openstack
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nova
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nova/nova/tests/test_melange_ipam_lib.py

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# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright 2012 OpenStack LLC.
# All Rights Reserved.
#
# 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.
from nova import db
from nova import exception
from nova import flags
from nova import test
from nova.network.quantum import melange_connection
from nova.network.quantum import melange_ipam_lib
FLAGS = flags.FLAGS
class MelangeIpamLibTestCase(test.TestCase):
def setUp(self):
super(MelangeIpamLibTestCase, self).setUp()
self.m_conn = self.mox.CreateMock(melange_connection.MelangeConnection)
self.ipam = melange_ipam_lib.QuantumMelangeIPAMLib()
self.ipam.m_conn = self.m_conn
def _block_list(self, id='id', cidr='cidr', network_id='network_id'):
return {'ip_blocks': [{'id': id,
'cidr': cidr,
'network_id': network_id}]}
def test_allocate_fixed_ips_extracts_address(self):
self.m_conn.allocate_ip('quantum_net_id', 'network_tenant_id',
'vif_ref_uuid', 'project_id',
'vif_ref_address').AndReturn(
[{'address': 'ip_address'}])
self.mox.ReplayAll()
ips = self.ipam.allocate_fixed_ips('context',
'project_id',
'quantum_net_id',
'network_tenant_id',
{'uuid': 'vif_ref_uuid',
'address': 'vif_ref_address'})
self.assertEqual(ips[0], 'ip_address')
def test_delete_subnets_by_net_id_deletes_block(self):
context = self.mox.CreateMockAnything()
context.elevated().AndReturn('elevated')
self.m_conn.get_blocks('project_id').AndReturn(
self._block_list(id='block_id'))
self.m_conn.delete_block('block_id', 'project_id')
self.mox.StubOutWithMock(db, 'network_get_by_uuid')
db.network_get_by_uuid('elevated', 'network_id').AndReturn(
{'id': 'network_id'})
self.mox.StubOutWithMock(db, 'network_delete_safe')
db.network_delete_safe(context, 'network_id')
self.mox.ReplayAll()
self.ipam.delete_subnets_by_net_id(context, 'network_id', 'project_id')
def test_get_networks_by_tenant_gets_all_networks(self):
block_list = self._block_list(network_id='net_1')
block_list['ip_blocks'] += self._block_list(
network_id='net_2')['ip_blocks']
self.m_conn.get_blocks('tenant_id').AndReturn(block_list)
self.mox.StubOutWithMock(db, 'network_get_by_uuid')
db.network_get_by_uuid('admin_context', 'net_1').AndReturn('network1')
db.network_get_by_uuid('admin_context', 'net_2').AndReturn('network2')
self.mox.ReplayAll()
values = self.ipam.get_networks_by_tenant('admin_context', 'tenant_id')
self.assertEquals(values, ['network1', 'network2'])
def test_get_global_networks(self):
FLAGS.quantum_default_tenant_id = 'quantum_default_tenant_id'
self.mox.StubOutWithMock(self.ipam, 'get_networks_by_tenant')
self.ipam.get_networks_by_tenant('admin_context',
'quantum_default_tenant_id')
self.mox.ReplayAll()
self.ipam.get_global_networks('admin_context')
def test_get_project_networks(self):
context = self.mox.CreateMockAnything()
context.elevated().AndReturn('elevated')
networks = [{'project_id': 1}, {'project_id': None}]
self.mox.StubOutWithMock(db, 'network_get_all')
db.network_get_all('elevated').AndReturn(networks)
self.mox.ReplayAll()
values = self.ipam.get_project_networks(context)
self.assertEquals(values, [networks[0]])
def test_get_project_and_global_net_ids__by_priority(self):
context = self.mox.CreateMockAnything()
context.elevated().AndReturn('elevated')
FLAGS.quantum_default_tenant_id = 'default_tenant_id'
net1 = {'uuid': 'net1_uuid', 'priority': 'net1_priority'}
net2 = {'uuid': 'net2_uuid', 'priority': 'net2_priority'}
self.mox.StubOutWithMock(self.ipam, 'get_networks_by_tenant')
self.ipam.get_networks_by_tenant('elevated',
'project_id').AndReturn([net1])
self.ipam.get_networks_by_tenant('elevated',
'default_tenant_id').AndReturn([net2])
self.mox.ReplayAll()
self.ipam.get_project_and_global_net_ids(context, 'project_id')
def test_get_tenant_id_by_net_id_returns_id(self):
FLAGS.quantum_default_tenant_id = 'qdti'
self.m_conn.get_allocated_ips('net_id', 'vif_id',
'qdti').AndReturn({})
self.mox.ReplayAll()
value = self.ipam.get_tenant_id_by_net_id('context', 'net_id',
'vif_id', 'project_id')
self.assertEqual(value, 'qdti')
def test_get_tenant_id_by_net_id_returns_none_if_none_found(self):
FLAGS.quantum_default_tenant_id = 'qdti'
self.m_conn.get_allocated_ips('net_id', 'vif_id',
'qdti').AndRaise(KeyError())
self.m_conn.get_allocated_ips('net_id', 'vif_id',
'project_id').AndRaise(KeyError())
self.m_conn.get_allocated_ips('net_id', 'vif_id',
None).AndRaise(KeyError())
self.mox.ReplayAll()
value = self.ipam.get_tenant_id_by_net_id('context', 'net_id',
'vif_id', 'project_id')
self.assertEqual(value, None)
def test_get_subnets_by_net_id(self):
ips = [{'ip_block': {'network_id': 'network_id',
'id': 'id',
'cidr': 'cidr',
'gateway': 'gateway',
'broadcast': 'broadcast',
'netmask': 'netmask',
'dns1': 'dns1',
'dns2': 'dns2'},
'version': 4}]
self.m_conn.get_allocated_ips('net_id', 'vif_id',
'tenant_id').AndReturn(ips)
self.mox.ReplayAll()
value = self.ipam.get_subnets_by_net_id('context', 'tenant_id',
'net_id', 'vif_id')
self.assertEquals(value[0]['cidr'], 'cidr')
def test_get_routes_by_ip_block(self):
self.m_conn.get_routes('block_id', 'project_id')
self.mox.ReplayAll()
self.ipam.get_routes_by_ip_block('context', 'block_id', 'project_id')
def test_get_v4_ips_by_interface(self):
self.mox.StubOutWithMock(self.ipam, '_get_ips_by_interface')
self.ipam._get_ips_by_interface('context', 'net_id', 'vif_id',
'project_id', 4)
self.mox.ReplayAll()
self.ipam.get_v4_ips_by_interface('context', 'net_id', 'vif_id',
'project_id')
def test_get_v6_ips_by_interface(self):
self.mox.StubOutWithMock(self.ipam, '_get_ips_by_interface')
self.ipam._get_ips_by_interface('context', 'net_id', 'vif_id',
'project_id', 6)
self.mox.ReplayAll()
self.ipam.get_v6_ips_by_interface('context', 'net_id', 'vif_id',
'project_id')
def test_get_ips_by_interface(self):
ips = [{'address': '10.10.10.10'}, {'address': '2001::CAFE'}]
self.m_conn.get_allocated_ips('net_id', 'vif_id',
'tenant_id').AndReturn(ips)
self.m_conn.get_allocated_ips('net_id', 'vif_id',
'tenant_id').AndReturn(ips)
self.mox.ReplayAll()
values = self.ipam._get_ips_by_interface('context', 'net_id', 'vif_id',
'tenant_id', 4)
self.assertEquals(values, ["10.10.10.10"])
values = self.ipam._get_ips_by_interface('context', 'net_id', 'vif_id',
'tenant_id', 6)
self.assertEquals(values, ["2001::CAFE"])
def test_verify_subnet_exists(self):
blocks = {'ip_blocks': [{'network_id': 'quantum_net_id'}]}
self.m_conn.get_blocks('tenant_id').AndReturn(blocks)
self.mox.ReplayAll()
value = self.ipam.verify_subnet_exists('context', 'tenant_id',
'quantum_net_id')
self.assertEquals(value, True)
def test_deallocate_ips_by_vif(self):
self.m_conn.deallocate_ips('net_id', 'uuid', 'tenant_id')
self.mox.ReplayAll()
self.ipam.deallocate_ips_by_vif('context', 'tenant_id', 'net_id',
{'uuid': 'uuid'})
def test_get_allocated_ips(self):
ips = [{'address': 'ip_address', 'interface_id': 'interface_id'}]
self.m_conn.get_allocated_ips_for_network('subnet_id',
'project_id').AndReturn(ips)
self.mox.ReplayAll()
self.ipam.get_allocated_ips('context', 'subnet_id', 'project_id')
def test_create_vif(self):
self.m_conn.create_vif('vif_id', 'instance_id', 'project_id')
self.mox.ReplayAll()
self.ipam.create_vif('vif_id', 'instance_id', 'project_id')
def test_get_floating_ips_by_fixed_address(self):
value = self.ipam.get_floating_ips_by_fixed_address('context',
'fixed_address')
self.assertEquals(value, [])
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