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apache / libcloud / 53603c9585ef92b90e23d882f767e913e9225e96 / . / libcloud / test / compute / test_ec2.py
blob: 1deee4833a975c31a4ff3664425409a349aa6ccb [file] [log] [blame]
# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements. See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You under the Apache License, Version 2.0
# (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from __future__ import with_statement
from collections import OrderedDict
import os
import sys
import base64
from datetime import datetime
from libcloud.utils.iso8601 import UTC
from libcloud.utils.py3 import httplib
from libcloud.utils.py3 import parse_qs
from libcloud.utils.py3 import b
from libcloud.compute.drivers.ec2 import EC2NodeDriver
from libcloud.compute.drivers.ec2 import EC2PlacementGroup
from libcloud.compute.drivers.ec2 import NimbusNodeDriver, EucNodeDriver
from libcloud.compute.drivers.ec2 import OutscaleSASNodeDriver
from libcloud.compute.drivers.ec2 import IdempotentParamError
from libcloud.compute.drivers.ec2 import REGION_DETAILS, VALID_EC2_REGIONS
from libcloud.compute.drivers.ec2 import ExEC2AvailabilityZone
from libcloud.compute.drivers.ec2 import EC2NetworkSubnet
from libcloud.compute.base import Node, NodeImage, NodeSize, NodeLocation
from libcloud.compute.base import StorageVolume, VolumeSnapshot
from libcloud.compute.types import KeyPairDoesNotExistError, StorageVolumeState, \
VolumeSnapshotState
from libcloud.test import MockHttp, LibcloudTestCase
from libcloud.test.compute import TestCaseMixin
from libcloud.test.file_fixtures import ComputeFileFixtures
from libcloud.test import unittest
from libcloud.test.secrets import EC2_PARAMS
null_fingerprint = '00:00:00:00:00:00:00:00:00:00:00:00:00:00:00:' + \
'00:00:00:00:00'
class BaseEC2Tests(LibcloudTestCase):
def test_instantiate_driver_valid_regions(self):
regions = REGION_DETAILS.keys()
regions = [d for d in regions if d != 'nimbus' and d != 'cn-north-1']
region_endpoints = [
EC2NodeDriver(*EC2_PARAMS, **{'region': region}).connection.host for region in regions
]
# Verify that each driver doesn't get the same API host endpoint
self.assertEqual(len(region_endpoints),
len(set(region_endpoints)),
"Multiple Region Drivers were given the same API endpoint")
def test_instantiate_driver_invalid_regions(self):
for region in ['invalid', 'nimbus']:
try:
EC2NodeDriver(*EC2_PARAMS, **{'region': region})
except ValueError:
pass
else:
self.fail('Invalid region, but exception was not thrown')
def test_list_sizes_valid_regions(self):
unsupported_regions = list()
for region in VALID_EC2_REGIONS:
no_pricing = region in ['cn-north-1']
driver = EC2NodeDriver(*EC2_PARAMS, **{'region': region})
try:
sizes = driver.list_sizes()
if no_pricing:
self.assertTrue(all([s.price is None for s in sizes]))
except Exception:
unsupported_regions.append(region)
if unsupported_regions:
self.fail('Cannot list sizes from ec2 regions: %s' % unsupported_regions)
class EC2Tests(LibcloudTestCase, TestCaseMixin):
image_name = 'ec2-public-images/fedora-8-i386-base-v1.04.manifest.xml'
region = 'us-east-1'
def setUp(self):
EC2MockHttp.test = self
EC2NodeDriver.connectionCls.conn_class = EC2MockHttp
EC2MockHttp.use_param = 'Action'
EC2MockHttp.type = None
self.driver = EC2NodeDriver(*EC2_PARAMS,
**{'region': self.region})
def test_instantiate_driver_with_token(self):
token = 'temporary_credentials_token'
driver = EC2NodeDriver(*EC2_PARAMS, **{'region': self.region, 'token': token})
self.assertTrue(hasattr(driver, 'token'), 'Driver has no attribute token')
self.assertEqual(token, driver.token, "Driver token does not match with provided token")
def test_driver_with_token_signature_version(self):
token = 'temporary_credentials_token'
driver = EC2NodeDriver(*EC2_PARAMS, **{'region': self.region, 'token': token})
kwargs = driver._ex_connection_class_kwargs()
self.assertIn('signature_version', kwargs)
self.assertEqual('4', kwargs['signature_version'], 'Signature version is not 4 with temporary credentials')
def test_create_node(self):
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
node = self.driver.create_node(name='foo', image=image, size=size)
self.assertEqual(node.id, 'i-2ba64342')
self.assertEqual(node.name, 'foo')
self.assertEqual(node.extra['tags']['Name'], 'foo')
self.assertEqual(len(node.extra['tags']), 1)
def test_create_node_with_ex_mincount(self):
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
node = self.driver.create_node(name='foo', image=image, size=size,
ex_mincount=1, ex_maxcount=10)
self.assertEqual(node.id, 'i-2ba64342')
self.assertEqual(node.name, 'foo')
self.assertEqual(node.extra['tags']['Name'], 'foo')
self.assertEqual(len(node.extra['tags']), 1)
def test_create_node_with_ex_assign_public_ip(self):
# assertions are done in _create_ex_assign_public_ip_RunInstances
EC2MockHttp.type = 'create_ex_assign_public_ip'
image = NodeImage(id='ami-11111111',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
subnet = EC2NetworkSubnet('subnet-11111111', "test_subnet", "pending")
self.driver.create_node(
name='foo',
image=image,
size=size,
ex_subnet=subnet,
ex_security_group_ids=[
'sg-11111111'
],
ex_assign_public_ip=True,
)
def test_create_node_with_ex_terminate_on_shutdown(self):
EC2MockHttp.type = 'create_ex_terminate_on_shutdown'
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
# The important part about the test is asserted inside
# EC2MockHttp._create_ex_terminate_on_shutdown
self.driver.create_node(name='foo', image=image, size=size, ex_terminate_on_shutdown=True)
def test_create_node_with_metadata(self):
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
node = self.driver.create_node(name='foo',
image=image,
size=size,
ex_metadata={'Bar': 'baz', 'Num': '42'})
self.assertEqual(node.name, 'foo')
self.assertEqual(node.extra['tags']['Name'], 'foo')
self.assertEqual(node.extra['tags']['Bar'], 'baz')
self.assertEqual(node.extra['tags']['Num'], '42')
self.assertEqual(len(node.extra['tags']), 3)
def test_create_node_idempotent(self):
EC2MockHttp.type = 'idempotent'
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
token = 'testclienttoken'
node = self.driver.create_node(name='foo', image=image, size=size,
ex_clienttoken=token)
self.assertEqual(node.id, 'i-2ba64342')
self.assertEqual(node.extra['client_token'], token)
# from: http://docs.amazonwebservices.com/AWSEC2/latest/DeveloperGuide/index.html?Run_Instance_Idempotency.html
# If you repeat the request with the same client token, but change
# another request parameter, Amazon EC2 returns an
# IdempotentParameterMismatch error.
# In our case, changing the parameter doesn't actually matter since we
# are forcing the error response fixture.
EC2MockHttp.type = 'idempotent_mismatch'
idem_error = None
# different count
try:
self.driver.create_node(name='foo', image=image, size=size,
ex_mincount='2', ex_maxcount='2',
ex_clienttoken=token)
except IdempotentParamError as e:
idem_error = e
self.assertTrue(idem_error is not None)
def test_create_node_no_availability_zone(self):
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
node = self.driver.create_node(name='foo', image=image, size=size)
location = NodeLocation(0, 'Amazon US N. Virginia', 'US', self.driver)
self.assertEqual(node.id, 'i-2ba64342')
node = self.driver.create_node(name='foo', image=image, size=size,
location=location)
self.assertEqual(node.id, 'i-2ba64342')
self.assertEqual(node.name, 'foo')
def test_list_nodes(self):
node = self.driver.list_nodes()[0]
public_ips = sorted(node.public_ips)
self.assertEqual(node.id, 'i-4382922a')
self.assertEqual(node.name, node.id)
self.assertEqual(len(node.public_ips), 2)
self.assertEqual(node.extra['launch_time'], '2013-12-02T11:58:11.000Z')
self.assertEqual(node.created_at, datetime(2013, 12, 2, 11, 58, 11, tzinfo=UTC))
self.assertTrue('instance_type' in node.extra)
self.assertEqual(node.extra['availability'], 'us-east-1d')
self.assertEqual(node.extra['key_name'], 'fauxkey')
self.assertEqual(node.extra['monitoring'], 'disabled')
self.assertEqual(node.extra['image_id'], 'ami-3215fe5a')
self.assertEqual(len(node.extra['groups']), 2)
self.assertEqual(len(node.extra['block_device_mapping']), 1)
self.assertEqual(node.extra['block_device_mapping'][0]['device_name'], '/dev/sda1')
self.assertEqual(node.extra['block_device_mapping'][0]['ebs']['volume_id'], 'vol-5e312311')
self.assertTrue(node.extra['block_device_mapping'][0]['ebs']['delete'])
self.assertEqual(node.extra['block_device_mapping'][0]['ebs']['status'], 'attached')
self.assertEqual(node.extra['block_device_mapping'][0]['ebs']['attach_time'],
datetime(2013, 4, 9, 18, 1, 1, tzinfo=UTC))
self.assertEqual(public_ips[0], '1.2.3.4')
nodes = self.driver.list_nodes(ex_node_ids=['i-4382922a',
'i-8474834a'])
ret_node1 = nodes[0]
ret_node2 = nodes[1]
self.assertEqual(ret_node1.id, 'i-4382922a')
self.assertEqual(ret_node2.id, 'i-8474834a')
self.assertEqual(ret_node2.name, 'Test Server 2')
self.assertEqual(ret_node2.extra['subnet_id'], 'subnet-5fd9d412')
self.assertEqual(ret_node2.extra['vpc_id'], 'vpc-61dcd30e')
self.assertEqual(ret_node2.extra['tags']['Group'], 'VPC Test')
self.assertEqual(ret_node1.extra['launch_time'], '2013-12-02T11:58:11.000Z')
self.assertEqual(ret_node1.created_at, datetime(2013, 12, 2, 11, 58, 11, tzinfo=UTC))
self.assertEqual(ret_node2.extra['launch_time'], '2013-12-02T15:58:29.000Z')
self.assertEqual(ret_node2.created_at, datetime(2013, 12, 2, 15, 58, 29, tzinfo=UTC))
self.assertIn('instance_type', ret_node1.extra)
self.assertIn('instance_type', ret_node2.extra)
def test_ex_list_reserved_nodes(self):
node = self.driver.ex_list_reserved_nodes()[0]
self.assertEqual(node.id, '93bbbca2-c500-49d0-9ede-9d8737400498')
self.assertEqual(node.state, 'active')
self.assertEqual(node.extra['instance_type'], 't1.micro')
self.assertEqual(node.extra['availability'], 'us-east-1b')
self.assertEqual(node.extra['start'], '2013-06-18T12:07:53.161Z')
self.assertEqual(node.extra['end'], '2014-06-18T12:07:53.161Z')
self.assertEqual(node.extra['duration'], 31536000)
self.assertEqual(node.extra['usage_price'], 0.012)
self.assertEqual(node.extra['fixed_price'], 23.0)
self.assertEqual(node.extra['instance_count'], 1)
self.assertEqual(node.extra['description'], 'Linux/UNIX')
self.assertEqual(node.extra['instance_tenancy'], 'default')
self.assertEqual(node.extra['currency_code'], 'USD')
self.assertEqual(node.extra['offering_type'], 'Light Utilization')
def test_list_location(self):
locations = self.driver.list_locations()
self.assertTrue(len(locations) > 0)
self.assertEqual(locations[0].name, 'eu-west-1a')
self.assertTrue(locations[0].availability_zone is not None)
self.assertTrue(isinstance(locations[0].availability_zone,
ExEC2AvailabilityZone))
def test_list_security_groups(self):
groups = self.driver.ex_list_security_groups()
self.assertEqual(groups, ['WebServers', 'RangedPortsBySource'])
def test_ex_delete_security_group_by_id(self):
group_id = 'sg-443d0a12'
retValue = self.driver.ex_delete_security_group_by_id(group_id)
self.assertTrue(retValue)
def test_delete_security_group_by_name(self):
group_name = 'WebServers'
retValue = self.driver.ex_delete_security_group_by_name(group_name)
self.assertTrue(retValue)
def test_ex_delete_security_group(self):
name = 'WebServers'
retValue = self.driver.ex_delete_security_group(name)
self.assertTrue(retValue)
def test_authorize_security_group(self):
resp = self.driver.ex_authorize_security_group('TestGroup', '22', '22',
'0.0.0.0/0')
self.assertTrue(resp)
def test_authorize_security_group_ingress(self):
ranges = ['1.1.1.1/32', '2.2.2.2/32']
description = "automated authorised IP ingress test"
resp = self.driver.ex_authorize_security_group_ingress('sg-42916629', 22, 22, cidr_ips=ranges, description=description)
self.assertTrue(resp)
groups = [{'group_id': 'sg-949265ff'}]
description = "automated authorised group ingress test"
resp = self.driver.ex_authorize_security_group_ingress('sg-42916629', 22, 23, group_pairs=groups, description=description)
self.assertTrue(resp)
def test_authorize_security_group_egress(self):
ranges = ['1.1.1.1/32', '2.2.2.2/32']
resp = self.driver.ex_authorize_security_group_ingress('sg-42916629', 22, 22, cidr_ips=ranges)
self.assertTrue(resp)
groups = [{'group_id': 'sg-949265ff'}]
resp = self.driver.ex_authorize_security_group_ingress('sg-42916629', 22, 22, group_pairs=groups)
self.assertTrue(resp)
def test_revoke_security_group_ingress(self):
ranges = ['1.1.1.1/32', '2.2.2.2/32']
resp = self.driver.ex_authorize_security_group_ingress('sg-42916629', 22, 22, cidr_ips=ranges)
self.assertTrue(resp)
groups = [{'group_id': 'sg-949265ff'}]
resp = self.driver.ex_authorize_security_group_ingress('sg-42916629', 22, 22, group_pairs=groups)
self.assertTrue(resp)
def test_revoke_security_group_egress(self):
ranges = ['1.1.1.1/32', '2.2.2.2/32']
resp = self.driver.ex_authorize_security_group_ingress('sg-42916629', 22, 22, cidr_ips=ranges)
self.assertTrue(resp)
groups = [{'group_id': 'sg-949265ff'}]
resp = self.driver.ex_authorize_security_group_ingress('sg-42916629', 22, 22, group_pairs=groups)
self.assertTrue(resp)
def test_reboot_node(self):
node = Node('i-4382922a', None, None, None, None, self.driver)
ret = self.driver.reboot_node(node)
self.assertTrue(ret)
def test_ex_start_node(self):
node = Node('i-4382922a', None, None, None, None, self.driver)
ret = self.driver.ex_start_node(node)
self.assertTrue(ret)
def test_ex_stop_node(self):
node = Node('i-4382922a', None, None, None, None, self.driver)
ret = self.driver.ex_stop_node(node)
self.assertTrue(ret)
def test_ex_create_node_with_ex_blockdevicemappings(self):
EC2MockHttp.type = 'create_ex_blockdevicemappings'
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
mappings = [
{'DeviceName': '/dev/sda1', 'Ebs.VolumeSize': 10},
{'DeviceName': '/dev/sdb', 'VirtualName': 'ephemeral0'},
{'DeviceName': '/dev/sdc', 'VirtualName': 'ephemeral1'}
]
node = self.driver.create_node(name='foo', image=image, size=size,
ex_blockdevicemappings=mappings)
self.assertEqual(node.id, 'i-2ba64342')
def test_ex_create_node_with_ex_blockdevicemappings_attribute_error(self):
EC2MockHttp.type = 'create_ex_blockdevicemappings'
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
mappings = 'this should be a list'
self.assertRaises(AttributeError, self.driver.create_node, name='foo',
image=image, size=size,
ex_blockdevicemappings=mappings)
mappings = ['this should be a dict']
self.assertRaises(AttributeError, self.driver.create_node, name='foo',
image=image, size=size,
ex_blockdevicemappings=mappings)
def test_destroy_node(self):
node = Node('i-4382922a', None, None, None, None, self.driver)
ret = self.driver.destroy_node(node)
self.assertTrue(ret)
def test_list_sizes(self):
region_old = self.driver.region_name
names = [
('ec2_us_east', 'us-east-1'),
('ec2_us_west', 'us-west-1'),
('ec2_us_west', 'us-west-2'),
('ec2_eu_west', 'eu-west-1'),
('ec2_ap_southeast', 'ap-southeast-1'),
('ec2_ap_northeast', 'ap-northeast-1'),
('ec2_ap_southeast_2', 'ap-southeast-2'),
('ec2_ap_south_1', 'ap-south-1')
]
for api_name, region_name in names:
self.driver.api_name = api_name
self.driver.region_name = region_name
sizes = self.driver.list_sizes()
self.assertNotEqual(len(sizes), 0)
self.driver.region_name = region_old
def test_ex_create_node_with_ex_iam_profile(self):
iamProfile = {
'id': 'AIDGPMS9RO4H3FEXAMPLE',
'name': 'Foo',
'arn': 'arn:aws:iam:...'
}
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
EC2MockHttp.type = None
node1 = self.driver.create_node(name='foo', image=image, size=size)
EC2MockHttp.type = 'ex_iam_profile'
node2 = self.driver.create_node(name='bar', image=image, size=size,
ex_iamprofile=iamProfile['name'])
node3 = self.driver.create_node(name='bar', image=image, size=size,
ex_iamprofile=iamProfile['arn'])
self.assertFalse(node1.extra['iam_profile'])
self.assertEqual(node2.extra['iam_profile'], iamProfile['id'])
self.assertEqual(node3.extra['iam_profile'], iamProfile['id'])
def test_list_images(self):
images = self.driver.list_images()
self.assertEqual(len(images), 2)
location = '123456788908/Test Image'
self.assertEqual(images[0].id, 'ami-57ba933a')
self.assertEqual(images[0].name, 'Test Image')
self.assertEqual(images[0].extra['image_location'], location)
self.assertEqual(images[0].extra['architecture'], 'x86_64')
self.assertEqual(len(images[0].extra['block_device_mapping']), 2)
ephemeral = images[0].extra['block_device_mapping'][1]['virtual_name']
self.assertEqual(ephemeral, 'ephemeral0')
billing_product1 = images[0].extra['billing_products'][0]
self.assertEqual(billing_product1, 'ab-5dh78019')
location = '123456788908/Test Image 2'
self.assertEqual(images[1].id, 'ami-85b2a8ae')
self.assertEqual(images[1].name, 'Test Image 2')
self.assertEqual(images[1].extra['image_location'], location)
self.assertEqual(images[1].extra['architecture'], 'x86_64')
size = images[1].extra['block_device_mapping'][0]['ebs']['volume_size']
billing_product2 = images[1].extra['billing_products'][0]
self.assertEqual(billing_product2, 'as-6dr90319')
self.assertEqual(size, 20)
def test_list_images_with_image_ids(self):
EC2MockHttp.type = 'ex_imageids'
images = self.driver.list_images(ex_image_ids=['ami-57ba933a'])
self.assertEqual(len(images), 1)
self.assertEqual(images[0].name, 'Test Image')
def test_list_images_with_executable_by(self):
images = self.driver.list_images(ex_executableby='self')
self.assertEqual(len(images), 2)
def test_get_image(self):
image = self.driver.get_image('ami-57ba933a')
self.assertEqual(image.id, 'ami-57ba933a')
self.assertEqual(image.name, 'Test Image')
self.assertEqual(image.extra['architecture'], 'x86_64')
self.assertEqual(len(image.extra['block_device_mapping']), 2)
self.assertEqual(image.extra['billing_products'][0], 'ab-5dh78019')
def test_copy_image(self):
image = self.driver.list_images()[0]
resp = self.driver.copy_image(image, 'us-east-1',
name='Faux Image',
description='Test Image Copy')
self.assertEqual(resp.id, 'ami-4db38224')
def test_create_image(self):
node = self.driver.list_nodes()[0]
mapping = [{'VirtualName': None,
'Ebs': {'VolumeSize': 10,
'VolumeType': 'standard',
'DeleteOnTermination': 'true'},
'DeviceName': '/dev/sda1'}]
resp = self.driver.create_image(node,
'New Image',
description='New EBS Image',
block_device_mapping=mapping)
self.assertEqual(resp.id, 'ami-e9b38280')
def test_create_image_no_mapping(self):
node = self.driver.list_nodes()[0]
resp = self.driver.create_image(node,
'New Image',
description='New EBS Image')
self.assertEqual(resp.id, 'ami-e9b38280')
def delete_image(self):
images = self.driver.list_images()
image = images[0]
resp = self.driver.delete_image(image)
self.assertTrue(resp)
def ex_register_image(self):
mapping = [{'DeviceName': '/dev/sda1',
'Ebs': {'SnapshotId': 'snap-5ade3e4e'}}]
image = self.driver.ex_register_image(name='Test Image',
root_device_name='/dev/sda1',
description='My Image',
architecture='x86_64',
block_device_mapping=mapping,
ena_support=True,
billing_products=['ab-5dh78019'],
sriov_net_support='simple')
self.assertEqual(image.id, 'ami-57c2fb3e')
def test_ex_import_snapshot(self):
disk_container = [{'Description': 'Dummy import snapshot task',
'Format': 'raw',
'UserBucket': {'S3Bucket': 'dummy-bucket', 'S3Key': 'dummy-key'}}]
snap = self.driver.ex_import_snapshot(disk_container=disk_container)
self.assertEqual(snap.id, 'snap-0ea83e8a87e138f39')
def test_wait_for_import_snapshot_completion(self):
snap = self.driver._wait_for_import_snapshot_completion(
import_task_id='import-snap-fhdysyq6')
self.assertEqual(snap.id, 'snap-0ea83e8a87e138f39')
def test_timeout_wait_for_import_snapshot_completion(self):
import_task_id = 'import-snap-fhdysyq6'
EC2MockHttp.type = 'timeout'
with self.assertRaises(Exception) as context:
self.driver._wait_for_import_snapshot_completion(
import_task_id=import_task_id, timeout=0.01, interval=0.001)
self.assertEqual('Timeout while waiting for import task Id %s'
% import_task_id, str(context.exception))
def test_ex_describe_import_snapshot_tasks(self):
snap = self.driver.ex_describe_import_snapshot_tasks(
import_task_id='import-snap-fh7y6i6w<')
self.assertEqual(snap.snapshotId, 'snap-0ea83e8a87e138f39')
self.assertEqual(snap.status, 'completed')
def test_ex_list_availability_zones(self):
availability_zones = self.driver.ex_list_availability_zones()
availability_zone = availability_zones[0]
self.assertTrue(len(availability_zones) > 0)
self.assertEqual(availability_zone.name, 'eu-west-1a')
self.assertEqual(availability_zone.zone_state, 'available')
self.assertEqual(availability_zone.region_name, 'eu-west-1')
def test_list_keypairs(self):
keypairs = self.driver.list_key_pairs()
self.assertEqual(len(keypairs), 1)
self.assertEqual(keypairs[0].name, 'gsg-keypair')
self.assertEqual(keypairs[0].fingerprint, null_fingerprint)
# Test old deprecated method
keypairs = self.driver.ex_list_keypairs()
self.assertEqual(len(keypairs), 1)
self.assertEqual(keypairs[0]['keyName'], 'gsg-keypair')
self.assertEqual(keypairs[0]['keyFingerprint'], null_fingerprint)
def test_get_key_pair(self):
EC2MockHttp.type = 'get_one'
key_pair = self.driver.get_key_pair(name='gsg-keypair')
self.assertEqual(key_pair.name, 'gsg-keypair')
def test_get_key_pair_does_not_exist(self):
EC2MockHttp.type = 'doesnt_exist'
self.assertRaises(KeyPairDoesNotExistError, self.driver.get_key_pair,
name='test-key-pair')
def test_create_key_pair(self):
key_pair = self.driver.create_key_pair(name='test-keypair')
fingerprint = ('1f:51:ae:28:bf:89:e9:d8:1f:25:5d'
':37:2d:7d:b8:ca:9f:f5:f1:6f')
self.assertEqual(key_pair.name, 'my-key-pair')
self.assertEqual(key_pair.fingerprint, fingerprint)
self.assertTrue(key_pair.private_key is not None)
# Test old and deprecated method
key_pair = self.driver.ex_create_keypair(name='test-keypair')
self.assertEqual(key_pair['keyFingerprint'], fingerprint)
self.assertTrue(key_pair['keyMaterial'] is not None)
def test_ex_describe_all_keypairs(self):
keys = self.driver.ex_describe_all_keypairs()
self.assertEqual(keys, ['gsg-keypair'])
def test_list_key_pairs(self):
keypair1 = self.driver.list_key_pairs()[0]
self.assertEqual(keypair1.name, 'gsg-keypair')
self.assertEqual(keypair1.fingerprint, null_fingerprint)
# Test backward compatibility
keypair2 = self.driver.ex_describe_keypairs('gsg-keypair')
self.assertEqual(keypair2['keyName'], 'gsg-keypair')
self.assertEqual(keypair2['keyFingerprint'], null_fingerprint)
def test_delete_key_pair(self):
keypair = self.driver.list_key_pairs()[0]
success = self.driver.delete_key_pair(keypair)
self.assertTrue(success)
# Test old and deprecated method
resp = self.driver.ex_delete_keypair('gsg-keypair')
self.assertTrue(resp)
def test_ex_describe_tags(self):
node = Node('i-4382922a', None, None, None, None, self.driver)
tags = self.driver.ex_describe_tags(resource=node)
self.assertEqual(len(tags), 3)
self.assertTrue('tag' in tags)
self.assertTrue('owner' in tags)
self.assertTrue('stack' in tags)
def test_import_key_pair_from_string(self):
path = os.path.join(os.path.dirname(__file__), 'fixtures', 'misc',
'test_rsa.pub')
with open(path, 'r') as fp:
key_material = fp.read()
key = self.driver.import_key_pair_from_string(name='keypair',
key_material=key_material)
self.assertEqual(key.name, 'keypair')
self.assertEqual(key.fingerprint, null_fingerprint)
# Test old and deprecated method
key = self.driver.ex_import_keypair_from_string('keypair',
key_material)
self.assertEqual(key['keyName'], 'keypair')
self.assertEqual(key['keyFingerprint'], null_fingerprint)
def test_import_key_pair_from_file(self):
path = os.path.join(os.path.dirname(__file__), 'fixtures', 'misc',
'test_rsa.pub')
key = self.driver.import_key_pair_from_file('keypair', path)
self.assertEqual(key.name, 'keypair')
self.assertEqual(key.fingerprint, null_fingerprint)
# Test old and deprecated method
key = self.driver.ex_import_keypair('keypair', path)
self.assertEqual(key['keyName'], 'keypair')
self.assertEqual(key['keyFingerprint'], null_fingerprint)
def test_ex_create_tags(self):
node = Node('i-4382922a', None, None, None, None, self.driver)
self.driver.ex_create_tags(node, {'sample': 'tag'})
def test_ex_delete_tags(self):
node = Node('i-4382922a', None, None, None, None, self.driver)
self.driver.ex_delete_tags(node, {'sample': 'tag'})
def test_ex_delete_tags2(self):
node = Node('i-4382922a', None, None, None, None, self.driver)
self.driver.ex_create_tags(node, {'sample': 'another tag'})
self.driver.ex_delete_tags(node, {'sample': None})
def test_ex_describe_addresses_for_node(self):
node1 = Node('i-4382922a', None, None, None, None, self.driver)
ip_addresses1 = self.driver.ex_describe_addresses_for_node(node1)
node2 = Node('i-4382922b', None, None, None, None, self.driver)
ip_addresses2 = sorted(
self.driver.ex_describe_addresses_for_node(node2))
node3 = Node('i-4382922g', None, None, None, None, self.driver)
ip_addresses3 = sorted(
self.driver.ex_describe_addresses_for_node(node3))
self.assertEqual(len(ip_addresses1), 1)
self.assertEqual(ip_addresses1[0], '1.2.3.4')
self.assertEqual(len(ip_addresses2), 2)
self.assertEqual(ip_addresses2[0], '1.2.3.5')
self.assertEqual(ip_addresses2[1], '1.2.3.6')
self.assertEqual(len(ip_addresses3), 0)
def test_ex_describe_addresses(self):
node1 = Node('i-4382922a', None, None, None, None, self.driver)
node2 = Node('i-4382922g', None, None, None, None, self.driver)
nodes_elastic_ips1 = self.driver.ex_describe_addresses([node1])
nodes_elastic_ips2 = self.driver.ex_describe_addresses([node2])
self.assertEqual(len(nodes_elastic_ips1), 1)
self.assertTrue(node1.id in nodes_elastic_ips1)
self.assertEqual(nodes_elastic_ips1[node1.id], ['1.2.3.4'])
self.assertEqual(len(nodes_elastic_ips2), 1)
self.assertTrue(node2.id in nodes_elastic_ips2)
self.assertEqual(nodes_elastic_ips2[node2.id], [])
def test_ex_describe_all_addresses(self):
EC2MockHttp.type = 'all_addresses'
elastic_ips1 = self.driver.ex_describe_all_addresses()
elastic_ips2 = self.driver.ex_describe_all_addresses(
only_associated=True)
self.assertEqual('1.2.3.7', elastic_ips1[3].ip)
self.assertEqual('vpc', elastic_ips1[3].domain)
self.assertEqual('eipalloc-992a5cf8', elastic_ips1[3].extra['allocation_id'])
self.assertEqual(len(elastic_ips2), 2)
self.assertEqual('1.2.3.5', elastic_ips2[1].ip)
self.assertEqual('vpc', elastic_ips2[1].domain)
def test_ex_allocate_address(self):
elastic_ip = self.driver.ex_allocate_address()
self.assertEqual('192.0.2.1', elastic_ip.ip)
self.assertEqual('standard', elastic_ip.domain)
EC2MockHttp.type = 'vpc'
elastic_ip = self.driver.ex_allocate_address(domain='vpc')
self.assertEqual('192.0.2.2', elastic_ip.ip)
self.assertEqual('vpc', elastic_ip.domain)
self.assertEqual('eipalloc-666d7f04', elastic_ip.extra['allocation_id'])
def test_ex_release_address(self):
EC2MockHttp.type = 'all_addresses'
elastic_ips = self.driver.ex_describe_all_addresses()
EC2MockHttp.type = ''
ret = self.driver.ex_release_address(elastic_ips[2])
self.assertTrue(ret)
ret = self.driver.ex_release_address(elastic_ips[0], domain='vpc')
self.assertTrue(ret)
self.assertRaises(AttributeError,
self.driver.ex_release_address,
elastic_ips[0],
domain='bogus')
def test_ex_associate_address_with_node(self):
node = Node('i-4382922a', None, None, None, None, self.driver)
EC2MockHttp.type = 'all_addresses'
elastic_ips = self.driver.ex_describe_all_addresses()
EC2MockHttp.type = ''
ret1 = self.driver.ex_associate_address_with_node(
node, elastic_ips[2])
ret2 = self.driver.ex_associate_addresses(
node, elastic_ips[2])
self.assertEqual(None, ret1)
self.assertEqual(None, ret2)
EC2MockHttp.type = 'vpc'
ret3 = self.driver.ex_associate_address_with_node(
node, elastic_ips[3], domain='vpc')
ret4 = self.driver.ex_associate_addresses(
node, elastic_ips[3], domain='vpc')
self.assertEqual('eipassoc-167a8073', ret3)
self.assertEqual('eipassoc-167a8073', ret4)
self.assertRaises(AttributeError,
self.driver.ex_associate_address_with_node,
node,
elastic_ips[1],
domain='bogus')
def test_ex_disassociate_address(self):
EC2MockHttp.type = 'all_addresses'
elastic_ips = self.driver.ex_describe_all_addresses()
EC2MockHttp.type = ''
ret = self.driver.ex_disassociate_address(elastic_ips[2])
self.assertTrue(ret)
# Test a VPC disassociation
ret = self.driver.ex_disassociate_address(elastic_ips[1],
domain='vpc')
self.assertTrue(ret)
self.assertRaises(AttributeError,
self.driver.ex_disassociate_address,
elastic_ips[1],
domain='bogus')
def test_ex_change_node_size_same_size(self):
size = NodeSize('m1.small', 'Small Instance',
None, None, None, None, driver=self.driver)
node = Node('i-4382922a', None, None, None, None, self.driver,
extra={'instancetype': 'm1.small'})
try:
self.driver.ex_change_node_size(node=node, new_size=size)
except ValueError:
pass
else:
self.fail('Same size was passed, but an exception was not thrown')
def test_ex_change_node_size(self):
size = NodeSize('m1.large', 'Small Instance',
None, None, None, None, driver=self.driver)
node = Node('i-4382922a', None, None, None, None, self.driver,
extra={'instancetype': 'm1.small'})
result = self.driver.ex_change_node_size(node=node, new_size=size)
self.assertTrue(result)
def test_list_volumes(self):
volumes = self.driver.list_volumes()
self.assertEqual(len(volumes), 3)
self.assertEqual('vol-10ae5e2b', volumes[0].id)
self.assertEqual(1, volumes[0].size)
self.assertEqual('available', volumes[0].extra['state'])
self.assertEqual(StorageVolumeState.AVAILABLE, volumes[0].state)
self.assertEqual('vol-v24bfh75', volumes[1].id)
self.assertEqual(11, volumes[1].size)
self.assertIsNone(volumes[1].extra['snapshot_id'])
self.assertEqual('in-use', volumes[1].extra['state'])
self.assertEqual(StorageVolumeState.INUSE, volumes[1].state)
self.assertEqual('vol-b6c851ec', volumes[2].id)
self.assertEqual(8, volumes[2].size)
self.assertEqual('some-unknown-status', volumes[2].extra['state'])
self.assertEqual('i-d334b4b3', volumes[2].extra['instance_id'])
self.assertEqual('/dev/sda1', volumes[2].extra['device'])
self.assertEqual('snap-30d37269', volumes[2].extra['snapshot_id'])
self.assertEqual(StorageVolumeState.UNKNOWN, volumes[2].state)
EC2MockHttp.type = 'filters_nodes'
node = Node('i-d334b4b3', None, None, None, None, self.driver)
self.driver.list_volumes(node=node)
EC2MockHttp.type = 'filters_status'
self.driver.list_volumes(ex_filters={'status': 'available'})
def test_create_volume(self):
location = self.driver.list_locations()[0]
vol = self.driver.create_volume(10, 'vol', location)
self.assertEqual(10, vol.size)
self.assertEqual('vol', vol.name)
self.assertEqual('creating', vol.extra['state'])
self.assertTrue(isinstance(vol.extra['create_time'], datetime))
self.assertEqual(False, vol.extra['encrypted'])
def test_create_encrypted_volume(self):
location = self.driver.list_locations()[0]
vol = self.driver.create_volume(
10, 'vol', location,
ex_encrypted=True,
ex_kms_key_id='1234')
self.assertEqual(10, vol.size)
self.assertEqual('vol', vol.name)
self.assertEqual('creating', vol.extra['state'])
self.assertTrue(isinstance(vol.extra['create_time'], datetime))
self.assertEqual(True, vol.extra['encrypted'])
def test_destroy_volume(self):
vol = StorageVolume(id='vol-4282672b', name='test',
state=StorageVolumeState.AVAILABLE,
size=10, driver=self.driver)
retValue = self.driver.destroy_volume(vol)
self.assertTrue(retValue)
def test_attach(self):
vol = StorageVolume(id='vol-4282672b', name='test',
size=10, state=StorageVolumeState.AVAILABLE,
driver=self.driver)
node = Node('i-4382922a', None, None, None, None, self.driver)
retValue = self.driver.attach_volume(node, vol, '/dev/sdh')
self.assertTrue(retValue)
def test_detach(self):
vol = StorageVolume(id='vol-4282672b', name='test',
state=StorageVolumeState.INUSE,
size=10, driver=self.driver)
retValue = self.driver.detach_volume(vol)
self.assertTrue(retValue)
def test_create_volume_snapshot(self):
vol = StorageVolume(id='vol-4282672b', name='test',
state=StorageVolumeState.AVAILABLE,
size=10, driver=self.driver)
snap = self.driver.create_volume_snapshot(
vol, 'Test snapshot')
self.assertEqual('snap-a7cb2hd9', snap.id)
self.assertEqual(vol.size, snap.size)
self.assertEqual('Test snapshot', snap.extra['name'])
self.assertEqual(vol.id, snap.extra['volume_id'])
self.assertEqual('pending', snap.extra['state'])
self.assertEqual(VolumeSnapshotState.CREATING, snap.state)
# 2013-08-15T16:22:30.000Z
self.assertEqual(datetime(2013, 8, 15, 16, 22, 30, tzinfo=UTC), snap.created)
def test_create_volume_snapshot_with_tags(self):
vol = StorageVolume(id='vol-4282672b', name='test',
state=StorageVolumeState.AVAILABLE,
size=10, driver=self.driver)
snap = self.driver.create_volume_snapshot(
vol, 'Test snapshot', ex_metadata={'my_tag': 'test'})
self.assertEqual('test', snap.extra['tags']['my_tag'])
def test_list_snapshots(self):
snaps = self.driver.list_snapshots()
self.assertEqual(len(snaps), 3)
self.assertEqual('snap-428abd35', snaps[0].id)
self.assertEqual(VolumeSnapshotState.CREATING, snaps[0].state)
self.assertEqual('vol-e020df80', snaps[0].extra['volume_id'])
self.assertEqual(30, snaps[0].size)
self.assertEqual('Daily Backup', snaps[0].extra['description'])
self.assertEqual('snap-18349159', snaps[1].id)
self.assertEqual('DB Backup 1', snaps[1].name)
self.assertEqual(VolumeSnapshotState.AVAILABLE, snaps[1].state)
self.assertEqual('vol-b5a2c1v9', snaps[1].extra['volume_id'])
self.assertEqual(15, snaps[1].size)
self.assertEqual('Weekly backup', snaps[1].extra['description'])
self.assertEqual('DB Backup 1', snaps[1].extra['name'])
def test_list_volume_snapshots(self):
volume = self.driver.list_volumes()[0]
assert volume.id == 'vol-10ae5e2b'
snapshots = self.driver.list_volume_snapshots(volume)
self.assertEqual(len(snapshots), 1)
self.assertEqual(snapshots[0].id, 'snap-18349160')
def test_destroy_snapshot(self):
snap = VolumeSnapshot(id='snap-428abd35', size=10, driver=self.driver)
resp = snap.destroy()
self.assertTrue(resp)
def test_ex_modify_image_attribute(self):
images = self.driver.list_images()
image = images[0]
data = {'LaunchPermission.Add.1.Group': 'all'}
resp = self.driver.ex_modify_image_attribute(image, data)
self.assertTrue(resp)
def test_ex_modify_snapshot_attribute(self):
snap = VolumeSnapshot(id='snap-1234567890abcdef0',
size=10, driver=self.driver)
data = {'CreateVolumePermission.Add.1.Group': 'all'}
resp = self.driver.ex_modify_snapshot_attribute(snap, data)
self.assertTrue(resp)
def test_create_node_ex_security_groups(self):
EC2MockHttp.type = 'ex_security_groups'
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
security_groups = ['group1', 'group2']
# Old, deprecated argument name
self.driver.create_node(name='foo', image=image, size=size,
ex_securitygroup=security_groups)
# New argument name
self.driver.create_node(name='foo', image=image, size=size,
ex_security_groups=security_groups)
# Test old and new arguments are mutually exclusive
self.assertRaises(ValueError, self.driver.create_node,
name='foo', image=image, size=size,
ex_securitygroup=security_groups,
ex_security_groups=security_groups)
def test_create_node_ex_security_group_ids(self):
EC2MockHttp.type = 'ex_security_group_ids'
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
subnet = EC2NetworkSubnet(12345, "test_subnet", "pending")
security_groups = ['sg-1aa11a1a', 'sg-2bb22b2b']
self.driver.create_node(name='foo', image=image, size=size,
ex_security_group_ids=security_groups,
ex_subnet=subnet)
self.assertRaises(ValueError, self.driver.create_node,
name='foo', image=image, size=size,
ex_security_group_ids=security_groups)
def test_ex_get_metadata_for_node(self):
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
node = self.driver.create_node(name='foo',
image=image,
size=size,
ex_metadata={'Bar': 'baz', 'Num': '42'})
metadata = self.driver.ex_get_metadata_for_node(node)
self.assertEqual(metadata['Name'], 'foo')
self.assertEqual(metadata['Bar'], 'baz')
self.assertEqual(metadata['Num'], '42')
self.assertEqual(len(metadata), 3)
def test_ex_get_limits(self):
limits = self.driver.ex_get_limits()
expected = {'max-instances': 20, 'vpc-max-elastic-ips': 5,
'max-elastic-ips': 5}
self.assertEqual(limits['resource'], expected)
def test_ex_create_security_group(self):
group = self.driver.ex_create_security_group("WebServers",
"Rules to protect web nodes",
"vpc-143cab4")
self.assertEqual(group["group_id"], "sg-52e2f530")
def test_ex_create_placement_groups(self):
resp = self.driver.ex_create_placement_group("NewPG")
self.assertTrue(resp)
def test_ex_delete_placement_groups(self):
pgs = self.driver.ex_list_placement_groups()
pg = pgs[0]
resp = self.driver.ex_delete_placement_group(pg.name)
self.assertTrue(resp)
def test_ex_list_placement_groups(self):
pgs = self.driver.ex_list_placement_groups()
self.assertEqual(len(pgs), 2)
self.assertIsInstance(pgs[0], EC2PlacementGroup)
def test_ex_list_networks(self):
vpcs = self.driver.ex_list_networks()
self.assertEqual(len(vpcs), 2)
self.assertEqual('vpc-532335e1', vpcs[0].id)
self.assertEqual('vpc-532335e1', vpcs[0].name)
self.assertEqual('192.168.51.0/24', vpcs[0].cidr_block)
self.assertEqual('available', vpcs[0].extra['state'])
self.assertEqual('dopt-7eded312', vpcs[0].extra['dhcp_options_id'])
self.assertEqual('vpc-62ded30e', vpcs[1].id)
self.assertEqual('Test VPC', vpcs[1].name)
self.assertEqual('192.168.52.0/24', vpcs[1].cidr_block)
self.assertEqual('available', vpcs[1].extra['state'])
self.assertEqual('dopt-7eded312', vpcs[1].extra['dhcp_options_id'])
def test_ex_list_networks_network_ids(self):
EC2MockHttp.type = 'network_ids'
network_ids = ['vpc-532335e1']
# We assert in the mock http method
self.driver.ex_list_networks(network_ids=network_ids)
def test_ex_list_networks_filters(self):
EC2MockHttp.type = 'filters'
filters = OrderedDict([
('dhcp-options-id', 'dopt-7eded312'), # matches two networks
('cidr', '192.168.51.0/24') # matches two networks
])
# We assert in the mock http method
self.driver.ex_list_networks(filters=filters)
def test_ex_create_network(self):
vpc = self.driver.ex_create_network('192.168.55.0/24',
name='Test VPC',
instance_tenancy='default')
self.assertEqual('vpc-ad3527cf', vpc.id)
self.assertEqual('192.168.55.0/24', vpc.cidr_block)
self.assertEqual('pending', vpc.extra['state'])
def test_ex_delete_network(self):
vpcs = self.driver.ex_list_networks()
vpc = vpcs[0]
resp = self.driver.ex_delete_network(vpc)
self.assertTrue(resp)
def test_ex_list_subnets(self):
subnets = self.driver.ex_list_subnets()
self.assertEqual(len(subnets), 2)
self.assertEqual('subnet-ce0e7ce5', subnets[0].id)
self.assertEqual('available', subnets[0].state)
self.assertEqual(123, subnets[0].extra['available_ips'])
self.assertEqual('subnet-ce0e7ce6', subnets[1].id)
self.assertEqual('available', subnets[1].state)
self.assertEqual(59, subnets[1].extra['available_ips'])
def test_ex_create_subnet(self):
subnet = self.driver.ex_create_subnet('vpc-532135d1',
'192.168.51.128/26',
'us-east-1b',
name='Test Subnet')
self.assertEqual('subnet-ce0e7ce6', subnet.id)
self.assertEqual('pending', subnet.state)
self.assertEqual('vpc-532135d1', subnet.extra['vpc_id'])
def test_ex_modify_subnet_attribute(self):
subnet = self.driver.ex_list_subnets()[0]
resp = self.driver.ex_modify_subnet_attribute(subnet,
'auto_public_ip',
True)
self.assertTrue(resp)
resp = self.driver.ex_modify_subnet_attribute(subnet,
'auto_ipv6',
False)
self.assertTrue(resp)
expected_msg = 'Unsupported attribute: invalid'
self.assertRaisesRegexp(ValueError, expected_msg,
self.driver.ex_modify_subnet_attribute,
subnet,
'invalid',
True)
def test_ex_delete_subnet(self):
subnet = self.driver.ex_list_subnets()[0]
resp = self.driver.ex_delete_subnet(subnet=subnet)
self.assertTrue(resp)
def test_ex_get_console_output(self):
node = self.driver.list_nodes()[0]
resp = self.driver.ex_get_console_output(node)
self.assertEqual('Test String', resp['output'])
def test_ex_list_network_interfaces(self):
interfaces = self.driver.ex_list_network_interfaces()
self.assertEqual(len(interfaces), 2)
self.assertEqual('eni-18e6c05e', interfaces[0].id)
self.assertEqual('in-use', interfaces[0].state)
self.assertEqual('0e:6e:df:72:78:af',
interfaces[0].extra['mac_address'])
self.assertEqual('eni-83e3c5c5', interfaces[1].id)
self.assertEqual('in-use', interfaces[1].state)
self.assertEqual('0e:93:0b:e9:e9:c4',
interfaces[1].extra['mac_address'])
def test_ex_create_network_interface(self):
subnet = self.driver.ex_list_subnets()[0]
interface = self.driver.ex_create_network_interface(
subnet,
name='Test Interface',
description='My Test')
self.assertEqual('eni-2b36086d', interface.id)
self.assertEqual('pending', interface.state)
self.assertEqual('0e:bd:49:3e:11:74', interface.extra['mac_address'])
def test_ex_delete_network_interface(self):
interface = self.driver.ex_list_network_interfaces()[0]
resp = self.driver.ex_delete_network_interface(interface)
self.assertTrue(resp)
def test_ex_attach_network_interface_to_node(self):
node = self.driver.list_nodes()[0]
interface = self.driver.ex_list_network_interfaces()[0]
resp = self.driver.ex_attach_network_interface_to_node(interface,
node, 1)
self.assertTrue(resp)
def test_ex_detach_network_interface(self):
resp = self.driver.ex_detach_network_interface('eni-attach-2b588b47')
self.assertTrue(resp)
def test_ex_list_internet_gateways(self):
gateways = self.driver.ex_list_internet_gateways()
self.assertEqual(len(gateways), 2)
self.assertEqual('igw-84dd3ae1', gateways[0].id)
self.assertEqual('igw-7fdae215', gateways[1].id)
self.assertEqual('available', gateways[1].state)
self.assertEqual('vpc-62cad41e', gateways[1].vpc_id)
def test_ex_create_internet_gateway(self):
gateway = self.driver.ex_create_internet_gateway()
self.assertEqual('igw-13ac2b36', gateway.id)
def test_ex_delete_internet_gateway(self):
gateway = self.driver.ex_list_internet_gateways()[0]
resp = self.driver.ex_delete_internet_gateway(gateway)
self.assertTrue(resp)
def test_ex_attach_internet_gateway(self):
gateway = self.driver.ex_list_internet_gateways()[0]
network = self.driver.ex_list_networks()[0]
resp = self.driver.ex_attach_internet_gateway(gateway, network)
self.assertTrue(resp)
def test_ex_detach_internet_gateway(self):
gateway = self.driver.ex_list_internet_gateways()[0]
network = self.driver.ex_list_networks()[0]
resp = self.driver.ex_detach_internet_gateway(gateway, network)
self.assertTrue(resp)
def test_ex_modify_volume(self):
volume = self.driver.list_volumes()[0]
assert volume.id == 'vol-10ae5e2b'
params = {'VolumeType': 'io1',
'Size': 2,
'Iops': 1000}
volume_modification = self.driver.ex_modify_volume(volume, params)
self.assertIsNone(volume_modification.end_time)
self.assertEqual('modifying', volume_modification.modification_state)
self.assertEqual(300, volume_modification.original_iops)
self.assertEqual(1, volume_modification.original_size)
self.assertEqual('gp2', volume_modification.original_volume_type)
self.assertEqual(0, volume_modification.progress)
self.assertIsNone(volume_modification.status_message)
self.assertEqual(1000, volume_modification.target_iops)
self.assertEqual(2, volume_modification.target_size)
self.assertEqual('io1', volume_modification.target_volume_type)
self.assertEqual('vol-10ae5e2b', volume_modification.volume_id)
def test_ex_describe_volumes_modifications(self):
modifications = self.driver.ex_describe_volumes_modifications()
self.assertEqual(len(modifications), 2)
self.assertIsNone(modifications[0].end_time)
self.assertEqual('optimizing', modifications[0].modification_state)
self.assertEqual(100, modifications[0].original_iops)
self.assertEqual(10, modifications[0].original_size)
self.assertEqual('gp2', modifications[0].original_volume_type)
self.assertEqual(3, modifications[0].progress)
self.assertIsNone(modifications[0].status_message)
self.assertEqual(10000, modifications[0].target_iops)
self.assertEqual(2000, modifications[0].target_size)
self.assertEqual('io1', modifications[0].target_volume_type)
self.assertEqual('vol-06397e7a0eEXAMPLE', modifications[0].volume_id)
self.assertEqual('completed', modifications[1].modification_state)
self.assertEqual(100, modifications[1].original_iops)
self.assertEqual(8, modifications[1].original_size)
self.assertEqual('gp2', modifications[1].original_volume_type)
self.assertEqual(100, modifications[1].progress)
self.assertIsNone(modifications[1].status_message)
self.assertEqual(10000, modifications[1].target_iops)
self.assertEqual(200, modifications[1].target_size)
self.assertEqual('io1', modifications[1].target_volume_type)
self.assertEqual('vol-bEXAMPLE', modifications[1].volume_id)
def test_params_is_not_simple_type_exception_is_thrown(self):
params = {
'not': {'not': ['simple']}
}
expected_msg = 'dictionary contains an attribute "not" which value'
self.assertRaisesRegexp(ValueError, expected_msg,
self.driver.connection.request, '/', params=params)
params = {
'invalid': [1, 2, 3]
}
expected_msg = 'dictionary contains an attribute "invalid" which value'
self.assertRaisesRegexp(ValueError, expected_msg,
self.driver.connection.request, '/', params=params)
class EC2USWest1Tests(EC2Tests):
region = 'us-west-1'
class EC2USWest2Tests(EC2Tests):
region = 'us-west-2'
class EC2EUWestTests(EC2Tests):
region = 'eu-west-1'
class EC2APSE1Tests(EC2Tests):
region = 'ap-southeast-1'
class EC2APNETests(EC2Tests):
region = 'ap-northeast-1'
class EC2APSE2Tests(EC2Tests):
region = 'ap-southeast-2'
class EC2SAEastTests(EC2Tests):
region = 'sa-east-1'
class EC2MockHttp(MockHttp, unittest.TestCase):
fixtures = ComputeFileFixtures('ec2')
def _DescribeInstances(self, method, url, body, headers):
body = self.fixtures.load('describe_instances.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeReservedInstances(self, method, url, body, headers):
body = self.fixtures.load('describe_reserved_instances.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeAvailabilityZones(self, method, url, body, headers):
body = self.fixtures.load('describe_availability_zones.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _RebootInstances(self, method, url, body, headers):
body = self.fixtures.load('reboot_instances.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _StartInstances(self, method, url, body, headers):
body = self.fixtures.load('start_instances.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _StopInstances(self, method, url, body, headers):
body = self.fixtures.load('stop_instances.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeSecurityGroups(self, method, url, body, headers):
body = self.fixtures.load('describe_security_groups.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DeleteSecurityGroup(self, method, url, body, headers):
body = self.fixtures.load('delete_security_group.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _AuthorizeSecurityGroupIngress(self, method, url, body, headers):
body = self.fixtures.load('authorize_security_group_ingress.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeImages(self, method, url, body, headers):
body = self.fixtures.load('describe_images.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _RegisterImages(self, method, url, body, headers):
body = self.fixtures.load('register_image.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ImportSnapshot(self, method, url, body, headers):
body = self.fixtures.load('import_snapshot.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeImportSnapshotTasks(self, method, url, body, headers):
body = self.fixtures.load('describe_import_snapshot_tasks.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _timeout_DescribeImportSnapshotTasks(self, method, url, body, headers):
body = self.fixtures.load('describe_import_snapshot_tasks_active.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ex_imageids_DescribeImages(self, method, url, body, headers):
body = self.fixtures.load('describe_images_ex_imageids.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _RunInstances(self, method, url, body, headers):
body = self.fixtures.load('run_instances.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ex_user_data_RunInstances(self, method, url, body, headers):
# test_create_node_with_ex_userdata
params = parse_qs(url.replace('/?', ''))
self.assertTrue('UserData' in params)
user_data = base64.b64decode(b(params['UserData'][0])).decode('utf-8')
self.assertEqual(user_data, 'foo\nbar\foo')
body = self.fixtures.load('run_instances.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _create_ex_assign_public_ip_RunInstances(self, method, url, body, headers):
self.assertUrlContainsQueryParams(url, {
'NetworkInterface.1.AssociatePublicIpAddress': "true",
'NetworkInterface.1.DeleteOnTermination': "true",
'NetworkInterface.1.DeviceIndex': "0",
'NetworkInterface.1.SubnetId': "subnet-11111111",
'NetworkInterface.1.SecurityGroupId.1': "sg-11111111",
})
body = self.fixtures.load('run_instances_with_subnet_and_security_group.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _create_ex_terminate_on_shutdown_RunInstances(self, method, url, body, headers):
self.assertUrlContainsQueryParams(url, {
'InstanceInitiatedShutdownBehavior': 'terminate'
})
body = self.fixtures.load('run_instances.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ex_security_groups_RunInstances(self, method, url, body, headers):
self.assertUrlContainsQueryParams(url, {'SecurityGroup.1': 'group1'})
self.assertUrlContainsQueryParams(url, {'SecurityGroup.2': 'group2'})
body = self.fixtures.load('run_instances.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ex_security_group_ids_RunInstances(self, method, url, body, headers):
self.assertUrlContainsQueryParams(url, {'SecurityGroupId.1': 'sg-1aa11a1a'})
self.assertUrlContainsQueryParams(url, {'SecurityGroupId.2': 'sg-2bb22b2b'})
body = self.fixtures.load('run_instances.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _create_ex_blockdevicemappings_RunInstances(self, method, url, body, headers):
expected_params = {
'BlockDeviceMapping.1.DeviceName': '/dev/sda1',
'BlockDeviceMapping.1.Ebs.VolumeSize': '10',
'BlockDeviceMapping.2.DeviceName': '/dev/sdb',
'BlockDeviceMapping.2.VirtualName': 'ephemeral0',
'BlockDeviceMapping.3.DeviceName': '/dev/sdc',
'BlockDeviceMapping.3.VirtualName': 'ephemeral1'
}
self.assertUrlContainsQueryParams(url, expected_params)
body = self.fixtures.load('run_instances.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _idempotent_RunInstances(self, method, url, body, headers):
body = self.fixtures.load('run_instances_idem.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _idempotent_mismatch_RunInstances(self, method, url, body, headers):
body = self.fixtures.load('run_instances_idem_mismatch.xml')
return (httplib.BAD_REQUEST, body, {}, httplib.responses[httplib.BAD_REQUEST])
def _ex_iam_profile_RunInstances(self, method, url, body, headers):
body = self.fixtures.load('run_instances_iam_profile.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _TerminateInstances(self, method, url, body, headers):
body = self.fixtures.load('terminate_instances.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeKeyPairs(self, method, url, body, headers):
body = self.fixtures.load('describe_key_pairs.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _get_one_DescribeKeyPairs(self, method, url, body, headers):
self.assertUrlContainsQueryParams(url, {'KeyName': 'gsg-keypair'})
body = self.fixtures.load('describe_key_pairs.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _doesnt_exist_DescribeKeyPairs(self, method, url, body, headers):
body = self.fixtures.load('describe_key_pairs_doesnt_exist.xml')
return (httplib.BAD_REQUEST, body, {},
httplib.responses[httplib.BAD_REQUEST])
def _CreateKeyPair(self, method, url, body, headers):
body = self.fixtures.load('create_key_pair.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ImportKeyPair(self, method, url, body, headers):
body = self.fixtures.load('import_key_pair.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeTags(self, method, url, body, headers):
body = self.fixtures.load('describe_tags.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _CreateTags(self, method, url, body, headers):
body = self.fixtures.load('create_tags.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DeleteTags(self, method, url, body, headers):
body = self.fixtures.load('delete_tags.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeAddresses(self, method, url, body, headers):
body = self.fixtures.load('describe_addresses_multi.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _AllocateAddress(self, method, url, body, headers):
body = self.fixtures.load('allocate_address.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _vpc_AllocateAddress(self, method, url, body, headers):
body = self.fixtures.load('allocate_vpc_address.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _AssociateAddress(self, method, url, body, headers):
body = self.fixtures.load('associate_address.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _vpc_AssociateAddress(self, method, url, body, headers):
body = self.fixtures.load('associate_vpc_address.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DisassociateAddress(self, method, url, body, headers):
body = self.fixtures.load('disassociate_address.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ReleaseAddress(self, method, url, body, headers):
body = self.fixtures.load('release_address.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _all_addresses_DescribeAddresses(self, method, url, body, headers):
body = self.fixtures.load('describe_addresses_all.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _WITH_TAGS_DescribeAddresses(self, method, url, body, headers):
body = self.fixtures.load('describe_addresses_multi.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ModifyInstanceAttribute(self, method, url, body, headers):
body = self.fixtures.load('modify_instance_attribute.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ModifySnapshotAttribute(self, method, url, body, headers):
body = self.fixtures.load('modify_snapshot_attribute.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _CreateVolume(self, method, url, body, headers):
if 'KmsKeyId=' in url:
assert 'Encrypted=1' in url, "If a KmsKeyId is specified, the " \
"Encrypted flag must also be set."
if 'Encrypted=1' in url:
body = self.fixtures.load('create_encrypted_volume.xml')
else:
body = self.fixtures.load('create_volume.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DeleteVolume(self, method, url, body, headers):
body = self.fixtures.load('delete_volume.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _AttachVolume(self, method, url, body, headers):
body = self.fixtures.load('attach_volume.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DetachVolume(self, method, url, body, headers):
body = self.fixtures.load('detach_volume.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeVolumes(self, method, url, body, headers):
body = self.fixtures.load('describe_volumes.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _filters_nodes_DescribeVolumes(self, method, url, body, headers):
expected_params = {
'Filter.1.Name': 'attachment.instance-id',
'Filter.1.Value.1': 'i-d334b4b3',
}
self.assertUrlContainsQueryParams(url, expected_params)
body = self.fixtures.load('describe_volumes.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _filters_status_DescribeVolumes(self, method, url, body, headers):
expected_params = {
'Filter.1.Name': 'status',
'Filter.1.Value.1': 'available'
}
self.assertUrlContainsQueryParams(url, expected_params)
body = self.fixtures.load('describe_volumes.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _CreateSnapshot(self, method, url, body, headers):
body = self.fixtures.load('create_snapshot.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeSnapshots(self, method, url, body, headers):
body = self.fixtures.load('describe_snapshots.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DeleteSnapshot(self, method, url, body, headers):
body = self.fixtures.load('delete_snapshot.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _CopyImage(self, method, url, body, headers):
body = self.fixtures.load('copy_image.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _CreateImage(self, method, url, body, headers):
body = self.fixtures.load('create_image.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DeregisterImage(self, method, url, body, headers):
body = self.fixtures.load('deregister_image.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DeleteKeyPair(self, method, url, body, headers):
self.assertUrlContainsQueryParams(url, {'KeyName': 'gsg-keypair'})
body = self.fixtures.load('delete_key_pair.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ModifyImageAttribute(self, method, url, body, headers):
body = self.fixtures.load('modify_image_attribute.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeAccountAttributes(self, method, url, body, headers):
body = self.fixtures.load('describe_account_attributes.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _CreateSecurityGroup(self, method, url, body, headers):
body = self.fixtures.load('create_security_group.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeVpcs(self, method, url, body, headers):
body = self.fixtures.load('describe_vpcs.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _network_ids_DescribeVpcs(self, method, url, body, headers):
expected_params = {
'VpcId.1': 'vpc-532335e1'
}
self.assertUrlContainsQueryParams(url, expected_params)
body = self.fixtures.load('describe_vpcs.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _filters_DescribeVpcs(self, method, url, body, headers):
expected_params = {
'Filter.1.Name': 'dhcp-options-id',
'Filter.1.Value.1': 'dopt-7eded312',
'Filter.2.Name': 'cidr',
'Filter.2.Value.1': '192.168.51.0/24'
}
self.assertUrlContainsQueryParams(url, expected_params)
body = self.fixtures.load('describe_vpcs.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _CreateVpc(self, method, url, body, headers):
body = self.fixtures.load('create_vpc.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DeleteVpc(self, method, url, body, headers):
body = self.fixtures.load('delete_vpc.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeSubnets(self, method, url, body, headers):
body = self.fixtures.load('describe_subnets.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _CreateSubnet(self, method, url, body, headers):
body = self.fixtures.load('create_subnet.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ModifySubnetAttribute(self, method, url, body, headers):
body = self.fixtures.load('modify_subnet_attribute.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DeleteSubnet(self, method, url, body, headers):
body = self.fixtures.load('delete_subnet.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _GetConsoleOutput(self, method, url, body, headers):
body = self.fixtures.load('get_console_output.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeNetworkInterfaces(self, method, url, body, headers):
body = self.fixtures.load('describe_network_interfaces.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _CreateNetworkInterface(self, method, url, body, headers):
body = self.fixtures.load('create_network_interface.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DeleteNetworkInterface(self, method, url, body, headers):
body = self.fixtures.load('delete_network_interface.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _AttachNetworkInterface(self, method, url, body, headers):
body = self.fixtures.load('attach_network_interface.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DetachNetworkInterface(self, method, url, body, headers):
body = self.fixtures.load('detach_network_interface.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeInternetGateways(self, method, url, body, headers):
body = self.fixtures.load('describe_internet_gateways.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _CreateInternetGateway(self, method, url, body, headers):
body = self.fixtures.load('create_internet_gateway.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DeleteInternetGateway(self, method, url, body, headers):
body = self.fixtures.load('delete_internet_gateway.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _AttachInternetGateway(self, method, url, body, headers):
body = self.fixtures.load('attach_internet_gateway.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DetachInternetGateway(self, method, url, body, headers):
body = self.fixtures.load('detach_internet_gateway.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _CreatePlacementGroup(self, method, url, body, headers):
body = self.fixtures.load('create_placement_groups.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DeletePlacementGroup(self, method, url, body, headers):
body = self.fixtures.load('delete_placement_groups.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribePlacementGroups(self, method, url, body, headers):
body = self.fixtures.load('describe_placement_groups.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ModifyVolume(self, method, url, body, headers):
body = self.fixtures.load('modify_volume.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeVolumesModifications(self, method, url, body, headers):
body = self.fixtures.load('describe_volumes_modifications.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
class EucMockHttp(EC2MockHttp):
fixtures = ComputeFileFixtures('ec2')
def _services_Eucalyptus_DescribeInstances(self, method, url, body,
headers):
return self._DescribeInstances(method, url, body, headers)
def _services_Eucalyptus_DescribeImages(self, method, url, body,
headers):
return self._DescribeImages(method, url, body, headers)
def _services_Eucalyptus_DescribeAddresses(self, method, url, body,
headers):
return self._DescribeAddresses(method, url, body, headers)
def _services_Eucalyptus_RebootInstances(self, method, url, body,
headers):
return self._RebootInstances(method, url, body, headers)
def _services_Eucalyptus_TerminateInstances(self, method, url, body,
headers):
return self._TerminateInstances(method, url, body, headers)
def _services_Eucalyptus_RunInstances(self, method, url, body,
headers):
return self._RunInstances(method, url, body, headers)
def _services_Eucalyptus_DescribeInstanceTypes(self, method, url, body,
headers):
body = self.fixtures.load('describe_instance_types.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
class NimbusTests(EC2Tests):
def setUp(self):
NimbusNodeDriver.connectionCls.conn_class = EC2MockHttp
EC2MockHttp.use_param = 'Action'
EC2MockHttp.type = None
self.driver = NimbusNodeDriver(key=EC2_PARAMS[0], secret=EC2_PARAMS[1],
host='some.nimbuscloud.com')
def test_ex_describe_addresses_for_node(self):
# overridden from EC2Tests -- Nimbus doesn't support elastic IPs.
node = Node('i-4382922a', None, None, None, None, self.driver)
ip_addresses = self.driver.ex_describe_addresses_for_node(node)
self.assertEqual(len(ip_addresses), 0)
def test_ex_describe_addresses(self):
# overridden from EC2Tests -- Nimbus doesn't support elastic IPs.
node = Node('i-4382922a', None, None, None, None, self.driver)
nodes_elastic_ips = self.driver.ex_describe_addresses([node])
self.assertEqual(len(nodes_elastic_ips), 1)
self.assertEqual(len(nodes_elastic_ips[node.id]), 0)
def test_list_sizes(self):
sizes = self.driver.list_sizes()
ids = [s.id for s in sizes]
self.assertTrue('m1.small' in ids)
self.assertTrue('m1.large' in ids)
self.assertTrue('m1.xlarge' in ids)
def test_list_nodes(self):
# overridden from EC2Tests -- Nimbus doesn't support elastic IPs.
node = self.driver.list_nodes()[0]
self.assertExecutedMethodCount(0)
public_ips = node.public_ips
self.assertEqual(node.id, 'i-4382922a')
self.assertEqual(len(node.public_ips), 1)
self.assertEqual(public_ips[0], '1.2.3.4')
self.assertEqual(node.extra['tags'], {})
node = self.driver.list_nodes()[1]
self.assertExecutedMethodCount(0)
public_ips = node.public_ips
self.assertEqual(node.id, 'i-8474834a')
self.assertEqual(len(node.public_ips), 1)
self.assertEqual(public_ips[0], '1.2.3.5')
self.assertEqual(node.extra['tags'],
{'Name': 'Test Server 2', 'Group': 'VPC Test'})
def test_ex_create_tags(self):
# Nimbus doesn't support creating tags so this one should be a
# passthrough
node = self.driver.list_nodes()[0]
self.driver.ex_create_tags(resource=node, tags={'foo': 'bar'})
self.assertExecutedMethodCount(0)
def test_create_volume_snapshot_with_tags(self):
vol = StorageVolume(id='vol-4282672b', name='test',
state=StorageVolumeState.AVAILABLE,
size=10, driver=self.driver)
snap = self.driver.create_volume_snapshot(
vol, 'Test snapshot', ex_metadata={'my_tag': 'test'})
self.assertDictEqual({}, snap.extra['tags'])
class EucTests(LibcloudTestCase, TestCaseMixin):
def setUp(self):
EucNodeDriver.connectionCls.conn_class = EucMockHttp
EC2MockHttp.use_param = 'Action'
EC2MockHttp.type = None
self.driver = EucNodeDriver(key=EC2_PARAMS[0], secret=EC2_PARAMS[1],
host='some.eucalyptus.com', api_version='3.4.1')
def test_list_locations_response(self):
try:
self.driver.list_locations()
except Exception:
pass
else:
self.fail('Exception was not thrown')
def test_list_location(self):
pass
def test_list_sizes(self):
sizes = self.driver.list_sizes()
ids = [s.id for s in sizes]
self.assertEqual(len(ids), 18)
self.assertTrue('t1.micro' in ids)
self.assertTrue('m1.medium' in ids)
self.assertTrue('m3.xlarge' in ids)
class OutscaleTests(EC2Tests):
def setUp(self):
OutscaleSASNodeDriver.connectionCls.conn_class = EC2MockHttp
EC2MockHttp.use_param = 'Action'
EC2MockHttp.type = None
self.driver = OutscaleSASNodeDriver(key=EC2_PARAMS[0],
secret=EC2_PARAMS[1],
host='some.outscalecloud.com')
def test_ex_create_network(self):
# overridden from EC2Tests -- Outscale don't support instance_tenancy
vpc = self.driver.ex_create_network('192.168.55.0/24',
name='Test VPC')
self.assertEqual('vpc-ad3527cf', vpc.id)
self.assertEqual('192.168.55.0/24', vpc.cidr_block)
self.assertEqual('pending', vpc.extra['state'])
def test_ex_copy_image(self):
# overridden from EC2Tests -- Outscale does not support copying images
image = self.driver.list_images()[0]
try:
self.driver.ex_copy_image('us-east-1', image,
name='Faux Image',
description='Test Image Copy')
except NotImplementedError:
pass
else:
self.fail('Exception was not thrown')
def test_ex_get_limits(self):
# overridden from EC2Tests -- Outscale does not support getting limits
try:
self.driver.ex_get_limits()
except NotImplementedError:
pass
else:
self.fail('Exception was not thrown')
def test_ex_create_network_interface(self):
# overridden from EC2Tests -- Outscale don't allow creating interfaces
subnet = self.driver.ex_list_subnets()[0]
try:
self.driver.ex_create_network_interface(
subnet,
name='Test Interface',
description='My Test')
except NotImplementedError:
pass
else:
self.fail('Exception was not thrown')
def test_ex_delete_network_interface(self):
# overridden from EC2Tests -- Outscale don't allow deleting interfaces
interface = self.driver.ex_list_network_interfaces()[0]
try:
self.driver.ex_delete_network_interface(interface)
except NotImplementedError:
pass
else:
self.fail('Exception was not thrown')
def test_ex_attach_network_interface_to_node(self):
# overridden from EC2Tests -- Outscale don't allow attaching interfaces
node = self.driver.list_nodes()[0]
interface = self.driver.ex_list_network_interfaces()[0]
try:
self.driver.ex_attach_network_interface_to_node(interface, node, 1)
except NotImplementedError:
pass
else:
self.fail('Exception was not thrown')
def test_ex_detach_network_interface(self):
# overridden from EC2Tests -- Outscale don't allow detaching interfaces
try:
self.driver.ex_detach_network_interface('eni-attach-2b588b47')
except NotImplementedError:
pass
else:
self.fail('Exception was not thrown')
def test_list_sizes(self):
sizes = self.driver.list_sizes()
ids = [s.id for s in sizes]
self.assertTrue('m1.small' in ids)
self.assertTrue('m1.large' in ids)
self.assertTrue('m1.xlarge' in ids)
def test_ex_create_node_with_ex_iam_profile(self):
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
self.assertRaises(NotImplementedError, self.driver.create_node,
name='foo',
image=image, size=size,
ex_iamprofile='foo')
def test_create_node_with_ex_userdata(self):
EC2MockHttp.type = 'ex_user_data'
image = NodeImage(id='ami-be3adfd7',
name=self.image_name,
driver=self.driver)
size = NodeSize('m1.small', 'Small Instance', None, None, None, None,
driver=self.driver)
result = self.driver.create_node(name='foo', image=image, size=size,
ex_userdata='foo\nbar\foo')
self.assertTrue(result)
class FCUMockHttp(EC2MockHttp):
fixtures = ComputeFileFixtures('fcu')
def _DescribeQuotas(self, method, url, body, headers):
body = self.fixtures.load('ex_describe_quotas.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeProductTypes(self, method, url, body, headers):
body = self.fixtures.load('ex_describe_product_types.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _DescribeInstanceTypes(self, method, url, body, headers):
body = self.fixtures.load('ex_describe_instance_types.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _GetProductType(self, method, url, body, headers):
body = self.fixtures.load('ex_get_product_type.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
def _ModifyInstanceKeypair(self, method, url, body, headers):
body = self.fixtures.load('ex_modify_instance_keypair.xml')
return (httplib.OK, body, {}, httplib.responses[httplib.OK])
class OutscaleFCUTests(LibcloudTestCase):
def setUp(self):
OutscaleSASNodeDriver.connectionCls.conn_class = FCUMockHttp
EC2MockHttp.use_param = 'Action'
EC2MockHttp.type = None
self.driver = OutscaleSASNodeDriver(key=EC2_PARAMS[0],
secret=EC2_PARAMS[1],
host='some.fcucloud.com')
def test_ex_describe_quotas(self):
is_truncated, quota = self.driver.ex_describe_quotas()
self.assertTrue(is_truncated == 'true')
self.assertTrue('global' in quota.keys())
self.assertTrue('vpc-00000000' in quota.keys())
def test_ex_describe_product_types(self):
product_types = self.driver.ex_describe_product_types()
pt = {}
for e in product_types:
pt[e['productTypeId']] = e['description']
self.assertTrue('0001' in pt.keys())
self.assertTrue('MapR' in pt.values())
self.assertTrue(pt['0002'] == 'Windows')
def test_ex_describe_instance_instance_types(self):
instance_types = self.driver.ex_describe_instance_types()
it = {}
for e in instance_types:
it[e['name']] = e['memory']
self.assertTrue('og4.4xlarge' in it.keys())
self.assertTrue('oc2.8xlarge' in it.keys())
self.assertTrue('68718428160' in it.values())
self.assertTrue(it['m3.large'] == '8050966528')
def test_ex_get_product_type(self):
product_type = self.driver.ex_get_product_type('ami-29ab9e54')
self.assertTrue(product_type['productTypeId'] == '0002')
self.assertTrue(product_type['description'] == 'Windows')
def test_ex_modify_instance_keypair(self):
r = self.driver.ex_modify_instance_keypair('i-57292bc5', 'key_name')
self.assertTrue(r)
if __name__ == '__main__':
sys.exit(unittest.main())