def _get_queue(queue_suffix): queue_name = queue_utils.get_queue_name( queue_name_base="st2.sensor.watch", queue_name_suffix=queue_suffix, add_random_uuid_to_suffix=True, ) return reactor.get_sensor_cud_queue(queue_name, routing_key="#")
def _get_queue(queue_suffix): if not queue_suffix: # pick last 10 digits of uuid. Arbitrary but unique enough for the TriggerWatcher. u_hex = uuid.uuid4().hex queue_suffix = uuid.uuid4().hex[len(u_hex) - 10:] queue_name = 'st2.sensor.watch.%s' % queue_suffix return reactor.get_sensor_cud_queue(queue_name, routing_key='#')
def _get_queue(queue_suffix): if not queue_suffix: # pick last 10 digits of uuid. Arbitrary but unique enough for the TriggerWatcher. u_hex = uuid.uuid4().hex queue_suffix = uuid.uuid4().hex[len(u_hex) - 10:] queue_name = 'st2.sensor.watch.%s' % queue_suffix return reactor.get_sensor_cud_queue(queue_name, routing_key='#')
def _get_queue(queue_suffix): queue_name = queue_utils.get_queue_name(queue_name_base='st2.sensor.watch', queue_name_suffix=queue_suffix, add_random_uuid_to_suffix=True ) return reactor.get_sensor_cud_queue(queue_name, routing_key='#')
ACTIONSCHEDULER_REQUEST_QUEUE, ACTIONRUNNER_WORK_QUEUE, ACTIONRUNNER_CANCEL_QUEUE, NOTIFIER_ACTIONUPDATE_WORK_QUEUE, RESULTSTRACKER_ACTIONSTATE_WORK_QUEUE, RULESENGINE_WORK_QUEUE, STREAM_ANNOUNCEMENT_WORK_QUEUE, STREAM_EXECUTION_ALL_WORK_QUEUE, STREAM_LIVEACTION_WORK_QUEUE, STREAM_EXECUTION_OUTPUT_QUEUE, WORKFLOW_EXECUTION_WORK_QUEUE, WORKFLOW_EXECUTION_RESUME_QUEUE, # Those queues are dynamically / late created on some class init but we still need to # pre-declare them for redis Kombu backend to work. reactor.get_trigger_cud_queue(name="st2.preinit", routing_key="init"), reactor.get_sensor_cud_queue(name="st2.preinit", routing_key="init"), ] def _do_register_exchange(exchange, connection, channel, retry_wrapper): try: kwargs = { "exchange": exchange.name, "type": exchange.type, "durable": exchange.durable, "auto_delete": exchange.auto_delete, "arguments": exchange.arguments, "nowait": False, "passive": False, } # Use the retry wrapper to increase resiliency in recoverable errors.
QUEUES = [ ACTIONSCHEDULER_REQUEST_QUEUE, ACTIONRUNNER_WORK_QUEUE, ACTIONRUNNER_CANCEL_QUEUE, EXPORTER_WORK_QUEUE, NOTIFIER_ACTIONUPDATE_WORK_QUEUE, RESULTSTRACKER_ACTIONSTATE_WORK_QUEUE, RULESENGINE_WORK_QUEUE, STREAM_ANNOUNCEMENT_WORK_QUEUE, STREAM_EXECUTION_WORK_QUEUE, STREAM_LIVEACTION_WORK_QUEUE, # Those queues are dynamically / late created on some class init but we still need to # pre-declare them for redis Kombu backend to work. reactor.get_trigger_cud_queue(name='st2.preinit', routing_key='init'), reactor.get_sensor_cud_queue(name='st2.preinit', routing_key='init') ] def _do_register_exchange(exchange, connection, channel, retry_wrapper): try: kwargs = { 'exchange': exchange.name, 'type': exchange.type, 'durable': exchange.durable, 'auto_delete': exchange.auto_delete, 'arguments': exchange.arguments, 'nowait': False, 'passive': False } # Use the retry wrapper to increase resiliency in recoverable errors.
NOTIFIER_ACTIONUPDATE_WORK_QUEUE, RESULTSTRACKER_ACTIONSTATE_WORK_QUEUE, RULESENGINE_WORK_QUEUE, STREAM_ANNOUNCEMENT_WORK_QUEUE, STREAM_EXECUTION_ALL_WORK_QUEUE, STREAM_LIVEACTION_WORK_QUEUE, STREAM_EXECUTION_OUTPUT_QUEUE, WORKFLOW_EXECUTION_WORK_QUEUE, WORKFLOW_EXECUTION_RESUME_QUEUE, # Those queues are dynamically / late created on some class init but we still need to # pre-declare them for redis Kombu backend to work. reactor.get_trigger_cud_queue(name='st2.preinit', routing_key='init'), reactor.get_sensor_cud_queue(name='st2.preinit', routing_key='init') ] def _do_register_exchange(exchange, connection, channel, retry_wrapper): try: kwargs = { 'exchange': exchange.name, 'type': exchange.type, 'durable': exchange.durable, 'auto_delete': exchange.auto_delete, 'arguments': exchange.arguments, 'nowait': False, 'passive': False } # Use the retry wrapper to increase resiliency in recoverable errors.