOffering.list(
self.apiclient, name="DefaultIsolatedNetworkOfferingForVpcNetworks")
self.assert_(networkOffering is not None and len(
networkOffering) > 0, "No VPC based network offering")
# 1) Create VPC
vpcOffering = VpcOffering.list(self.apiclient, name="Default VPC offering")
self.assert_(vpcOffering is not None and len(
vpcOffering) > 0, "No VPC offerings found")
vpc = None
try:
vpc = VPC.create(
apiclient=self.apiclient,
services=self.services["vpc"],
networkDomain="vpc.vpn",
vpcofferingid=vpcOffering[0].id,
zoneid=self.zone.id,
account=self.account.name,
domainid=self.domain.id
)
except Exception as e:
self.fail(e)
finally:
self.assert_(vpc is not None, "VPC creation failed")
self.logger.debug("VPC %s created" % (vpc.id))
try:
# 2) Create network in VPC
ntwk = Network.create(
apiclient=self.apiclient,
services=self.services["network_1"],
accountid=self.account.name,
domainid=self.domain.id,
networkofferingid=networkOffering[0].id,
zoneid=self.zone.id,
vpcid=vpc.id
)
except Exception as e:
self.fail(e)
finally:
self.assertIsNotNone(ntwk, "Network failed to create")
self.logger.debug(
"Network %s created in VPC %s" % (ntwk.id, vpc.id))
try:
# 3) Deploy a vm
vm = VirtualMachine.create(self.apiclient, services=self.services["virtual_machine"],
templateid=self.template.id,
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.domain.id,
serviceofferingid=self.compute_offering.id,
networkids=ntwk.id,
hypervisor=self.hypervisor
)
self.assert_(vm is not None, "VM failed to deploy")
self.assert_(vm.state == 'Running', "VM is not running")
self.debug("VM %s deployed in VPC %s" % (vm.id, vpc.id))
except Exception as e:
self.fail(e)
finally:
self.logger.debug("Deployed virtual machine: OK")
try:
# 4) Enable VPN for VPC
src_nat_list = PublicIPAddress.list(
self.apiclient,
account=self.account.name,
domainid=self.account.domainid,
listall=True,
issourcenat=True,
vpcid=vpc.id
)
ip = src_nat_list[0]
except Exception as e:
self.fail(e)
finally:
self.logger.debug("Acquired public ip address: OK")
try:
vpn = Vpn.create(self.apiclient,
publicipid=ip.id,
account=self.account.name,
domainid=self.account.domainid,
iprange=self.services["vpn"]["iprange"],
fordisplay=self.services["vpn"]["fordisplay"]
)
except Exception as e:
self.fail(e)
finally:
self.assertIsNotNone(vpn, "Failed to create Remote Access VPN")
self.logger.debug("Created Remote Access VPN: OK")
vpnUser = None
# 5) Add VPN user for VPC
try:
vpnUser = VpnUser.create(self.apiclient,
account=self.account.name,
domainid=self.account.domainid,
username=self.services["vpn"]["vpn_user"],
password=self.services["vpn"]["vpn_pass"]
)
except Exception as e:
self.fail(e)
finally:
self.assertIsNotNone(
vpnUser, "Failed to create Remote Access VPN User")
self.logger.debug("Created VPN User: OK")
# TODO: Add an actual remote vpn connection test from a remote vpc
try:
# 9) Disable VPN for VPC
vpn.delete(self.apiclient)
except Exception as e:
self.fail(e)
finally:
self.logger.debug("Deleted the Remote Access VPN: OK")
def test_03_network_off_CS5332(self):
"""
@Desc: Test Network offering with Custom system offering for VR
@Steps:
Step1: Create new system offering for domain router
Step2: Verify the custom system offering creation for domain router
Step3: Create new network offering with domain router system offering created in step1
Step4: Verify the network offering creation with custom system offering for VR
Step5: Enable the network offering created in step3
Step5: Create isolated guest network using network offering created in step3
Step6: Deploy guest vm in network created above
"""
#create custom system offering for VR
self.services["service_offering"]["name"] = "test_service_offering_for_router"
self.services["service_offering"]["displaytext"] = "test_service_offering_for_router"
self.services["service_offering"]["cpuspeed"] = 500
self.services["service_offering"]["memory"] = 512
self.services["service_offering"]["systemvmtype"] = "domainrouter"
self.services["service_offering"]["storagetype"] = "shared"
self.services["service_offering"]["issystem"] = "true"
vr_sys_off = ServiceOffering.create(
self.apiclient,
self.services["service_offering"],
)
self.assertIsNotNone(
vr_sys_off,
"Failed to create custom system offering for VR"
)
vr_sys_off_res = ServiceOffering.list(
self.apiclient,
id = vr_sys_off.id,
issystem = "true"
)
status = validateList(vr_sys_off_res)
self.assertEquals(
PASS,
status[0],
"Listing of VR system offering failed"
)
self.assertEqual(
len(vr_sys_off_res),
1,
"Listing more than VR system offerings created"
)
self.debug("Created system offering with id %s" % vr_sys_off.id)
# Create a network offering with all virtual router services enabled using custom system offering for VR
self.debug(
"Creating n/w offering with all services in VR & using custom system offering for VR"
)
self.network_offering = NetworkOffering.create(
self.apiclient,
self.services["network_offering"],
conservemode=False,
serviceofferingid=vr_sys_off.id
)
self.assertIsNotNone(
self.network_offering,
"Failed to create network offering with custom system offering for VR"
)
network_off_res = NetworkOffering.list(
self.apiclient,
id=self.network_offering.id
)
status = validateList(network_off_res)
self.assertEquals(
PASS,
status[0],
"Listing of network offerings failed"
)
self.assertEquals(
len(network_off_res),
1,
"More than one network offerings are created"
)
self.assertEquals(
network_off_res[0].serviceofferingid,
vr_sys_off.id,
"FAIL: Network offering has been created with default system offering"
)
self.cleanup.append(self.network_offering)
self.cleanup.append(vr_sys_off)
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.assertIsNotNone(self.network,"Failed to create network")
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.assertIsNotNone(
virtual_machine,
"VM creation failed with network %s" % self.network.id
)
self.debug("Deployed VM in network: %s" % self.network.id)
return
def test_16_create_template_volume(self):
"""Test Create template from volume
"""
noffering = NetworkOffering.list(
self.user_api_client,
name="DefaultIsolatedNetworkOfferingWithSourceNatService")
vm2network = Network.create(self.user_api_client,
self.services["network"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=noffering[0].id,
zoneid=self.zone.id)
list_nw_response = Network.list(self.user_api_client, id=vm2network.id)
self.assertEqual(isinstance(list_nw_response, list), True,
"Check list response returns a valid networks list")
templatevm = VirtualMachine.create(
self.user_api_client,
self.services["small"],
templateid=self.template.id,
accountid=self.account.name,
domainid=self.account.domainid,
networkids=vm2network.id,
serviceofferingid=self.service_offering.id,
mode=self.services['mode'],
startvm="true")
time.sleep(600)
vm_response = VirtualMachine.list(self.user_api_client,
id=templatevm.id)
self.assertNotEqual(len(vm_response), 0,
"Check VMs available in List VMs response")
vm = vm_response[0]
self.assertEqual(vm.state, 'Running',
"Check the state of VM created from Template")
templatevm.stop(self.user_api_client, forced="false")
vm_response = VirtualMachine.list(self.user_api_client,
id=templatevm.id)
vm = vm_response[0]
self.assertEqual(
vm.state, 'Stopped',
"Check the state of VM is in Stopped state before creating the Template"
)
list_volume_response = Volume.list(self.user_api_client,
virtualmachineid=vm.id,
type="ROOT",
listall=True)
#Create template from Virtual machine and Volume ID
roottemplate = Template.create(
self.user_api_client,
self.services["interop"]["template"],
volumeid=list_volume_response[0].id,
account=self.account.name,
domainid=self.domain.id,
)
time.sleep(600)
list_template_response = Template.list(
self.user_api_client,
templatefilter=\
self.services["templatefilter"],
id=roottemplate.id
)
self.assertEqual(isinstance(list_template_response, list), True,
"Check list response returns a valid list")
#Verify template response to check whether template added successfully
self.assertNotEqual(len(list_template_response), 0,
"Check template available in List Templates")
template_response = list_template_response[0]
self.assertEqual(template_response.displaytext,
self.services["interop"]["template"]["displaytext"],
"Check display text of newly created template")
name = template_response.name
self.assertEqual(
name.count(self.services["interop"]["template"]["name"]), 1,
"Check name of newly created template")
templatevm.delete(self.apiclient)
vm2network.delete(self.user_api_client)
vm3network = Network.create(self.user_api_client,
self.services["network"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=noffering[0].id,
zoneid=self.zone.id)
list_nw_response = Network.list(self.user_api_client, id=vm3network.id)
self.assertEqual(isinstance(list_nw_response, list), True,
"Check list response returns a valid networks list")
templatevm = VirtualMachine.create(
self.user_api_client,
self.services["small"],
templateid=roottemplate.id,
networkids=vm3network.id,
serviceofferingid=self.service_offering.id,
accountid=self.account.name,
domainid=self.account.domainid,
mode=self.services['mode'],
startvm="true")
time.sleep(600)
vm_response = VirtualMachine.list(self.user_api_client,
id=templatevm.id)
self.assertNotEqual(len(vm_response), 0,
"Check VMs available in List VMs response")
vm = vm_response[0]
self.assertEqual(vm.state, 'Running',
"Check the state of VM created from Template")
# Delete the template
roottemplate.delete(self.user_api_client)
list_template_response = Template.list(
self.user_api_client,
templatefilter=\
self.services["template"]["templatefilter"],
id=roottemplate.id,
zoneid=self.zone.id
)
self.assertEqual(list_template_response, None,
"Check template available in List Templates")
templatevm.delete(self.apiclient)
vm3network.delete(self.user_api_client)
return
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.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.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.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.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
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.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.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.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.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
def test_vpc_remote_access_vpn(self):
"""Test Remote Access VPN in VPC"""
# 0) Get the default network offering for VPC
self.logger.debug("Retrieving default VPC offering")
networkOffering = NetworkOffering.list(
self.apiclient,
name="DefaultIsolatedNetworkOfferingForVpcNetworks")
self.assert_(networkOffering is not None and len(networkOffering) > 0,
"No VPC based network offering")
# 1) Create VPC
vpcOffering = VpcOffering.list(self.apiclient, isdefault=True)
self.assert_(vpcOffering is not None and len(vpcOffering) > 0,
"No VPC offerings found")
try:
vpc = VPC.create(apiclient=self.apiclient,
services=self.services["vpc"],
networkDomain="vpc.vpn",
vpcofferingid=vpcOffering[0].id,
zoneid=self.zone.id,
account=self.account.name,
domainid=self.domain.id)
except Exception as e:
self.fail(e)
finally:
self.assert_(vpc is not None, "VPC creation failed")
self.logger.debug("VPC %s created" % (vpc.id))
try:
# 2) Create network in VPC
ntwk = Network.create(apiclient=self.apiclient,
services=self.services["network_1"],
accountid=self.account.name,
domainid=self.domain.id,
networkofferingid=networkOffering[0].id,
zoneid=self.zone.id,
vpcid=vpc.id)
except Exception as e:
self.fail(e)
finally:
self.assertIsNotNone(ntwk, "Network failed to create")
self.logger.debug("Network %s created in VPC %s" %
(ntwk.id, vpc.id))
try:
# 3) Deploy a vm
vm = VirtualMachine.create(
self.apiclient,
services=self.services["virtual_machine"],
templateid=self.template.id,
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.domain.id,
serviceofferingid=self.compute_offering.id,
networkids=ntwk.id,
hypervisor=self.services["virtual_machine"]["hypervisor"])
self.assert_(vm is not None, "VM failed to deploy")
self.assert_(vm.state == 'Running', "VM is not running")
self.debug("VM %s deployed in VPC %s" % (vm.id, vpc.id))
except Exception as e:
self.fail(e)
finally:
self.logger.debug("Deployed virtual machine: OK")
try:
# 4) Enable VPN for VPC
src_nat_list = PublicIPAddress.list(self.apiclient,
account=self.account.name,
domainid=self.account.domainid,
listall=True,
issourcenat=True,
vpcid=vpc.id)
ip = src_nat_list[0]
except Exception as e:
self.fail(e)
finally:
self.logger.debug("Acquired public ip address: OK")
try:
vpn = Vpn.create(self.apiclient,
publicipid=ip.id,
account=self.account.name,
domainid=self.account.domainid,
iprange=self.services["vpn"]["iprange"],
fordisplay=self.services["vpn"]["fordisplay"])
except Exception as e:
self.fail(e)
finally:
self.assertIsNotNone(vpn, "Failed to create Remote Access VPN")
self.logger.debug("Created Remote Access VPN: OK")
vpnUser = None
# 5) Add VPN user for VPC
try:
vpnUser = VpnUser.create(self.apiclient,
account=self.account.name,
domainid=self.account.domainid,
username=self.services["vpn"]["vpn_user"],
password=self.services["vpn"]["vpn_pass"])
except Exception as e:
self.fail(e)
finally:
self.assertIsNotNone(vpnUser,
"Failed to create Remote Access VPN User")
self.logger.debug("Created VPN User: OK")
#TODO: Add an actual remote vpn connection test from a remote vpc
try:
# 9) Disable VPN for VPC
vpn.delete(self.apiclient)
except Exceptio as e:
self.fail(e)
finally:
self.logger.debug("Deleted the Remote Access VPN: OK")
def test_vpc_site2site_vpn(self):
"""Test VPN in VPC"""
# 0) Get the default network offering for VPC
networkOffering = NetworkOffering.list(
self.apiclient,
name="DefaultIsolatedNetworkOfferingForVpcNetworks")
self.assert_(networkOffering is not None and len(networkOffering) > 0,
"No VPC based network offering")
# 1) Create VPC offering
vpcOffering = VpcOffering.list(self.apiclient, isdefault=True)
self.assert_(vpcOffering is not None and len(vpcOffering) > 0,
"No VPC offerings found")
# Create VPC 1
try:
vpc1 = VPC.create(apiclient=self.apiclient,
services=self.services["vpc"],
networkDomain="vpc1.vpn",
vpcofferingid=vpcOffering[0].id,
zoneid=self.zone.id,
account=self.account.name,
domainid=self.domain.id)
except Exception as e:
self.fail(e)
finally:
self.assert_(vpc1 is not None, "VPC1 creation failed")
self.logger.debug("VPC1 %s created" % (vpc1.id))
# Create VPC 2
try:
vpc2 = VPC.create(apiclient=self.apiclient,
services=self.services["vpc2"],
networkDomain="vpc2.vpn",
vpcofferingid=vpcOffering[0].id,
zoneid=self.zone.id,
account=self.account.name,
domainid=self.account.domainid)
except Exception as e:
self.fail(e)
finally:
self.assert_(vpc2 is not None, "VPC2 creation failed")
self.logger.debug("VPC2 %s created" % (vpc2.id))
default_acl = NetworkACLList.list(self.apiclient,
name="default_allow")[0]
# Create network in VPC 1
try:
ntwk1 = Network.create(apiclient=self.apiclient,
services=self.services["network_1"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=networkOffering[0].id,
zoneid=self.zone.id,
vpcid=vpc1.id,
aclid=default_acl.id)
except Exception as e:
self.fail(e)
finally:
self.assertIsNotNone(ntwk1, "Network failed to create")
self.logger.debug("Network %s created in VPC %s" % (ntwk1.id, vpc1.id))
# Create network in VPC 2
try:
ntwk2 = Network.create(apiclient=self.apiclient,
services=self.services["network_2"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=networkOffering[0].id,
zoneid=self.zone.id,
vpcid=vpc2.id,
aclid=default_acl.id)
except Exception as e:
self.fail(e)
finally:
self.assertIsNotNone(ntwk2, "Network failed to create")
self.logger.debug("Network %s created in VPC %s" % (ntwk2.id, vpc2.id))
# Deploy a vm in network 2
try:
vm1 = VirtualMachine.create(
self.apiclient,
services=self.services["virtual_machine"],
templateid=self.template.id,
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=ntwk1.id,
hypervisor=self.services["virtual_machine"]["hypervisor"])
except Exception as e:
self.fail(e)
finally:
self.assert_(vm1 is not None, "VM failed to deploy")
self.assert_(vm1.state == 'Running', "VM is not running")
self.logger.debug("VM %s deployed in VPC %s" % (vm1.id, vpc1.id))
# Deploy a vm in network 2
try:
vm2 = VirtualMachine.create(
self.apiclient,
services=self.services["virtual_machine"],
templateid=self.template.id,
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
serviceofferingid=self.service_offering.id,
networkids=ntwk2.id,
hypervisor=self.services["virtual_machine"]["hypervisor"])
except Exception as e:
self.fail(e)
finally:
self.assert_(vm2 is not None, "VM failed to deploy")
self.assert_(vm2.state == 'Running', "VM is not running")
self.debug("VM %s deployed in VPC %s" % (vm2.id, vpc2.id))
# 4) Enable Site-to-Site VPN for VPC
vpn1_response = Vpn.createVpnGateway(self.apiclient, vpc1.id)
self.assert_(vpn1_response is not None,
"Failed to enable VPN Gateway 1")
self.logger.debug("VPN gateway for VPC %s enabled" % vpc1.id)
vpn2_response = Vpn.createVpnGateway(self.apiclient, vpc2.id)
self.assert_(vpn2_response is not None,
"Failed to enable VPN Gateway 2")
self.logger.debug("VPN gateway for VPC %s enabled" % vpc2.id)
# 5) Add VPN Customer gateway info
src_nat_list = PublicIPAddress.list(self.apiclient,
account=self.account.name,
domainid=self.account.domainid,
listall=True,
issourcenat=True,
vpcid=vpc1.id)
ip1 = src_nat_list[0]
src_nat_list = PublicIPAddress.list(self.apiclient,
account=self.account.name,
domainid=self.account.domainid,
listall=True,
issourcenat=True,
vpcid=vpc2.id)
ip2 = src_nat_list[0]
services = self.services["vpncustomergateway"]
customer1_response = VpnCustomerGateway.create(
self.apiclient, services, "Peer VPC1", ip1.ipaddress, vpc1.cidr,
self.account.name, self.domain.id)
self.debug("VPN customer gateway added for VPC %s enabled" % vpc1.id)
self.logger.debug(vars(customer1_response))
customer2_response = VpnCustomerGateway.create(
self.apiclient, services, "Peer VPC2", ip2.ipaddress, vpc2.cidr,
self.account.name, self.domain.id)
self.debug("VPN customer gateway added for VPC %s enabled" % vpc2.id)
self.logger.debug(vars(customer2_response))
# 6) Connect two VPCs
vpnconn1_response = Vpn.createVpnConnection(self.apiclient,
customer1_response.id,
vpn2_response['id'], True)
self.debug("VPN passive connection created for VPC %s" % vpc2.id)
vpnconn2_response = Vpn.createVpnConnection(self.apiclient,
customer2_response.id,
vpn1_response['id'])
self.debug("VPN connection created for VPC %s" % vpc1.id)
self.assertEqual(vpnconn2_response['state'], "Connected",
"Failed to connect between VPCs!")
# acquire an extra ip address to use to ssh into vm2
try:
vm2.public_ip = PublicIPAddress.create(
apiclient=self.apiclient,
accountid=self.account.name,
zoneid=self.zone.id,
domainid=self.account.domainid,
services=self.services,
networkid=ntwk2.id,
vpcid=vpc2.id)
except Exception as e:
self.fail(e)
finally:
self.assert_(vm2.public_ip is not None,
"Failed to aqcuire public ip for vm2")
# Create port forward to be able to ssh into vm2
try:
natrule = self.create_natrule(vpc2, vm2, 22, 22, vm2.public_ip,
ntwk2)
except Exception as e:
self.fail(e)
finally:
self.assert_(natrule is not None,
"Failed to create portforward for vm2")
time.sleep(10)
# setup ssh connection to vm2
ssh_client = self.get_ssh_client(vm2, self.services, 10)
if ssh_client:
# run ping test
packet_loss = ssh_client.execute(
"/bin/ping -c 3 -t 10 " + vm1.nic[0].ipaddress +
" |grep packet|cut -d ' ' -f 7| cut -f1 -d'%'")[0]
self.assert_(int(packet_loss) == 0, "Ping did not succeed")
else:
self.fail("Failed to setup ssh connection to %s" % vm2.public_ip)
def test_19_template_tag(self):
""" Test creation, listing and deletion tag on templates
"""
if self.hypervisor.lower() in ['lxc']:
self.skipTest(
"template creation from volume feature is not supported on %s"
% self.hypervisor.lower())
try:
noffering = NetworkOffering.list(
self.user_api_client,
name="DefaultIsolatedNetworkOfferingWithSourceNatService")
vm4network = Network.create(self.user_api_client,
self.services["network"],
accountid=self.account.name,
domainid=self.account.domainid,
networkofferingid=noffering[0].id,
zoneid=self.zone.id)
list_nw_response = Network.list(self.user_api_client,
id=vm4network.id)
self.assertEqual(
isinstance(list_nw_response, list), True,
"Check list response returns a valid networks list")
vm_1 = VirtualMachine.create(
self.user_api_client,
self.services["small"],
templateid=self.template.id,
networkids=vm4network.id,
serviceofferingid=self.service_offering.id,
accountid=self.account.name,
domainid=self.account.domainid,
mode=self.services['mode'],
startvm="true")
time.sleep(600)
self.debug("Stopping the virtual machine: %s" % vm_1.name)
# Stop virtual machine
vm_1.stop(self.user_api_client)
except Exception as e:
self.fail("Failed to stop VM: %s" % e)
timeout = self.services["timeout"]
while True:
list_volume = Volume.list(self.user_api_client,
virtualmachineid=vm_1.id,
type='ROOT',
listall=True)
if isinstance(list_volume, list):
break
elif timeout == 0:
raise Exception("List volumes failed.")
time.sleep(5)
timeout = timeout - 1
self.volume = list_volume[0]
self.debug("Creating template from ROOT disk of virtual machine: %s" %
vm_1.name)
# Create template from volume
template = Template.create(self.user_api_client,
self.services["template"], self.volume.id)
self.cleanup.append(template)
self.debug("Created the template(%s). Now restarting the userVm: %s" %
(template.name, vm_1.name))
vm_1.start(self.user_api_client)
self.debug("Creating a tag for the template")
tag = Tag.create(self.user_api_client,
resourceIds=template.id,
resourceType='Template',
tags={'OS': 'windows8'})
self.debug("Tag created: %s" % tag.__dict__)
tags = Tag.list(self.user_api_client,
listall=True,
resourceType='Template',
key='OS',
value='windows8')
self.assertEqual(isinstance(tags, list), True,
"List tags should not return empty response")
self.assertEqual(tags[0].value, 'windows8',
'The tag should have original value')
Template.list(
self.user_api_client,
templatefilter=self.services["template"]["templatefilter"],
listall=True,
key='OS',
value='windows8')
self.debug("Deleting the created tag..")
try:
tag.delete(self.user_api_client,
resourceIds=template.id,
resourceType='Template',
tags={'OS': 'windows8'})
except Exception as e:
self.fail("Failed to delete the tag - %s" % e)
self.debug("Verifying if tag is actually deleted!")
tags = Tag.list(self.user_api_client,
listall=True,
resourceType='Template',
key='OS',
value='windows8')
self.assertEqual(tags, None, "List tags should return empty response")
return
def test_01_create_delete_portforwarding_fornonvpc(self):
"""
@summary: Test to list, create and delete Port Forwarding for
IP Address associated to Non VPC network
@Steps:
Step1: Creating a Network for the user
Step2: Associating an IP Addresses for Network
Step3: Launching Virtual Machine in network created in step 2
Step4: Listing Port Forwarding Rules for the IP Address associated
in Step2
Step5: Verifying that no Port Forwarding Rules are listed
Step6: Creating a Port Forwarding Rule for IP Address associated in
Step2
Step7: Listing Port Forwarding Rules for the IP Address associated in
Step2
Step8: Verifying 1 Port Forwarding Rule is listed
Step9: Deleting the Port Forwarding Rule created in Step6
Step10: Listing Port Forwarding Rules for the IP Address associated in
Step2
Step11: Verifying that no Port Forwarding Rules are listed
"""
# Listing all the Networks's for a user
list_networks_before = Network.list(
self.userapiclient,
listall=self.services["listall"],
type="Isolated"
)
# Verifying No Networks are listed
self.assertIsNone(
list_networks_before,
"Networks listed for newly created User"
)
# Listing Network Offerings
network_offerings_list = NetworkOffering.list(
self.apiClient,
forvpc="false",
guestiptype="Isolated",
state="Enabled",
supportedservices="SourceNat,PortForwarding",
zoneid=self.zone.id
)
status = validateList(network_offerings_list)
self.assertEqual(
PASS,
status[0],
"Isolated Network Offerings with sourceNat,\
PortForwarding enabled are not found"
)
# Creating a network
network = Network.create(
self.userapiclient,
self.services["network"],
accountid=self.account.name,
domainid=self.domain.id,
networkofferingid=network_offerings_list[0].id,
zoneid=self.zone.id
)
self.assertIsNotNone(
network,
"Network creation failed"
)
# Listing all the IP Addresses for a user
list_ipaddresses_before = PublicIPAddress.list(
self.userapiclient,
listall=self.services["listall"]
)
# Verifying no IP Addresses are listed
self.assertIsNone(
list_ipaddresses_before,
"IP Addresses listed for newly created User"
)
service_offering = ServiceOffering.create(
self.apiClient,
self.services["service_offerings"]["tiny"],
)
self.services["virtual_machine"]["zoneid"] = self.zone.id
vm = VirtualMachine.create(
self.userapiclient,
self.services["virtual_machine"],
accountid=self.account.name,
domainid=self.account.domainid,
networkids=network.id,
serviceofferingid=service_offering.id
)
VirtualMachine.delete(vm, self.apiClient, expunge=True)
# Associating an IP Addresses to Network created
associated_ipaddress = PublicIPAddress.create(
self.userapiclient,
services=self.services["network"],
networkid=network.id
)
self.assertIsNotNone(
associated_ipaddress,
"Failed to Associate IP Address"
)
# Listing all the IP Addresses for a user
list_ipaddresses_after = PublicIPAddress.list(
self.userapiclient,
listall=self.services["listall"]
)
status = validateList(list_ipaddresses_after)
self.assertEqual(
PASS,
status[0],
"IP Addresses Association Failed"
)
# Verifying the length of the list is 2
self.assertEqual(
2,
len(list_ipaddresses_after),
"Number of IP Addresses associated are not matching expected"
)
# Launching a Virtual Machine with above created Network
vm_created = VirtualMachine.create(
self.userapiclient,
self.services["virtual_machine"],
accountid=self.account.name,
domainid=self.account.domainid,
networkids=network.id,
serviceofferingid=self.service_offering.id,
)
self.assertIsNotNone(
vm_created,
"Failed to launch a VM under network created"
)
self.cleanup.append(network)
# Listing Virtual Machines in running state in above created network
list_vms_running = VirtualMachine.list(
self.userapiclient,
listall=self.services["listall"],
state="Running",
networkid=network.id
)
status = validateList(list_vms_running)
self.assertEqual(
PASS,
status[0],
"VM Created is not in Running state"
)
# Verifying the length of the list is 2
self.assertEqual(
2,
len(list_ipaddresses_after),
"VM Created is not in Running state"
)
self.assertEqual(
vm_created.id,
list_vms_running[0].id,
"VM Created is not in Running state"
)
# Listing Virtual Machines in stopped state in above created network
list_vms_stopped = VirtualMachine.list(
self.userapiclient,
listall=self.services["listall"],
state="Stopped",
networkid=network.id
)
# Verifying no VMs are in stopped state
self.assertIsNone(
list_vms_stopped,
"VM Created is in stopped state"
)
# Listing Port Forwarding Rules for the IP Address associated
list_prtfwdrule_before = NATRule.list(
self.userapiclient,
listall=self.services["listall"],
ipaddressid=associated_ipaddress.ipaddress.id
)
# Verifying no port forwarding rules are listed
self.assertIsNone(
list_prtfwdrule_before,
"Port Forwarding Rules listed for newly associated IP Address"
)
# Creating a Port Forwarding rule
portfwd_rule = NATRule.create(
self.userapiclient,
virtual_machine=vm_created,
services=self.services["natrule"],
ipaddressid=associated_ipaddress.ipaddress.id,
)
self.assertIsNotNone(
portfwd_rule,
"Failed to create Port Forwarding Rule"
)
# Verifying details of Sticky Policy created
# Creating expected and actual values dictionaries
expected_dict = {
"ipaddressid": associated_ipaddress.ipaddress.id,
"privateport": str(self.services["natrule"]["privateport"]),
"publicport": str(self.services["natrule"]["publicport"]),
"protocol": str(self.services["natrule"]["protocol"]).lower(),
}
actual_dict = {
"ipaddressid": portfwd_rule.ipaddressid,
"privateport": str(portfwd_rule.privateport),
"publicport": str(portfwd_rule.publicport),
"protocol": portfwd_rule.protocol,
}
portfwd_status = self.__verify_values(
expected_dict,
actual_dict
)
self.assertEqual(
True,
portfwd_status,
"Created Port Forward Rule details are not as expected"
)
# Listing Port Forwarding Rules for the IP Address associated
list_prtfwdrule_after = NATRule.list(
self.userapiclient,
listall=self.services["listall"],
ipaddressid=associated_ipaddress.ipaddress.id
)
status = validateList(list_prtfwdrule_after)
self.assertEqual(
PASS,
status[0],
"Failed to create Port Forwarding Rule"
)
# Verifying the length of the list is 1
self.assertEqual(
1,
len(list_prtfwdrule_after),
"Failed to create Port Forwarding Rule"
)
# Deleting Port Forwarding Rule
portfwd_rule.delete(self.userapiclient)
# Creating a Port Forwarding rule with port range
portfwd_rule = NATRule.create(
self.userapiclient,
virtual_machine=vm_created,
services=self.services["natrulerange"],
ipaddressid=associated_ipaddress.ipaddress.id,
)
self.assertIsNotNone(
portfwd_rule,
"Failed to create Port Forwarding Rule"
)
# update the private port for port forwarding rule
updatefwd_rule = portfwd_rule.update(self.userapiclient,
portfwd_rule.id,
virtual_machine=vm_created,
services=self.services["updatenatrulerange"],
)
# Verifying details of Sticky Policy created
# Creating expected and actual values dictionaries
expected_dict = {
"privateport": str(self.services["updatenatrulerange"]["privateport"]),
"privateendport": str(self.services["updatenatrulerange"]["privateendport"]),
}
actual_dict = {
"privateport": str(updatefwd_rule.privateport),
"privateendport": str(updatefwd_rule.privateendport),
}
portfwd_status = self.__verify_values(
expected_dict,
actual_dict
)
self.assertEqual(
True,
portfwd_status,
"Updated Port Forward Rule details are not as expected"
)
# Deleting Port Forwarding Rule
portfwd_rule.delete(self.userapiclient)
# Listing Port Forwarding Rules for the IP Address associated
list_prtfwdrule_after = NATRule.list(
self.userapiclient,
listall=self.services["listall"],
ipaddressid=associated_ipaddress.ipaddress.id
)
# Verifying no port forwarding rules are listed
self.assertIsNone(
list_prtfwdrule_after,
"Port Forwarding Rules listed after deletion"
)
# Destroying the VM Launched
vm_created.delete(self.apiClient)
self.cleanup.append(self.account)
return
