deb-heat/heat/tests/test_instance_network.py
huangtianhua 2e2c01bcf8 Migrate to glanceclient to get image id
We should call the glanceclient to get_image_id instead novaclient.

Implements: blueprint migrate-to-glance-client
Change-Id: I2f5e4dfbe405b1ac74eb3864870b8e4873aeee9a
2014-05-27 14:46:37 +08:00

300 lines
11 KiB
Python

#
# Licensed 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.
import uuid
from heat.common import template_format
from heat.engine import clients
from heat.engine import environment
from heat.engine import parser
from heat.engine.resources import glance_utils
from heat.engine.resources import instance as instances
from heat.engine.resources import network_interface as network_interfaces
from heat.engine.resources import nova_utils
from heat.engine import scheduler
from heat.tests.common import HeatTestCase
from heat.tests import utils
from heat.tests.v1_1 import fakes
wp_template = '''
{
"AWSTemplateFormatVersion" : "2010-09-09",
"Description" : "WordPress",
"Parameters" : {
"KeyName" : {
"Description" : "KeyName",
"Type" : "String",
"Default" : "test"
},
"InstanceType": {
"Type": "String",
"Description": "EC2 instance type",
"Default": "m1.small",
"AllowedValues": [ "m1.small", "m1.large" ]
},
"SubnetId": {
"Type" : "String",
"Description" : "SubnetId of an existing subnet in your VPC"
},
},
"Resources" : {
"WebServer": {
"Type": "AWS::EC2::Instance",
"Properties": {
"ImageId" : "F17-x86_64-gold",
"InstanceType" : { "Ref" : "InstanceType" },
"SubnetId" : { "Ref" : "SubnetId" },
"KeyName" : { "Ref" : "KeyName" },
"UserData" : "wordpress"
}
}
}
}
'''
wp_template_with_nic = '''
{
"AWSTemplateFormatVersion" : "2010-09-09",
"Description" : "WordPress",
"Parameters" : {
"KeyName" : {
"Description" : "KeyName",
"Type" : "String",
"Default" : "test"
},
"InstanceType": {
"Type": "String",
"Description": "EC2 instance type",
"Default": "m1.small",
"AllowedValues": [ "m1.small", "m1.large" ]
},
"SubnetId": {
"Type" : "String",
"Description" : "SubnetId of an existing subnet in your VPC"
},
},
"Resources" : {
"nic1": {
"Type": "AWS::EC2::NetworkInterface",
"Properties": {
"SubnetId": { "Ref": "SubnetId" }
}
},
"WebServer": {
"Type": "AWS::EC2::Instance",
"Properties": {
"ImageId" : "F17-x86_64-gold",
"InstanceType" : { "Ref" : "InstanceType" },
"NetworkInterfaces": [ { "NetworkInterfaceId" : {"Ref": "nic1"},
"DeviceIndex" : "0" } ],
"KeyName" : { "Ref" : "KeyName" },
"UserData" : "wordpress"
}
}
}
}
'''
class FakeNeutron(object):
def show_subnet(self, subnet, **_params):
return {
'subnet': {
'name': 'name',
'network_id': 'fc68ea2c-b60b-4b4f-bd82-94ec81110766',
'tenant_id': 'c1210485b2424d48804aad5d39c61b8f',
'allocation_pools': [{'start': '10.10.0.2',
'end': '10.10.0.254'}],
'gateway_ip': '10.10.0.1',
'ip_version': 4,
'cidr': '10.10.0.0/24',
'id': '4156c7a5-e8c4-4aff-a6e1-8f3c7bc83861',
'enable_dhcp': False,
}}
def create_port(self, body=None):
return {
'port': {
'admin_state_up': True,
'device_id': '',
'device_owner': '',
'fixed_ips': [{
'ip_address': '10.0.3.3',
'subnet_id': '4156c7a5-e8c4-4aff-a6e1-8f3c7bc83861'}],
'id': '64d913c1-bcb1-42d2-8f0a-9593dbcaf251',
'mac_address': 'fa:16:3e:25:32:5d',
'name': '',
'network_id': 'fc68ea2c-b60b-4b4f-bd82-94ec81110766',
'status': 'ACTIVE',
'tenant_id': 'c1210485b2424d48804aad5d39c61b8f'
}}
class instancesTest(HeatTestCase):
def setUp(self):
super(instancesTest, self).setUp()
self.fc = fakes.FakeClient()
def _mock_get_image_id_success(self, imageId_input, imageId):
g_cli_mock = self.m.CreateMockAnything()
self.m.StubOutWithMock(clients.OpenStackClients, 'glance')
clients.OpenStackClients.glance().MultipleTimes().AndReturn(
g_cli_mock)
self.m.StubOutWithMock(glance_utils, 'get_image_id')
glance_utils.get_image_id(g_cli_mock, imageId_input).MultipleTimes().\
AndReturn(imageId)
def _create_test_instance(self, return_server, name):
stack_name = '%s_s' % name
t = template_format.parse(wp_template)
template = parser.Template(t)
kwargs = {'KeyName': 'test',
'InstanceType': 'm1.large',
'SubnetId': '4156c7a5-e8c4-4aff-a6e1-8f3c7bc83861'}
stack = parser.Stack(utils.dummy_context(), stack_name, template,
environment.Environment(kwargs),
stack_id=str(uuid.uuid4()))
image_id = 'CentOS 5.2'
t['Resources']['WebServer']['Properties']['ImageId'] = image_id
instance = instances.Instance('%s_name' % name,
t['Resources']['WebServer'], stack)
self.m.StubOutWithMock(instance, 'nova')
instance.nova().MultipleTimes().AndReturn(self.fc)
self.m.StubOutWithMock(clients.OpenStackClients, 'nova')
clients.OpenStackClients.nova().MultipleTimes().AndReturn(self.fc)
self._mock_get_image_id_success(image_id, 1)
self.m.StubOutWithMock(instance, 'neutron')
instance.neutron().MultipleTimes().AndReturn(FakeNeutron())
# need to resolve the template functions
server_userdata = nova_utils.build_userdata(
instance,
instance.t['Properties']['UserData'],
'ec2-user')
self.m.StubOutWithMock(nova_utils, 'build_userdata')
nova_utils.build_userdata(
instance,
instance.t['Properties']['UserData'],
'ec2-user').AndReturn(server_userdata)
self.m.StubOutWithMock(self.fc.servers, 'create')
self.fc.servers.create(
image=1, flavor=3, key_name='test',
name=utils.PhysName(stack_name, instance.name),
security_groups=None,
userdata=server_userdata, scheduler_hints=None, meta=None,
nics=[{'port-id': '64d913c1-bcb1-42d2-8f0a-9593dbcaf251'}],
availability_zone=None).AndReturn(
return_server)
self.m.ReplayAll()
scheduler.TaskRunner(instance.create)()
return instance
def _create_test_instance_with_nic(self, return_server, name):
stack_name = '%s_s' % name
t = template_format.parse(wp_template_with_nic)
template = parser.Template(t)
kwargs = {'KeyName': 'test',
'InstanceType': 'm1.large',
'SubnetId': '4156c7a5-e8c4-4aff-a6e1-8f3c7bc83861'}
stack = parser.Stack(utils.dummy_context(), stack_name, template,
environment.Environment(kwargs),
stack_id=str(uuid.uuid4()))
image_id = 'CentOS 5.2'
t['Resources']['WebServer']['Properties']['ImageId'] = image_id
nic = network_interfaces.NetworkInterface('%s_nic' % name,
t['Resources']['nic1'],
stack)
instance = instances.Instance('%s_name' % name,
t['Resources']['WebServer'], stack)
self._mock_get_image_id_success(image_id, 1)
self.m.StubOutWithMock(nic, 'neutron')
nic.neutron().MultipleTimes().AndReturn(FakeNeutron())
self.m.StubOutWithMock(instance, 'nova')
instance.nova().MultipleTimes().AndReturn(self.fc)
self.m.StubOutWithMock(clients.OpenStackClients, 'nova')
clients.OpenStackClients.nova().MultipleTimes().AndReturn(self.fc)
# need to resolve the template functions
server_userdata = nova_utils.build_userdata(
instance,
instance.t['Properties']['UserData'],
'ec2-user')
self.m.StubOutWithMock(nova_utils, 'build_userdata')
nova_utils.build_userdata(
instance,
instance.t['Properties']['UserData'],
'ec2-user').AndReturn(server_userdata)
self.m.StubOutWithMock(self.fc.servers, 'create')
self.fc.servers.create(
image=1, flavor=3, key_name='test',
name=utils.PhysName(stack_name, instance.name),
security_groups=None,
userdata=server_userdata, scheduler_hints=None, meta=None,
nics=[{'port-id': '64d913c1-bcb1-42d2-8f0a-9593dbcaf251'}],
availability_zone=None).AndReturn(
return_server)
self.m.ReplayAll()
# create network interface
scheduler.TaskRunner(nic.create)()
stack["nic1"] = nic
scheduler.TaskRunner(instance.create)()
return instance
def test_instance_create(self):
return_server = self.fc.servers.list()[1]
instance = self._create_test_instance(return_server,
'in_create')
# this makes sure the auto increment worked on instance creation
self.assertTrue(instance.id > 0)
expected_ip = return_server.networks['public'][0]
self.assertEqual(expected_ip, instance.FnGetAtt('PublicIp'))
self.assertEqual(expected_ip, instance.FnGetAtt('PrivateIp'))
self.assertEqual(expected_ip, instance.FnGetAtt('PrivateDnsName'))
self.assertEqual(expected_ip, instance.FnGetAtt('PrivateDnsName'))
self.m.VerifyAll()
def test_instance_create_with_nic(self):
return_server = self.fc.servers.list()[1]
instance = self._create_test_instance_with_nic(
return_server, 'in_create_wnic')
# this makes sure the auto increment worked on instance creation
self.assertTrue(instance.id > 0)
expected_ip = return_server.networks['public'][0]
self.assertEqual(expected_ip, instance.FnGetAtt('PublicIp'))
self.assertEqual(expected_ip, instance.FnGetAtt('PrivateIp'))
self.assertEqual(expected_ip, instance.FnGetAtt('PrivateDnsName'))
self.assertEqual(expected_ip, instance.FnGetAtt('PrivateDnsName'))
self.m.VerifyAll()