import ipaddress from test import helpers from test.helpers import ProviderTestBase from test.helpers import standard_interface_tests as sit from cloudbridge.cloud.factory import ProviderList from cloudbridge.cloud.interfaces import InstanceState from cloudbridge.cloud.interfaces import InvalidConfigurationException from cloudbridge.cloud.interfaces import TestMockHelperMixin from cloudbridge.cloud.interfaces.exceptions import WaitStateException from cloudbridge.cloud.interfaces.resources import InstanceType from cloudbridge.cloud.interfaces.resources import SnapshotState import six class CloudComputeServiceTestCase(ProviderTestBase): @helpers.skipIfNoService(['compute.instances', 'networking.networks']) def test_crud_instance(self): name = "cb_instcrud-{0}".format(helpers.get_uuid()) # Declare these variables and late binding will allow # the cleanup method access to the most current values inst = None net = None with helpers.cleanup_action(lambda: helpers.cleanup_test_resources( inst, net)): net, subnet = helpers.create_test_network(self.provider, name) inst = helpers.get_test_instance(self.provider, name, subnet=subnet) sit.check_standard_behaviour( self, self.provider.compute.instances, inst) deleted_inst = self.provider.compute.instances.get( inst.id) self.assertTrue( deleted_inst is None or deleted_inst.state in ( InstanceState.TERMINATED, InstanceState.UNKNOWN), "Instance %s should have been deleted but still exists." % name) def _is_valid_ip(self, address): try: ipaddress.ip_address(address) except ValueError: return False return True @helpers.skipIfNoService(['compute.instances', 'networking.networks', 'security.security_groups', 'security.key_pairs']) def test_instance_properties(self): name = "cb_inst_props-{0}".format(helpers.get_uuid()) # Declare these variables and late binding will allow # the cleanup method access to the most current values test_instance = None net = None sg = None kp = None with helpers.cleanup_action(lambda: helpers.cleanup_test_resources( test_instance, net, sg, kp)): net, subnet = helpers.create_test_network(self.provider, name) kp = self.provider.security.key_pairs.create(name=name) sg = self.provider.security.security_groups.create( name=name, description=name, network_id=net.id) test_instance = helpers.get_test_instance(self.provider, name, key_pair=kp, security_groups=[sg], subnet=subnet) self.assertEqual( test_instance.name, name, "Instance name {0} is not equal to the expected name" " {1}".format(test_instance.name, name)) image_id = helpers.get_provider_test_data(self.provider, "image") self.assertEqual(test_instance.image_id, image_id, "Image id {0} is not equal to the expected id" " {1}".format(test_instance.image_id, image_id)) self.assertIsInstance(test_instance.zone_id, six.string_types) self.assertEqual( test_instance.image_id, helpers.get_provider_test_data(self.provider, "image")) self.assertIsInstance(test_instance.public_ips, list) self.assertIsInstance(test_instance.private_ips, list) self.assertEqual( test_instance.key_pair_name, kp.name) self.assertIsInstance(test_instance.security_groups, list) self.assertEqual( test_instance.security_groups[0], sg) self.assertIsInstance(test_instance.security_group_ids, list) self.assertEqual( test_instance.security_group_ids[0], sg.id) # Must have either a public or a private ip ip_private = test_instance.private_ips[0] \ if test_instance.private_ips else None ip_address = test_instance.public_ips[0] \ if test_instance.public_ips and test_instance.public_ips[0] \ else ip_private self.assertIsNotNone( ip_address, "Instance must have either a public IP or a private IP") self.assertTrue( self._is_valid_ip(ip_address), "Instance must have a valid IP address") self.assertIsInstance(test_instance.instance_type_id, six.string_types) itype = self.provider.compute.instance_types.get( test_instance.instance_type_id) self.assertEqual( itype, test_instance.instance_type, "Instance type {0} does not match expected type {1}".format( itype.name, test_instance.instance_type)) self.assertIsInstance(itype, InstanceType) expected_type = helpers.get_provider_test_data(self.provider, 'instance_type') self.assertEqual( itype.name, expected_type, "Instance type {0} does not match expected type {1}".format( itype.name, expected_type)) if isinstance(self.provider, TestMockHelperMixin): raise self.skipTest( "Skipping rest of test because Moto is not returning the" " instance's placement zone correctly") find_zone = [zone for zone in self.provider.compute.regions.current.zones if zone.id == test_instance.zone_id] self.assertEqual(len(find_zone), 1, "Instance's placement zone could not be " " found in zones list") @helpers.skipIfNoService(['compute.instances', 'compute.images', 'compute.instance_types']) def test_block_device_mapping_launch_config(self): lc = self.provider.compute.instances.create_launch_config() # specifying an invalid size should raise # an exception with self.assertRaises(InvalidConfigurationException): lc.add_volume_device(size=-1) # Attempting to add a blank volume without specifying a size # should raise an exception with self.assertRaises(InvalidConfigurationException): lc.add_volume_device(source=None) # block_devices should be empty so far self.assertListEqual( lc.block_devices, [], "No block devices should have been" " added to mappings list since the configuration was" " invalid") # Add a new volume lc.add_volume_device(size=1, delete_on_terminate=True) # Override root volume size image_id = helpers.get_provider_test_data(self.provider, "image") img = self.provider.compute.images.get(image_id) # The size should be greater then the ami size # and therefore, img.min_disk is used. lc.add_volume_device( is_root=True, source=img, size=img.min_disk if img and img.min_disk else 2, delete_on_terminate=True) # Attempting to add more than one root volume should raise an # exception. with self.assertRaises(InvalidConfigurationException): lc.add_volume_device(size=1, is_root=True) # Attempting to add an incorrect source should raise an exception with self.assertRaises(InvalidConfigurationException): lc.add_volume_device( source="invalid_source", delete_on_terminate=True) # Add all available ephemeral devices instance_type_name = helpers.get_provider_test_data( self.provider, "instance_type") inst_type = self.provider.compute.instance_types.find( name=instance_type_name)[0] for _ in range(inst_type.num_ephemeral_disks): lc.add_ephemeral_device() # block_devices should be populated self.assertTrue( len(lc.block_devices) == 2 + inst_type.num_ephemeral_disks, "Expected %d total block devices bit found %d" % (2 + inst_type.num_ephemeral_disks, len(lc.block_devices))) @helpers.skipIfNoService(['compute.instances', 'compute.images', 'compute.instance_types', 'block_store.volumes']) def test_block_device_mapping_attachments(self): name = "cb_blkattch-{0}".format(helpers.get_uuid()) if self.provider.PROVIDER_ID == ProviderList.OPENSTACK: raise self.skipTest("Not running BDM tests because OpenStack is" " not stable enough yet") test_vol = self.provider.block_store.volumes.create( name, 1, helpers.get_provider_test_data(self.provider, "placement")) with helpers.cleanup_action(lambda: test_vol.delete()): test_vol.wait_till_ready() test_snap = test_vol.create_snapshot(name=name, description=name) def cleanup_snap(snap): snap.delete() snap.wait_for([SnapshotState.UNKNOWN], terminal_states=[SnapshotState.ERROR]) with helpers.cleanup_action(lambda: cleanup_snap(test_snap)): test_snap.wait_till_ready() lc = self.provider.compute.instances.create_launch_config() # Add a new blank volume lc.add_volume_device(size=1, delete_on_terminate=True) # Attach an existing volume lc.add_volume_device(size=1, source=test_vol, delete_on_terminate=True) # Add a new volume based on a snapshot lc.add_volume_device(size=1, source=test_snap, delete_on_terminate=True) # Override root volume size image_id = helpers.get_provider_test_data( self.provider, "image") img = self.provider.compute.images.get(image_id) # The size should be greater then the ami size # and therefore, img.min_disk is used. lc.add_volume_device( is_root=True, source=img, size=img.min_disk if img and img.min_disk else 2, delete_on_terminate=True) # Add all available ephemeral devices instance_type_name = helpers.get_provider_test_data( self.provider, "instance_type") inst_type = self.provider.compute.instance_types.find( name=instance_type_name)[0] for _ in range(inst_type.num_ephemeral_disks): lc.add_ephemeral_device() net, subnet = helpers.create_test_network(self.provider, name) with helpers.cleanup_action(lambda: helpers.delete_test_network(net)): inst = helpers.create_test_instance( self.provider, name, subnet=subnet, launch_config=lc) with helpers.cleanup_action(lambda: helpers.delete_test_instance( inst)): try: inst.wait_till_ready() except WaitStateException as e: self.fail("The block device mapped launch did not " " complete successfully: %s" % e) # TODO: Check instance attachments and make sure they # correspond to requested mappings @helpers.skipIfNoService(['compute.instances', 'networking.networks', 'security.security_groups']) def test_instance_methods(self): name = "cb_instmethods-{0}".format(helpers.get_uuid()) # Declare these variables and late binding will allow # the cleanup method access to the most current values test_inst = None net = None sg = None with helpers.cleanup_action(lambda: helpers.cleanup_test_resources( test_inst, net, sg)): net, subnet = helpers.create_test_network(self.provider, name) test_inst = helpers.get_test_instance(self.provider, name, subnet=subnet) sg = self.provider.security.security_groups.create( name=name, description=name, network_id=net.id) # Check adding a security group to a running instance test_inst.add_security_group(sg) test_inst.refresh() self.assertTrue( sg in test_inst.security_groups, "Expected security group '%s'" " to be among instance security_groups: [%s]" % (sg, test_inst.security_groups)) # Check removing a security group from a running instance test_inst.remove_security_group(sg) test_inst.refresh() self.assertTrue( sg not in test_inst.security_groups, "Expected security group" " '%s' to be removed from instance security_groups: [%s]" % (sg, test_inst.security_groups)) # check floating ips router = self.provider.networking.routers.create(name, net) gateway = None def cleanup_router(): with helpers.cleanup_action(lambda: router.delete()): with helpers.cleanup_action(lambda: gateway.delete()): router.detach_subnet(subnet) router.detach_gateway(gateway) with helpers.cleanup_action(lambda: cleanup_router()): router.attach_subnet(subnet) gateway = (self.provider.networking.gateways .get_or_create_inet_gateway(name)) router.attach_gateway(gateway) # check whether adding an elastic ip works fip = (self.provider.networking.networks .create_floating_ip()) with helpers.cleanup_action(lambda: fip.delete()): test_inst.add_floating_ip(fip.public_ip) test_inst.refresh() self.assertIn(fip.public_ip, test_inst.public_ips) if isinstance(self.provider, TestMockHelperMixin): # TODO: Moto bug does not refresh removed public ip return # check whether removing an elastic ip works test_inst.remove_floating_ip(fip.public_ip) test_inst.refresh() self.assertNotIn(fip.public_ip, test_inst.public_ips)