def publish(self, event, mandatory=False):
if not isinstance(event, Event):
queueSchema = getUtility(IQueueSchema)
if not hasattr(event, "evid"):
event.evid = generate(1)
# create the protobuf
serializer = IProtobufSerializer(event)
proto = queueSchema.getNewProtobuf("$Event")
serializer.fill(proto)
event = proto
else:
if not event.uuid:
event.uuid = generate(1)
# fill out the routing key
eventClass = "/Unknown"
if event.event_class:
eventClass = event.event_class
routing_key = "zenoss.zenevent%s" % eventClass.replace('/', '.').lower()
log.debug("About to publish this event to the raw event "
"queue:%s, with this routing key: %s" % (event, routing_key))
try:
self._publish("$RawZenEvents", routing_key, event,
mandatory=mandatory)
except NoRouteException:
# Queue hasn't been created yet. For this particular case, we don't
# want to lose events by setting mandatory=False, so we'll create
# the queue explicitly (but we don't want to pass it every time
# because it could get expensive). See ZEN-3361.
self._publish("$RawZenEvents", routing_key, event,
mandatory=mandatory, createQueues=('$RawZenEvents',))
def publish(self, event, mandatory=False, immediate=False):
if not isinstance(event, Event):
queueSchema = getUtility(IQueueSchema)
if not hasattr(event, "evid"):
event.evid = generate(1)
# create the protobuf
serializer = IProtobufSerializer(event)
proto = queueSchema.getNewProtobuf("$Event")
serializer.fill(proto)
event = proto
else:
if not event.uuid:
event.uuid = generate(1)
# fill out the routing key
eventClass = "/Unknown"
if event.event_class:
eventClass = event.event_class
routing_key = "zenoss.zenevent%s" % eventClass.replace('/', '.').lower()
log.debug("About to publish this event to the raw event "
"queue:%s, with this routing key: %s" % (event, routing_key))
try:
self._publish("$RawZenEvents", routing_key, event,
mandatory=mandatory, immediate=immediate)
except NoRouteException:
# Queue hasn't been created yet. For this particular case, we don't
# want to lose events by setting mandatory=False, so we'll create
# the queue explicitly (but we don't want to pass it every time
# because it could get expensive). See ZEN-3361.
self._publish("$RawZenEvents", routing_key, event,
mandatory=mandatory, immediate=immediate,
createQueues=('$RawZenEvents',))
def _createModelEventProtobuf(self, ob, eventType):
"""
Creates and returns a ModelEvent. This is tightly
coupled to the modelevent.proto protobuf.
"""
try:
serializer = IModelProtobufSerializer(ob)
event = modelevents_pb2.ModelEvent()
self._events.append(event)
event.event_uuid = generate()
event.type = getattr(event, eventType)
type = serializer.modelType
event.model_type = MODEL_TYPE.getNumber(type)
proto = getattr(event, type.lower(), None)
if proto:
if eventType == 'REMOVED':
guid = self._getGUID(ob)
proto.uuid = guid
else:
serializer.fill(proto)
return event
except TypeError:
log.debug("Could not adapt %r to a protobuf serializer." % (ob))
def test_invalid_event_class(self):
eventdata = [dict(eventClassKey="abc1234",
evid = generate(),
eventClass={'text': "/Pepe"})]
msg, url = self.zep.createEventMapping(eventdata, "/" + self.eventClassId)
# verify the msg
self.assertTrue('is not of the class Unknown' in msg)
def test_create_event_mapping(self):
eventdata = [dict(eventClassKey="abc123",
evid = generate(),
eventClass={'text': Unknown})]
msg, url = self.zep.createEventMapping(eventdata, "/" + self.eventClassId)
# verify the msg
self.assertTrue('Created 1 event mapping' in msg)
def _createModelEventProtobuf(self, ob, eventType):
"""
Creates and returns a ModelEvent. This is tightly
coupled to the modelevent.proto protobuf.
"""
try:
serializer = IModelProtobufSerializer(ob)
event = modelevents_pb2.ModelEvent()
self._events.append(event)
event.event_uuid = generate()
event.type = getattr(event, eventType)
type = serializer.modelType
event.model_type = MODEL_TYPE.getNumber(type)
proto = getattr(event, type.lower(), None)
if proto:
if eventType == 'REMOVED':
guid = self._getGUID(ob)
proto.uuid = guid
else:
serializer.fill(proto)
return event
except TypeError:
log.debug("Could not adapt %r to a protobuf serializer." % (ob))
def _publishEvent(self, event, publisher=None):
"""
Sends this event to the event fan out queue
"""
if publisher is None:
publisher = getUtility(IEventPublisher)
if log.isEnabledFor(logging.DEBUG):
log.debug('%s%s%s' % ('=' * 15, ' incoming event ', '=' * 15))
if isinstance(event, dict):
# Fix for ZEN-28005 to thwart XSS attacks from incoming events
for f in event:
if f in ("eventClassKey", "component", "summary", "device",
"eventClass"):
if event[f] is not None and len(event[f]) > 0:
event[f] = cgi.escape(event[f])
event = buildEventFromDict(event)
if getattr(event, 'eventClass', Unknown) == Heartbeat:
log.debug("Got a %s %s heartbeat event (timeout %s sec).",
getattr(event, 'device', 'Unknown'),
getattr(event, 'component', 'Unknown'),
getattr(event, 'timeout', 'Unknown'))
return self._sendHeartbeat(event)
event.evid = guid.generate(1)
publisher.publish(event)
return event
def correlateEvents(self, events):
"""
In the case of moving objects we get only the latest add or remove event per device
or component. Also we expect devices to have a "move" event associated.
"""
eventsToRemove = self.findNonImpactingEvents(events)
eventsToKeep = events
if eventsToRemove:
eventsToRemove = set(eventsToRemove)
eventsToKeep = [
event for event in events
if event.event_uuid not in eventsToRemove
]
# protobuf is odd about setting properties, so we have to make a new
# event list and then copy the events we want into it
queueSchema = getUtility(IQueueSchema)
#batch events into manageable ModelEventList messages
batchSize = 5000
msgs = []
count = 0
returnMsg = queueSchema.getNewProtobuf("$ModelEventList")
returnMsg.event_uuid = generate()
msgs.append(returnMsg)
for event in eventsToKeep:
if count >= batchSize:
log.debug("ModelEventList starting new batch after %s events" %
count)
returnMsg = queueSchema.getNewProtobuf("$ModelEventList")
returnMsg.event_uuid = generate()
msgs.append(returnMsg)
# reset counter
count = 0
newEvent = returnMsg.events.add()
newEvent.CopyFrom(event)
#not needed in the actual published event, just takes up space
newEvent.ClearField('event_uuid')
count += 1
else:
log.debug("ModelEventList batch size %s" % count)
return msgs
def correlateEvents(self, events):
"""
In the case of moving objects we get only the latest add or remove event per device
or component. Also we expect devices to have a "move" event associated.
"""
eventsToRemove = self.findNonImpactingEvents(events)
eventsToKeep = events
if eventsToRemove:
eventsToRemove = set(eventsToRemove)
eventsToKeep = [event for event in events if event.event_uuid not in eventsToRemove]
# protobuf is odd about setting properties, so we have to make a new
# event list and then copy the events we want into it
queueSchema = getUtility(IQueueSchema)
#batch events into manageable ModelEventList messages
batchSize = 5000
msgs = []
count = 0
returnMsg = queueSchema.getNewProtobuf("$ModelEventList")
returnMsg.event_uuid = generate()
msgs.append(returnMsg)
for event in eventsToKeep:
if count >= batchSize:
log.debug("ModelEventList starting new batch after %s events" % count)
returnMsg = queueSchema.getNewProtobuf("$ModelEventList")
returnMsg.event_uuid = generate()
msgs.append(returnMsg)
# reset counter
count = 0
newEvent = returnMsg.events.add()
newEvent.CopyFrom(event)
#not needed in the actual published event, just takes up space
newEvent.ClearField('event_uuid')
count += 1
else:
log.debug("ModelEventList batch size %s" % count)
return msgs
def _publishEvent(self, event, publisher=None):
"""
Sends this event to the event fan out queue
"""
if publisher is None:
publisher = getUtility(IEventPublisher)
if log.isEnabledFor(logging.DEBUG):
log.debug('%s%s%s' % ('=' * 15, ' incoming event ', '=' * 15))
if isinstance(event, dict):
event = buildEventFromDict(event)
if getattr(event, 'eventClass', Unknown) == Heartbeat:
log.debug("Got a %s %s heartbeat event (timeout %s sec).",
getattr(event, 'device', 'Unknown'),
getattr(event, 'component', 'Unknown'),
getattr(event, 'timeout', 'Unknown'))
return self._sendHeartbeat(event)
event.evid = guid.generate(1)
publisher.publish(event)
return event
def _send_event(task, exc, task_id, args, kwargs):
classkey, summary = _getErrorInfo(task.app, exc)
name = task.getJobType() if hasattr(task, "getJobType") else task.name
publisher = getUtility(IEventPublisher)
event = Event.Event(**{
"evid": guid.generate(1),
"device": name,
"severity": Event.Error,
"component": "zenjobs",
"eventClassKey": classkey,
"eventKey": "{}|{}".format(classkey, name),
"message": task.description_from(*args, **kwargs),
"summary": summary,
"jobid": str(task_id),
})
publisher.publish(event)
log_message = (
"Event sent event-class-key=%s summary=%s", classkey, summary,
)
task.log.info(*log_message)
mlog.info(*log_message)
def _publishEvent(self, event, publisher=None):
"""
Sends this event to the event fan out queue
"""
if publisher is None:
publisher = getUtility(IEventPublisher)
if log.isEnabledFor(logging.DEBUG):
log.debug("%s%s%s" % ("=" * 15, " incoming event ", "=" * 15))
if isinstance(event, dict):
event = buildEventFromDict(event)
if getattr(event, "eventClass", Unknown) == Heartbeat:
log.debug(
"Got a %s %s heartbeat event (timeout %s sec).",
getattr(event, "device", "Unknown"),
getattr(event, "component", "Unknown"),
getattr(event, "timeout", "Unknown"),
)
return self._sendHeartbeat(event)
event.evid = guid.generate(1)
publisher.publish(event)
return event
def _send_event(self, event_dict):
if not self._datacollector:
return
event = Event.buildEventFromDict(event_dict)
event.evid = guid.generate(1)
self.__publisher.publish(event)
