docs-archive/apache-airflow/2.0.0/apache-airflow/stable/_sources/smart-sensor.rst.txt - airflow-site - Git at Google

  .. Licensed to the Apache Software Foundation (ASF) under one
     or more contributor license agreements.  See the NOTICE file
     distributed with this work for additional information
     regarding copyright ownership.  The ASF licenses this file
     to you 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.


 Smart Sensor
 ============

 .. warning::

   This is an **early-access** feature and might change in incompatible ways in future Airflow versions.
   However this feature can be considered bug-free, and Airbnb has been using this feature in Production
   since early 2020 and has significantly reduced their costs for heavy use of sensors.

 The smart sensor is a service (run by a builtin DAG) which greatly reduces airflow’s infrastructure
 cost by consolidating some of the airflow long running light weight tasks.

 .. image:: img/smart_sensor_architecture.png

 Instead of using one process for each task, the main idea of the smart sensor service is to improve the
 efficiency of these long running tasks by using centralized processes to execute those tasks in batches.

 To do that, we need to run a task in two steps, the first step is to serialize the task information
 into the database; and the second step is to use a few centralized processes to execute the serialized
 tasks in batches.

 In this way, we only need a handful of running processes.

 .. image:: img/smart_sensor_single_task_execute_flow.png

 The smart sensor service is supported in a new mode called “smart sensor mode”. In smart sensor mode,
 instead of holding a long running process for each sensor and poking periodically, a sensor will only
 store poke context at sensor_instance table and then exits with a ‘sensing’ state.

 When the smart sensor mode is enabled, a special set of builtin smart sensor DAGs
 (named smart_sensor_group_shard_xxx) is created by the system; These DAGs contain ``SmartSensorOperator``
 task and manage the smart sensor jobs for the airflow cluster. The SmartSensorOperator task can fetch
 hundreds of ‘sensing’ instances from sensor_instance table and poke on behalf of them in batches.
 Users don’t need to change their existing DAGs.

 Enable/Disable Smart Sensor
 ---------------------------

 Updating from a older version might need a schema change. If there is no ``sensor_instance`` table
 in the DB, please make sure to run ``airflow db upgrade``

 Add the following settings in the ``airflow.cfg``:

 .. code-block::

     [smart_sensor]
     use_smart_sensor = true
     shard_code_upper_limit = 10000

     # Users can change the following config based on their requirements
     shards = 5
     sensors_enabled = NamedHivePartitionSensor, MetastorePartitionSensor

 *   ``use_smart_sensor``: This config indicates if the smart sensor is enabled.
 *   ``shards``: This config indicates the number of concurrently running smart sensor jobs for
     the airflow cluster.
 *   ``sensors_enabled``: This config is a list of sensor class names that will use the smart sensor.
     The users use the same class names (e.g. HivePartitionSensor) in their DAGs and they don’t have
     the control to use smart sensors or not, unless they exclude their tasks explicitly.

 Enabling/disabling the smart sensor service is a system level configuration change.
 It is transparent to the individual users. Existing DAGs don't need to be changed for
 enabling/disabling the smart sensor. Rotating centralized smart sensor tasks will not
 cause any user’s sensor task failure.

 Support new operators in the smart sensor service
 -------------------------------------------------

 *   Define ``poke_context_fields`` as class attribute in the sensor. ``poke_context_fields``
     include all key names used for initializing a sensor object.
 *   In ``airflow.cfg``, add the new operator's classname to ``[smart_sensor] sensors_enabled``.
     All supported sensors' classname should be comma separated.
	.. Licensed to the Apache Software Foundation (ASF) under one
	or more contributor license agreements. See the NOTICE file
	distributed with this work for additional information
	regarding copyright ownership. The ASF licenses this file
	to you 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.




	Smart Sensor
	============

	.. warning::

	This is an early-access feature and might change in incompatible ways in future Airflow versions.
	However this feature can be considered bug-free, and Airbnb has been using this feature in Production
	since early 2020 and has significantly reduced their costs for heavy use of sensors.

	The smart sensor is a service (run by a builtin DAG) which greatly reduces airflow’s infrastructure
	cost by consolidating some of the airflow long running light weight tasks.

	.. image:: img/smart_sensor_architecture.png

	Instead of using one process for each task, the main idea of the smart sensor service is to improve the
	efficiency of these long running tasks by using centralized processes to execute those tasks in batches.

	To do that, we need to run a task in two steps, the first step is to serialize the task information
	into the database; and the second step is to use a few centralized processes to execute the serialized
	tasks in batches.

	In this way, we only need a handful of running processes.

	.. image:: img/smart_sensor_single_task_execute_flow.png

	The smart sensor service is supported in a new mode called “smart sensor mode”. In smart sensor mode,
	instead of holding a long running process for each sensor and poking periodically, a sensor will only
	store poke context at sensor_instance table and then exits with a ‘sensing’ state.

	When the smart sensor mode is enabled, a special set of builtin smart sensor DAGs
	(named smart_sensor_group_shard_xxx) is created by the system; These DAGs contain ``SmartSensorOperator``
	task and manage the smart sensor jobs for the airflow cluster. The SmartSensorOperator task can fetch
	hundreds of ‘sensing’ instances from sensor_instance table and poke on behalf of them in batches.
	Users don’t need to change their existing DAGs.

	Enable/Disable Smart Sensor
	---------------------------

	Updating from a older version might need a schema change. If there is no ``sensor_instance`` table
	in the DB, please make sure to run ``airflow db upgrade``

	Add the following settings in the ``airflow.cfg``:

	.. code-block::

	[smart_sensor]
	use_smart_sensor = true
	shard_code_upper_limit = 10000

	# Users can change the following config based on their requirements
	shards = 5
	sensors_enabled = NamedHivePartitionSensor, MetastorePartitionSensor

	* ``use_smart_sensor``: This config indicates if the smart sensor is enabled.
	* ``shards``: This config indicates the number of concurrently running smart sensor jobs for
	the airflow cluster.
	* ``sensors_enabled``: This config is a list of sensor class names that will use the smart sensor.
	The users use the same class names (e.g. HivePartitionSensor) in their DAGs and they don’t have
	the control to use smart sensors or not, unless they exclude their tasks explicitly.

	Enabling/disabling the smart sensor service is a system level configuration change.
	It is transparent to the individual users. Existing DAGs don't need to be changed for
	enabling/disabling the smart sensor. Rotating centralized smart sensor tasks will not
	cause any user’s sensor task failure.

	Support new operators in the smart sensor service
	-------------------------------------------------

	* Define ``poke_context_fields`` as class attribute in the sensor. ``poke_context_fields``
	include all key names used for initializing a sensor object.
	* In ``airflow.cfg``, add the new operator's classname to ``[smart_sensor] sensors_enabled``.
	All supported sensors' classname should be comma separated.