def test_delete_graph_snapshots(self):
g = GraphGenerator().create_graph()
self.graph_persistor.last_event_timestamp = utcnow()
self.graph_persistor.store_graph(g)
self.graph_persistor.delete_graph_snapshots(utcnow())
graph_snapshot = self.graph_persistor.load_graph(utcnow())
self.assertIsNone(graph_snapshot)
def test_persist_graph(self):
g = GraphGenerator().create_graph()
current_time = utcnow()
self.graph_persistor.last_event_timestamp = current_time
self.graph_persistor.store_graph(g)
graph_snapshot = self.graph_persistor.load_graph(current_time)
self.assert_graph_equal(g, graph_snapshot)
self.graph_persistor.delete_graph_snapshots(utcnow())
def simple_static_generators(switch_num=2,
host_num=10,
snapshot_events=0,
snap_vals=None,
update_events=0,
update_vals=None):
"""A function for returning static datasource events generators.
Returns generators for a given number of routers, switches and hosts.
Hosts will be distributed across switches in round-robin style.
Switches are interconnected in a line.
:param switch_num: number of zones
:param host_num: number of hosts
:param snapshot_events: number of snapshot events per zone
:param snap_vals: preset values for ALL snapshot events
:param update_events: number of values from update event
:param update_vals: preset values for update event
:return: generators for static datasource events
"""
# TODO(yujunz) mock routers which connects all switches
mapping = [(host_index, host_index % switch_num)
for host_index in range(host_num)]
test_entity_spec_list = []
if snapshot_events > 0:
if snap_vals is None:
snap_vals = {}
snap_vals.update({
DSProps.DATASOURCE_ACTION: DatasourceAction.SNAPSHOT,
DSProps.SAMPLE_DATE: str(utcnow())
})
test_entity_spec_list.append({
tg.DYNAMIC_INFO_FKEY: tg.DRIVER_STATIC_SNAPSHOT_D,
tg.STATIC_INFO_FKEY: tg.DRIVER_STATIC_SNAPSHOT_S,
tg.EXTERNAL_INFO_KEY: snap_vals,
tg.MAPPING_KEY: mapping,
tg.NAME_KEY: 'Static snapshot generator',
tg.NUM_EVENTS: snapshot_events
})
if update_events > 0:
if update_vals is None:
update_vals = {}
update_vals.update({
DSProps.DATASOURCE_ACTION: DatasourceAction.UPDATE,
DSProps.SAMPLE_DATE: str(utcnow())
})
test_entity_spec_list.append({
tg.DYNAMIC_INFO_FKEY: tg.DRIVER_STATIC_SNAPSHOT_D,
tg.STATIC_INFO_FKEY: None,
tg.EXTERNAL_INFO_KEY: update_vals,
tg.MAPPING_KEY: mapping,
tg.NAME_KEY: 'Static update generator',
tg.NUM_EVENTS: update_events
})
return tg.get_trace_generators(test_entity_spec_list)
def mark_deleted(g, item):
if isinstance(item, Vertex):
item[VProps.VITRAGE_IS_DELETED] = True
item[VProps.VITRAGE_SAMPLE_TIMESTAMP] = str(utcnow())
g.update_vertex(item)
elif isinstance(item, Edge):
item[EProps.VITRAGE_IS_DELETED] = True
item[EProps.UPDATE_TIMESTAMP] = str(utcnow())
g.update_edge(item)
def _find_outdated_entities_to_mark_as_deleted(self):
vitrage_sample_tstmp = str(utcnow() - timedelta(
seconds=2 * CONF.datasources.snapshots_interval))
query = {
'and': [
{
'!=': {
VProps.VITRAGE_TYPE: VITRAGE_DATASOURCE
}
},
{
'<': {
VProps.VITRAGE_SAMPLE_TIMESTAMP: vitrage_sample_tstmp
}
},
{
'==': {
VProps.VITRAGE_IS_DELETED: False
}
},
]
}
vertices = self.graph.get_vertices(query_dict=query)
return set(self._filter_vertices_to_be_marked_as_deleted(vertices))
def _filter_and_cache_alarms(self, alarms, filter_):
alarms_to_update = []
now = datetime_utils.utcnow(False)
for alarm in alarms:
alarm_key = self._alarm_key(alarm)
old_alarm, timestamp = self.cache.get(alarm_key, (None, None))
if filter_(self, alarm, old_alarm):
# delete state changed alarm: alarm->OK
if not self._is_erroneous(alarm):
alarm[DSProps.EVENT_TYPE] = GraphAction.DELETE_ENTITY
alarms_to_update.append(alarm)
self.cache[alarm_key] = alarm, now
# add alarms that were deleted
values = list(self.cache.values())
for cached_alarm, timestamp in values:
if self._is_erroneous(cached_alarm) and timestamp is not now:
LOG.debug("deleting cached_alarm %s", cached_alarm)
cached_alarm[DSProps.EVENT_TYPE] = GraphAction.DELETE_ENTITY
alarms_to_update.append(cached_alarm)
self.cache.pop(self._alarm_key(cached_alarm))
return alarms_to_update
def test_persist_two_graphs(self):
g1 = GraphGenerator().create_graph()
current_time1 = utcnow()
self.graph_persistor.last_event_timestamp = current_time1
self.graph_persistor.store_graph(g1)
graph_snapshot1 = self.graph_persistor.load_graph(current_time1)
g2 = GraphGenerator(5).create_graph()
current_time2 = utcnow()
self.graph_persistor.last_event_timestamp = current_time2
self.graph_persistor.store_graph(g2)
graph_snapshot2 = self.graph_persistor.load_graph(current_time2)
self.assert_graph_equal(g1, graph_snapshot1)
self.assert_graph_equal(g2, graph_snapshot2)
self.graph_persistor.delete_graph_snapshots(utcnow())
def test_load_last_graph_snapshot_until_timestamp(self):
g1 = GraphGenerator().create_graph()
self.graph_persistor.last_event_timestamp = utcnow()
self.graph_persistor.store_graph(g1)
time.sleep(1)
time_in_between = utcnow()
time.sleep(1)
g2 = GraphGenerator(5).create_graph()
self.graph_persistor.last_event_timestamp = utcnow()
self.graph_persistor.store_graph(g2)
graph_snapshot = self.graph_persistor.load_graph(time_in_between)
self.assert_graph_equal(g1, graph_snapshot)
self.graph_persistor.delete_graph_snapshots(utcnow())
def initializing_process(self):
try:
LOG.info('Consistency Initializing Process - Started')
if not self._wait_for_action(
self.initialization_status.is_received_all_end_messages):
LOG.error('Maximum retries for consistency initializator '
'were done')
LOG.info('All end messages were received')
self.evaluator.enabled = True
timestamp = str(utcnow())
all_vertices = self.graph.get_vertices()
self._run_evaluator(all_vertices)
self._wait_for_processing_evaluator_events()
self._mark_old_deduced_alarms_as_deleted(timestamp)
self.initialization_status.status = \
self.initialization_status.FINISHED
LOG.info('Consistency Initializing Process - Finished')
except Exception as e:
LOG.exception('Error in deleting vertices from entity_graph: %s',
e)
def _periodic_process_setup_stage(self, consistency_interval):
self._create_processor_with_graph(self.conf, processor=self.processor)
current_time = utcnow()
# set all vertices to be have timestamp that consistency won't get
self._update_timestamp(self.processor.entity_graph.get_vertices(),
current_time +
timedelta(seconds=1.5 * consistency_interval))
# check number of instances in graph
instance_vertices = self.processor.entity_graph.get_vertices({
VProps.CATEGORY: EntityCategory.RESOURCE,
VProps.TYPE: NOVA_INSTANCE_DATASOURCE
})
self.assertEqual(self.NUM_INSTANCES, len(instance_vertices))
# set current timestamp of part of the instances
self._update_timestamp(instance_vertices[0:3], current_time)
# set part of the instances as deleted
for i in range(3, 6):
instance_vertices[i][VProps.IS_DELETED] = True
self.processor.entity_graph.update_vertex(instance_vertices[i])
# set part of the instances as deleted
for i in range(6, 9):
instance_vertices[i][VProps.IS_DELETED] = True
instance_vertices[i][VProps.SAMPLE_TIMESTAMP] = str(
current_time + timedelta(seconds=2 * consistency_interval + 1))
self.processor.entity_graph.update_vertex(instance_vertices[i])
def _convert_alarm_rule_change_event(self, event):
"""handle alarm rule change notification
example of changed rule:
"detail": {"severity": "critical",
"rule":
{"query": [{"field": "traits.resource_id",
"type": "",
"value": "1",
"op": "eq"}],
"event_type": "instance.update"}}
"""
old_alarm = self._old_alarm(event)
entity = old_alarm.copy()
changed_rule = event[AodhProps.DETAIL]
for (changed_type, changed_info) in changed_rule.items():
# handle changed rule which may effect the neighbor
if changed_type == AodhProps.RULE:
entity.update(self._parse_changed_rule(
changed_rule[changed_type]))
# handle other changed alarm properties
elif changed_type in AodhProps.__dict__.values():
entity[changed_type] = changed_info
return self._filter_and_cache_alarm(entity, old_alarm,
self._filter_get_erroneous,
datetime_utils.utcnow(False))
def initializing_process(self):
try:
LOG.info('Consistency Initializing Process - Started')
if not self._wait_for_action(
self.initialization_status.is_received_all_end_messages):
LOG.error('Maximum retries for consistency initializator '
'were done')
LOG.info('All end messages were received')
self.evaluator.enabled = True
timestamp = str(utcnow())
all_vertices = self.graph.get_vertices()
self._run_evaluator(all_vertices)
self._wait_for_processing_evaluator_events()
self._mark_old_deduced_alarms_as_deleted(timestamp)
self.initialization_status.status = \
self.initialization_status.FINISHED
LOG.info('Consistency Initializing Process - Finished')
except Exception as e:
LOG.exception('Error in deleting vertices from entity_graph: %s',
e)
def add_template(self, template_def):
result = syntax_validation(template_def)
if not result.is_valid_config:
LOG.info('Unable to load template, syntax err: %s'
% result.comment)
else:
result = content_validation(template_def, self._def_templates)
if not result.is_valid_config:
LOG.info('Unable to load template, content err: %s'
% result.comment)
template_uuid = uuidutils.generate_uuid()
current_time = datetime_utils.utcnow()
self.templates[str(template_uuid)] = Template(template_uuid,
template_def,
current_time,
result)
if result.is_valid_config:
template_data = \
TemplateLoader().load(template_def, self._def_templates)
for scenario in template_data.scenarios:
for equivalent_scenario in self._expand_equivalence(scenario):
self._add_scenario(equivalent_scenario)
def _periodic_process_setup_stage(self, consistency_interval):
self._create_processor_with_graph(self.conf, processor=self.processor)
current_time = utcnow()
# set all vertices to be have timestamp that consistency won't get
self._update_timestamp(self.processor.entity_graph.get_vertices(),
current_time +
timedelta(seconds=1.5 * consistency_interval))
# check number of instances in graph
instance_vertices = self.processor.entity_graph.get_vertices({
VProps.VITRAGE_CATEGORY: EntityCategory.RESOURCE,
VProps.VITRAGE_TYPE: NOVA_INSTANCE_DATASOURCE
})
self.assertThat(instance_vertices,
matchers.HasLength(self.NUM_INSTANCES))
# set current timestamp of part of the instances
self._update_timestamp(instance_vertices[0:3], current_time)
# set part of the instances as deleted
for i in range(3, 6):
instance_vertices[i][VProps.VITRAGE_IS_DELETED] = True
self.processor.entity_graph.update_vertex(instance_vertices[i])
# set part of the instances as deleted
for i in range(6, 9):
instance_vertices[i][VProps.VITRAGE_IS_DELETED] = True
instance_vertices[i][VProps.VITRAGE_SAMPLE_TIMESTAMP] = str(
current_time + timedelta(seconds=2 * consistency_interval + 1))
self.processor.entity_graph.update_vertex(instance_vertices[i])
def expirer_periodic():
expire_by = \
utcnow(with_timezone=False) - \
timedelta(days=self.conf.persistency.alarm_history_ttl)
try:
self.db.alarms.delete_expired(expire_by)
except Exception:
LOG.exception('History tables - periodic cleanup run failed.')
def _convert_alarm_creation_event(self, event):
entity = self._convert_base_event(event)
detail = self._convert_detail_event(event)
entity.update(detail)
return self._filter_and_cache_alarm(entity, None,
self._filter_get_erroneous,
datetime_utils.utcnow(False))
def _convert_alarm_state_transition_event(self, event):
old_alarm = self._old_alarm(event)
entity = old_alarm.copy()
entity[AodhProps.STATE] = event[AodhProps.DETAIL][AodhProps.STATE]
return self._filter_and_cache_alarm(entity, old_alarm,
self._filter_get_change,
datetime_utils.utcnow(False))
def _add_resources_with_different_timestamps(self, consistency_interval,
datasource_name,
resource_type):
# add resources to the graph:
# - updated_resource
# - outdated_resource with an old timestamp
# - deleted_resource with an old timestamp and is_deleted==true
future_timestamp = \
str(utcnow() + timedelta(seconds=2 * consistency_interval))
past_timestamp = \
str(utcnow() - timedelta(seconds=2 * consistency_interval - 1))
updated_resource = self._create_resource(
vitrage_id=resource_type + '1234',
resource_type=resource_type,
datasource_name=datasource_name,
sample_timestamp=future_timestamp)
outdated_resource = self._create_resource(
vitrage_id=resource_type + '5678',
resource_type=resource_type,
datasource_name=datasource_name,
sample_timestamp=past_timestamp)
deleted_resource = self._create_resource(
vitrage_id=resource_type + '9999',
resource_type=resource_type,
datasource_name=datasource_name,
sample_timestamp=past_timestamp,
is_deleted=True)
self.graph.add_vertex(updated_resource)
self.graph.add_vertex(outdated_resource)
self.graph.add_vertex(deleted_resource)
# get the list of vertices
resource_vertices = self.processor.entity_graph.get_vertices({
VProps.VITRAGE_CATEGORY:
EntityCategory.RESOURCE,
VProps.VITRAGE_TYPE:
resource_type
})
self.assertThat(resource_vertices, matchers.HasLength(3),
'Wrong number of vertices of type %s', resource_type)
def _push_events_to_queue(self, vertices, action):
for vertex in vertices:
event = {
DSProps.ENTITY_TYPE: CONSISTENCY_DATASOURCE,
DSProps.DATASOURCE_ACTION: DatasourceAction.UPDATE,
DSProps.SAMPLE_DATE: str(utcnow()),
DSProps.EVENT_TYPE: action,
VProps.VITRAGE_ID: vertex[VProps.VITRAGE_ID]
}
self.evaluator_queue.put(event)
def _find_stale_entities(self):
query = {
'and': [
{'!=': {VProps.TYPE: VITRAGE_TYPE}},
{'<': {VProps.SAMPLE_TIMESTAMP: str(utcnow() - timedelta(
seconds=2 * self.conf.datasources.snapshots_interval))}}
]
}
vertices = self.graph.get_vertices(query_dict=query)
return set(self._filter_vertices_to_be_deleted(vertices))
def _find_old_deleted_entities(self):
query = {
'and': [
{'==': {VProps.IS_DELETED: True}},
{'<': {VProps.SAMPLE_TIMESTAMP: str(utcnow() - timedelta(
seconds=self.conf.consistency.min_time_to_delete))}}
]
}
vertices = self.graph.get_vertices(query_dict=query)
return self._filter_vertices_to_be_deleted(vertices)
def _convert_alarm_state_transition_event(self, event):
old_alarm = self._old_alarm(event)
entity = old_alarm.copy()
try:
entity[AodhProps.STATE] = event[AodhProps.DETAIL][AodhProps.STATE]
except Exception:
LOG.exception("Failed to Convert alarm state transition event.")
return self._filter_and_cache_alarm(entity, old_alarm,
self._filter_get_change,
datetime_utils.utcnow(False))
def _find_old_deleted_entities(self):
query = {
'and': [
{'==': {VProps.IS_DELETED: True}},
{'<': {VProps.SAMPLE_TIMESTAMP: str(utcnow() - timedelta(
seconds=self.conf.consistency.min_time_to_delete))}}
]
}
vertices = self.graph.get_vertices(query_dict=query)
return self._filter_vertices_to_be_deleted(vertices)
def _find_stale_entities(self):
query = {
'and': [
{'!=': {VProps.TYPE: VITRAGE_TYPE}},
{'<': {VProps.SAMPLE_TIMESTAMP: str(utcnow() - timedelta(
seconds=2 * self.conf.datasources.snapshots_interval))}},
{'==': {VProps.IS_DELETED: False}}
]
}
vertices = self.graph.get_vertices(query_dict=query)
return set(self._filter_vertices_to_be_deleted(vertices))
def _to_events(self, vertices, action):
for vertex in vertices:
event = {
DSProps.ENTITY_TYPE: CONSISTENCY_DATASOURCE,
DSProps.DATASOURCE_ACTION: DatasourceAction.UPDATE,
DSProps.SAMPLE_DATE: str(utcnow()),
DSProps.EVENT_TYPE: action,
VProps.VITRAGE_ID: vertex[VProps.VITRAGE_ID],
VProps.ID: vertex.get(VProps.ID, None),
VProps.VITRAGE_TYPE: vertex[VProps.VITRAGE_TYPE],
VProps.VITRAGE_CATEGORY: vertex[VProps.VITRAGE_CATEGORY],
VProps.IS_REAL_VITRAGE_ID: True
}
yield event
def _push_events_to_queue(self, vertices, action):
for vertex in vertices:
event = {
DSProps.ENTITY_TYPE: CONSISTENCY_DATASOURCE,
DSProps.DATASOURCE_ACTION: DatasourceAction.UPDATE,
DSProps.SAMPLE_DATE: str(utcnow()),
DSProps.EVENT_TYPE: action,
VProps.VITRAGE_ID: vertex[VProps.VITRAGE_ID],
VProps.ID: vertex.get(VProps.ID, None),
VProps.VITRAGE_TYPE: vertex[VProps.VITRAGE_TYPE],
VProps.VITRAGE_CATEGORY: vertex[VProps.VITRAGE_CATEGORY],
VProps.IS_REAL_VITRAGE_ID: True
}
self.actions_callback('consistency', event)
def _convert_alarm_creation_event(self, event):
entity = self._convert_alarm_common(event)
alarm_info = event[AodhProps.DETAIL]
detail = self._convert_alarm_detail(alarm_info)
entity.update(detail)
alarm_type = self._get_aodh_alarm_type(alarm_info)
alarm_rule = alarm_info[AodhProps.RULE]
rule_info = self._convert_alarm_rule(alarm_type, alarm_rule)
entity.update(rule_info)
return self._filter_and_cache_alarm(entity, None,
self._filter_get_erroneous,
datetime_utils.utcnow(False))
def _is_highest_score(cls, db_actions, action_info):
"""Get the top action from the list and compare to action_info
Actions are sorted according to:
score - primary, ascending
created_at - secondary, descending
"""
if not db_actions:
return True
highest_score_action = min(
db_actions,
key=lambda action:
(-action.score, action.created_at or utcnow(False)))
return highest_score_action.trigger == action_info.trigger_id and \
highest_score_action.action_id == action_info.action_id
def add_def_template(self, def_template):
result = def_template_syntax_validation(def_template)
if not result.is_valid_config:
LOG.info('Unable to load definition template, syntax err: %s'
% result.comment)
else:
result = DefValidator.def_template_content_validation(def_template)
if not result.is_valid_config:
LOG.info('Unable to load definition template, content err: %s'
% result.comment)
current_time = datetime_utils.utcnow()
include_uuid = uuidutils.generate_uuid()
self._def_templates[str(include_uuid)] = Template(include_uuid,
def_template,
current_time,
result)
def _create_alarm(vitrage_id,
alarm_type,
project_id=None,
vitrage_resource_project_id=None,
metadata=None):
return graph_utils.create_vertex(
vitrage_id,
vitrage_category=EntityCategory.ALARM,
vitrage_type=alarm_type,
vitrage_sample_timestamp=None,
update_timestamp=str(utcnow()),
vitrage_is_deleted=False,
vitrage_is_placeholder=False,
entity_id=vitrage_id,
entity_state='active',
project_id=project_id,
vitrage_resource_project_id=vitrage_resource_project_id,
metadata=metadata)
def _find_old_deleted_entities(self):
vitrage_sample_tstmp = str(utcnow() - timedelta(
seconds=CONF.consistency.min_time_to_delete))
query = {
'and': [{
'==': {
VProps.VITRAGE_IS_DELETED: True
}
}, {
'<': {
VProps.VITRAGE_SAMPLE_TIMESTAMP: vitrage_sample_tstmp
}
}]
}
vertices = self.graph.get_vertices(query_dict=query)
return self._filter_vertices_to_be_deleted(vertices)
def test_update_entity_state(self):
# create instance event with host neighbor and check validity
(vertex, neighbors, processor) =\
self._create_and_check_entity(status='STARTING')
# check added entity
vertex = processor.entity_graph.get_vertex(vertex.vertex_id)
self.assertEqual('STARTING', vertex.properties[VProps.STATE])
# update instance event with state running
vertex.properties[VProps.STATE] = 'RUNNING'
vertex.properties[VProps.VITRAGE_SAMPLE_TIMESTAMP] = str(utcnow())
processor.update_entity(vertex, neighbors)
# check state
self._check_graph(processor, self.NUM_VERTICES_AFTER_CREATION,
self.NUM_EDGES_AFTER_CREATION)
vertex = processor.entity_graph.get_vertex(vertex.vertex_id)
self.assertEqual('RUNNING', vertex.properties[VProps.STATE])
def test_update_entity_state(self):
# create instance event with host neighbor and check validity
(vertex, neighbors, processor) =\
self._create_and_check_entity(status='STARTING')
# check added entity
vertex = processor.entity_graph.get_vertex(vertex.vertex_id)
self.assertEqual('STARTING', vertex.properties[VProps.STATE])
# update instance event with state running
vertex.properties[VProps.STATE] = 'RUNNING'
vertex.properties[VProps.SAMPLE_TIMESTAMP] = str(utcnow())
processor.update_entity(vertex, neighbors)
# check state
self._check_graph(processor, self.NUM_VERTICES_AFTER_CREATION,
self.NUM_EDGES_AFTER_CREATION)
vertex = processor.entity_graph.get_vertex(vertex.vertex_id)
self.assertEqual('RUNNING', vertex.properties[VProps.STATE])
def _periodic_process_setup_stage(self, consistency_interval):
self._create_processor_with_graph(processor=self.processor)
current_timestamp = datetime.utcnow()
current_time = str(datetime.datetime_delta(0, current_timestamp))
time_1_5 = str(datetime.datetime_delta(
1 * consistency_interval, current_timestamp))
time_2 = str(datetime.datetime_delta(
2 * consistency_interval + 1, current_timestamp))
# set all vertices to be have timestamp that consistency won't get
self._update_timestamp(
self.processor.entity_graph.get_vertices(),
time_1_5)
# check number of instances in graph
instance_vertices = self.processor.entity_graph.get_vertices({
VProps.VITRAGE_CATEGORY: EntityCategory.RESOURCE,
VProps.VITRAGE_TYPE: NOVA_INSTANCE_DATASOURCE
})
self.assertThat(instance_vertices,
matchers.HasLength(self.NUM_INSTANCES))
# set current timestamp of part of the instances
self._update_timestamp(instance_vertices[0:3], current_time)
# set part of the instances as deleted
for i in range(3, 6):
instance_vertices[i][VProps.VITRAGE_IS_DELETED] = True
self.processor.entity_graph.update_vertex(instance_vertices[i])
# set part of the instances as deleted
for i in range(6, 9):
instance_vertices[i][VProps.VITRAGE_IS_DELETED] = True
instance_vertices[i][VProps.VITRAGE_SAMPLE_TIMESTAMP] = time_2
self.processor.entity_graph.update_vertex(instance_vertices[i])
self._add_resources_by_type(consistency_interval=consistency_interval,
datasource_name='static',
resource_type='nic')
self._add_resources_by_type(consistency_interval=consistency_interval,
datasource_name='cinder.volume',
resource_type='cinder.volume')
def add_template(self, template_def):
current_time = datetime_utils.utcnow()
result = syntax_validation(template_def)
if not result.is_valid:
LOG.info('Unable to load template: %s' % result.comment)
else:
result = content_validation(template_def)
if not result.is_valid:
LOG.info('Unable to load template: %s' % result.comment)
template_uuid = md5(str(template_def).encode()).hexdigest()
self.templates[str(template_uuid)] = Template(template_uuid,
template_def,
current_time,
result)
if result.is_valid:
template_data = TemplateData(template_def)
self._add_template_scenarios(template_data)
def _create_resource(vitrage_id,
resource_type,
project_id=None,
datasource_name=None,
sample_timestamp=None,
is_deleted=False):
if not datasource_name:
datasource_name = resource_type
return graph_utils.create_vertex(
vitrage_id,
vitrage_category=EntityCategory.RESOURCE,
vitrage_type=resource_type,
vitrage_sample_timestamp=sample_timestamp,
update_timestamp=str(utcnow()),
vitrage_is_deleted=is_deleted,
vitrage_is_placeholder=False,
entity_id=vitrage_id,
entity_state='active',
project_id=project_id,
datasource_name=datasource_name,
)
def _filter_and_cache_alarms(self, alarms, filter_):
alarms_to_update = []
now = datetime_utils.utcnow(False)
for alarm in alarms:
alarm_key = self._alarm_key(alarm)
old_alarm = self.cache.get(alarm_key, (None, None))[0]
if self._filter_and_cache_alarm(alarm, old_alarm, filter_, now):
alarms_to_update.append(alarm)
# add alarms that were deleted
# (i.e. the alarm definition was deleted from the datasource)
values = list(self.cache.values())
for cached_alarm, timestamp in values:
if self._is_erroneous(cached_alarm) and timestamp is not now:
LOG.debug('deleting cached_alarm %s', cached_alarm)
cached_alarm[DSProps.EVENT_TYPE] = GraphAction.DELETE_ENTITY
alarms_to_update.append(cached_alarm)
self.cache.pop(self._alarm_key(cached_alarm))
return alarms_to_update
def initializing_process(self, on_end_messages_func):
try:
LOG.info('Init Started')
if not self._wait_for_all_end_messages():
LOG.error('Initialization - max retries reached')
else:
LOG.info('Initialization - All end messages were received')
on_end_messages_func()
timestamp = str(utcnow())
self.evaluator.run_evaluator()
if not self._wait_for_action(self.evaluator_queue.empty):
LOG.error('Evaluator Queue Not Empty')
self._mark_old_deduced_alarms_as_deleted(timestamp, self.graph,
self.evaluator_queue)
self.status = self.FINISHED
LOG.info('Init Finished')
except Exception as e:
LOG.exception('Init Failed: %s', e)
def mark_vertex_as_deleted(self, vertex):
"""Marks the vertex as is deleted, and updates deletion timestamp"""
vertex[VProps.IS_DELETED] = True
vertex[VProps.SAMPLE_TIMESTAMP] = str(utcnow())
self.update_vertex(vertex)
def mark_edge_as_deleted(self, edge):
"""Marks the edge as is deleted, and updates delete timestamp"""
edge[EProps.IS_DELETED] = True
edge[EProps.UPDATE_TIMESTAMP] = str(utcnow())
self.update_edge(edge)
def _add_sampling_time(entity):
entity[DSProps.SAMPLE_DATE] = str(datetime_utils.utcnow())
def _add_default_properties(event):
event[DSProps.DATASOURCE_ACTION] = AType.UPDATE
event[DSProps.ENTITY_TYPE] = VITRAGE_TYPE
event[VProps.UPDATE_TIMESTAMP] = str(datetime_utils.utcnow(False))
event[VProps.SAMPLE_TIMESTAMP] = str(datetime_utils.utcnow())
