airflow-ha 1.3.3

High Availability (HA) DAG Utility

airflow-ha

High Availability (HA) DAG Utility

Overview

This library provides an operator called HighAvailabilityOperator, which inherits from PythonSensor and runs a user-provided python_callable. The return value can trigger the following actions:

Return	Result	Current DAGrun End State
(PASS, RETRIGGER)	Retrigger the same DAG to run again	pass
(PASS, STOP)	Finish the DAG, until its next scheduled run	pass
(FAIL, RETRIGGER)	Retrigger the same DAG to run again	fail
(FAIL, STOP)	Finish the DAG, until its next scheduled run	fail
(*, CONTINUE)	Continue to run the Sensor	N/A

[!NOTE] Note: if the sensor times out, the behavior matches (Result.PASS, Action.RETRIGGER).

Limiters

Arguments to HighAvailabilityOperator can be used to configure finishing behavior outside of the callable:

• runtime: A timedelta or int (seconds). The operator will turn off cleanly after dag.start_date + runtime ((PASS, STOP))
• endtime: A time or str (isoformat time). The operator will turn off cleanly after today + endtime ((PASS, STOP))
• maxretrigger: An integer. The operator will turn off after maxretrigger retriggers ((<previous status, STOP))

[!NOTE] These can be configured as arguments to HighAvailabilityOperator, and will be automatically included as DAG Params. This also allows them to be overriden by the DAG Config during a manual run. There is also a force-run option when running the DAG manually, which will cause the HighAvailabilityOperator to ignore the above 3 limiters.

Example - Always On

Consider the following DAG:

with DAG(
    dag_id="test-high-availability",
    description="Test HA Operator",
    schedule=timedelta(days=1),
    start_date=datetime(2024, 1, 1),
    catchup=False,
):
    ha = HighAvailabilityOperator(
        task_id="ha",
        timeout=30,
        poke_interval=5,
        python_callable=lambda **kwargs: choice(
            (
                (Result.PASS, Action.CONTINUE),
                (Result.PASS, Action.RETRIGGER),
                (Result.PASS, Action.STOP),
                (Result.FAIL, Action.CONTINUE),
                (Result.FAIL, Action.RETRIGGER),
                (Result.FAIL, Action.STOP),
            )
        ),
    )
    
    pre = PythonOperator(task_id="pre", python_callable=lambda **kwargs: "test")
    pre >> ha
    
    retrigger_fail = PythonOperator(task_id="retrigger_fail", python_callable=lambda **kwargs: "test")
    ha.retrigger_fail >> retrigger_fail

    stop_fail = PythonOperator(task_id="stop_fail", python_callable=lambda **kwargs: fail_, trigger_rule="all_failed")
    ha.stop_fail >> stop_fail
    
    retrigger_pass = PythonOperator(task_id="retrigger_pass", python_callable=lambda **kwargs: "test")
    ha.retrigger_pass >> retrigger_pass

    stop_pass = PythonOperator(task_id="stop_pass", python_callable=lambda **kwargs: "test")
    ha.stop_pass >> stop_pass

This produces a DAG with the following topology:

This DAG exhibits cool behavior. If the check returns CONTINUE, the DAG will continue to run the sensor. If the check returns RETRIGGER or the interval elapses, the DAG will re-trigger itself and finish. If the check returns STOP, the DAG will finish and not retrigger itself. If the check returns PASS, the current DAG run will end in a successful state. If the check returns FAIL, the current DAG run will end in a failed state.

This allows the one to build "always-on" DAGs without having individual long blocking tasks.

This library is used to build airflow-supervisor, which uses supervisor as a process-monitor while checking and restarting jobs via airflow-ha.

Example - Recursive

You can also use this library to build recursive DAGs - or "Cyclic DAGs", despite the oxymoronic name.

The following code makes a DAG that triggers itself with some decrementing counter, starting with value 3:

with DAG(
    dag_id="test-ha-counter",
    description="Test HA Countdown",
    schedule=timedelta(days=1),
    start_date=datetime(2024, 1, 1),
    catchup=False,
):
    
    def _get_count(**kwargs):
        # The default is 3
        return kwargs['dag_run'].conf.get('counter', 3) - 1

    get_count = PythonOperator(task_id="get-count", python_callable=_get_count)

    def _keep_counting(**kwargs):
        count = kwargs["task_instance"].xcom_pull(key="return_value", task_ids="get-count")
        return (Result.PASS, Action.RETRIGGER) if count > 0 else (Result.PASS, Action.STOP) if count == 0 else (Result.FAIL, Action.STOP)

    keep_counting = HighAvailabilityOperator(
        task_id="ha",
        timeout=30,
        poke_interval=5,
        python_callable=_keep_counting,
        pass_trigger_kwargs={"conf": '''{"counter": {{ ti.xcom_pull(key="return_value", task_ids="get-count") }}}'''},
    )

    get_count >> keep_counting

License

This software is licensed under the Apache 2.0 license. See the LICENSE file for details.