def test_namespace_is_isolated(self):
annotations = {'opencontrail.org/isolation': "true"}
# Add first namespace
ns1_name = "isolated_ns1"
ns1_uuid = str(uuid.uuid4())
ns1_add_event = self.create_add_namespace_event(ns1_name, ns1_uuid)
ns1_add_event['object']['metadata']['annotations'] = annotations
NamespaceKM.locate(ns1_uuid, ns1_add_event['object'])
self.enqueue_event(ns1_add_event)
time.sleep(2)
# Add second namespace
ns2_name = 'isolated_ns2'
ns2_uuid = str(uuid.uuid4())
ns2_add_event = self.create_add_namespace_event(ns2_name, ns2_uuid)
ns2_add_event['object']['metadata']['annotations'] = annotations
NamespaceKM.locate(ns2_uuid, ns2_add_event['object'])
self.enqueue_event(ns2_add_event)
time.sleep(2)
fqname = ['default-domain', ns1_name, ns1_name + '-vn']
vn = self._vnc_lib.virtual_network_read(fq_name=fqname)
self.assertIsNotNone(vn)
self.assertEquals(ns1_name + '-vn', vn.name)
fqname = ['default-domain', ns2_name, ns2_name + '-vn']
vn = self._vnc_lib.virtual_network_read(fq_name=fqname)
self.assertIsNotNone(vn)
self.assertEquals(ns2_name + '-vn', vn.name)
def test_add_namespace_with_custom_network_annotation(self):
kube_config.VncKubernetesConfig.args().cluster_project = None
# Create network for Pod
proj_fq_name = ['default-domain', 'default']
proj_obj = self._vnc_lib.project_read(fq_name=proj_fq_name)
self.create_network('network1', proj_obj)
# Add first namespace
eval_vn_dict = \
'{"domain":"default-domain","project":"default","name":"network1"}'
ns1_name = 'namespace1'
ns1_uuid = str(uuid.uuid4())
ns1_add_event = self.create_add_namespace_event(ns1_name, ns1_uuid)
ns1_annotations = {
'opencontrail.org/network': eval_vn_dict
}
ns1_add_event['object']['metadata']['annotations'] = ns1_annotations
NamespaceKM.locate(ns1_uuid, ns1_add_event['object'])
self.enqueue_event(ns1_add_event)
self.wait_for_all_tasks_done()
proj = self._vnc_lib.project_read(fq_name=["default-domain", ns1_name])
self.assertIsNotNone(proj)
self.assertEquals(ns1_name, proj.name)
fqname = ['default-domain', 'default', 'network1']
vn = self._vnc_lib.virtual_network_read(fq_name=fqname)
self.assertIsNotNone(vn)
self.assertEquals('network1', vn.name)
def _create_and_add_namespace(self, name, spec, annotations, locate=False):
ns_uuid = str(uuid.uuid4())
ns_meta = {'name': name, 'uid': ns_uuid}
if annotations:
ns_meta['annotations'] = annotations
ns_add_event = self.create_event('Namespace', spec, ns_meta, 'ADDED')
if locate:
NamespaceKM.locate(name, ns_add_event['object'])
self.enqueue_event(ns_add_event)
self.wait_for_all_tasks_done()
return ns_uuid
def _create_and_add_namespace(self, name, spec, annotations,
locate=False):
ns_uuid = str(uuid.uuid4())
ns_meta = {'name': name,
'uid': ns_uuid}
if annotations:
ns_meta['annotations'] = annotations
ns_add_event = self.create_event('Namespace', spec, ns_meta, 'ADDED')
if locate:
NamespaceKM.locate(name, ns_add_event['object'])
self.enqueue_event(ns_add_event)
self.wait_for_all_tasks_done()
return ns_uuid
def _mod_namespace(self, uuid, name, spec, annotations,
labels=None, locate=False):
ns_uuid = uuid
ns_meta = {'name': name,
'uid': ns_uuid}
if annotations:
ns_meta['annotations'] = annotations
if labels:
ns_meta['labels'] = labels
ns_mod_event = self.create_event('Namespace', spec, ns_meta, 'MODIFIED')
if locate:
NamespaceKM.locate(name, ns_mod_event['object'])
self.enqueue_event(ns_mod_event)
self.wait_for_all_tasks_done()
def _mod_namespace(self, uuid, name, spec, annotations,
labels=None, locate=False):
ns_uuid = uuid
ns_meta = {'name': name,
'uid': ns_uuid}
if annotations:
ns_meta['annotations'] = annotations
if labels:
ns_meta['labels'] = labels
ns_mod_event = self.create_event('Namespace', spec, ns_meta, 'MODIFIED')
if locate:
NamespaceKM.locate(name, ns_mod_event['object'])
self.enqueue_event(ns_mod_event)
self.wait_for_all_tasks_done()
def _create_namespace(self,
ns_name,
ns_eval_vn_dict,
is_isolated=False,
labels={}):
ns_uuid = str(uuid.uuid4())
ns_add_event = self.create_add_namespace_event(ns_name, ns_uuid)
ns_object = ns_add_event['object']
ns_object['spec'] = {}
ns_meta = ns_object['metadata']
ns_meta['annotations'] = {}
ns_meta['name'] = ns_name
ns_meta['uid'] = ns_uuid
ns_meta['namespace'] = ns_name
ns_meta['labels'] = labels
if ns_eval_vn_dict:
ns_meta['annotations']['opencontrail.org/network'] = \
ns_eval_vn_dict
if is_isolated:
ns_meta['annotations']['opencontrail.org/isolation'] = 'true'
NamespaceKM.delete(ns_name)
ns = NamespaceKM.locate(ns_name, ns_object)
self.enqueue_event(ns_add_event)
self.wait_for_all_tasks_done()
return ns.uuid
def _create_namespace(self, ns_name, ns_eval_vn_dict, is_isolated=False, labels={}):
ns_uuid = str(uuid.uuid4())
ns_add_event = self.create_add_namespace_event(ns_name, ns_uuid)
ns_object = ns_add_event['object']
ns_object['spec'] = {}
ns_meta = ns_object['metadata']
ns_meta['annotations'] = {}
ns_meta['name'] = ns_name
ns_meta['uid'] = ns_uuid
ns_meta['namespace'] = ns_name
ns_meta['labels'] = labels
if ns_eval_vn_dict:
ns_meta['annotations']['opencontrail.org/network'] = \
ns_eval_vn_dict
if is_isolated:
ns_meta['annotations']['opencontrail.org/isolation'] = 'true'
NamespaceKM.delete(ns_name)
ns = NamespaceKM.locate(ns_name, ns_object)
self.enqueue_event(ns_add_event)
self.wait_for_all_tasks_done()
return ns.uuid
def test_add_namespace_with_isolation_annotation_true(self):
kube_config.VncKubernetesConfig.args().cluster_project = None
annotations = {
'opencontrail.org/isolation': "true"
}
# Add first namespace
ns1_name = "isolated_ns1"
ns1_uuid = str(uuid.uuid4())
ns1_add_event = self.create_add_namespace_event(ns1_name, ns1_uuid)
ns1_add_event['object']['metadata']['annotations'] = annotations
NamespaceKM.locate(ns1_uuid, ns1_add_event['object'])
self.enqueue_event(ns1_add_event)
self.wait_for_all_tasks_done()
proj = self._vnc_lib.project_read(fq_name=["default-domain", ns1_name])
self.assertIsNotNone(proj)
self.assertEquals(ns1_name, proj.name)
fqname = ['default-domain', ns1_name, ns1_name+'-vn']
vn = self._vnc_lib.virtual_network_read(fq_name=fqname)
self.assertIsNotNone(vn)
self.assertEquals(ns1_name+'-vn', vn.name)
def test_namespace_custom_network(self):
# Create network for Pod
proj_fq_name = ['default-domain', 'default']
proj_obj = self._vnc_lib.project_read(fq_name=proj_fq_name)
vn_obj = self.create_network('network1', proj_obj)
# Add first namespace
eval_vn_dict = '{"domain":"default-domain","project":"default","name":"network1"}'
ns1_name = 'namespace1'
ns1_uuid = str(uuid.uuid4())
ns1_add_event = self.create_add_namespace_event(ns1_name, ns1_uuid)
ns1_annotations = {'opencontrail.org/network': eval_vn_dict}
ns1_add_event['object']['metadata']['annotations'] = ns1_annotations
NamespaceKM.locate(ns1_uuid, ns1_add_event['object'])
self.enqueue_event(ns1_add_event)
time.sleep(2)
# Add second namespace
vn_obj = self.create_network('network2', proj_obj)
eval_vn_dict = '{"domain":"default-domain","project":"default","name":"network2"}'
ns2_name = 'isolated_ns2'
ns2_uuid = str(uuid.uuid4())
ns2_add_event = self.create_add_namespace_event(ns2_name, ns2_uuid)
ns2_annotations = {'opencontrail.org/network': eval_vn_dict}
ns2_add_event['object']['metadata']['annotations'] = ns2_annotations
NamespaceKM.locate(ns2_uuid, ns2_add_event['object'])
self.enqueue_event(ns2_add_event)
time.sleep(2)
fqname = ['default-domain', 'default', 'network1']
vn = self._vnc_lib.virtual_network_read(fq_name=fqname)
self.assertIsNotNone(vn)
self.assertEquals('network1', vn.name)
fqname = ['default-domain', 'default', 'network2']
vn = self._vnc_lib.virtual_network_read(fq_name=fqname)
self.assertIsNotNone(vn)
self.assertEquals('network2', vn.name)
