Nettoyer la base de données Airflow

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Cette page explique comment gérer la base de données Airflow dans votre environnement.

Au fil du temps, la base de données Airflow de votre environnement stocke de plus en plus de données. Ces données incluent des informations et des journaux liés aux exécutions DAG, aux tâches et aux autres opérations Airflow passées.

Limites de taille de la base de données

  • Si la taille de la base de données Airflow est supérieure à 20 Go, vous ne pouvez pas mettre à niveau votre environnement vers une version ultérieure.

  • Si la taille de la base de données Airflow est supérieure à 20 Go, il est impossible de créer des instantanés.

Exécuter le DAG de maintenance de la base de données selon un calendrier

Vous pouvez utiliser le DAG de maintenance pour nettoyer le contenu de la base de données Airflow de votre environnement:

  • Exécutez le DAG de maintenance régulièrement pour que la taille de la base de données reste dans les limites. Nous vous recommandons d'exécuter ce DAG quotidiennement pour la plupart des environnements.

  • Choisissez une durée de conservation (DEFAULT_MAX_DB_ENTRY_AGE_IN_DAYS) qui permet de limiter la taille de la base de données. Pour la plupart des environnements, nous vous recommandons de commencer par une période de 30 jours.

  • Si vous constatez que la métrique de taille de la base de données de métadonnées Airflow augmente considérablement entre les exécutions du DAG de maintenance, envisagez d'exécuter ce DAG plus souvent.

Par défaut, ce DAG supprime les anciennes entrées des tables job, dag_run, task_instance, log, xcom, sla_miss, dags, task_reschedule, task_fail et import_error. Dans le DAG, examinez la liste des tables et décidez si les anciennes entrées doivent être supprimées. En général, la plupart des économies d'espace sont obtenues en nettoyant les tables log, task_instance, dag_run et xcom. Pour exclure une table de la suppression, modifiez le DAG et commentez les éléments correspondants dans la liste DATABASE_OBJECTS.

"""
A maintenance workflow that you can deploy into Airflow to periodically clean
out the DagRun, TaskInstance, Log, XCom, Job DB and SlaMiss entries to avoid
having too much data in your Airflow MetaStore.

## Authors

The DAG is a fork of [teamclairvoyant repository.](
https://github.com/teamclairvoyant/airflow-maintenance-dags/tree/master/db-cleanup
)

## Usage

1. Update the global variables (SCHEDULE_INTERVAL, DAG_OWNER_NAME,
  ALERT_EMAIL_ADDRESSES and ENABLE_DELETE) in the DAG with the desired values

2. Modify the DATABASE_OBJECTS list to add/remove objects as needed. Each
   dictionary in the list features the following parameters:
    - airflow_db_model: Model imported from airflow.models corresponding to
      a table in the airflow metadata database
    - age_check_column: Column in the model/table to use for calculating max
      date of data deletion

3. Create and Set the following Variables in the Airflow Web Server
  (Admin -> Variables)
    - airflow_db_cleanup__max_db_entry_age_in_days - integer - Length to
      retain the log files if not already provided in the conf. If this is set
      to 30, the job will remove those files that are 30 days old or older.

4. Put the DAG in your gcs bucket.
"""
from datetime import timedelta
import logging
import os

import airflow
from airflow import settings
from airflow.models import (
    DAG,
    DagModel,
    DagRun,
    Log,
    SlaMiss,
    TaskInstance,
    Variable,
    XCom,
)
from airflow.operators.python import PythonOperator
from airflow.utils import timezone
from airflow.version import version as airflow_version

import dateutil.parser
from sqlalchemy import desc, sql, text
from sqlalchemy.exc import ProgrammingError

now = timezone.utcnow

# airflow-db-cleanup
DAG_ID = os.path.basename(__file__).replace(".pyc", "").replace(".py", "")
START_DATE = airflow.utils.dates.days_ago(1)
# How often to Run. @daily - Once a day at Midnight (UTC)
SCHEDULE_INTERVAL = "@daily"
# Who is listed as the owner of this DAG in the Airflow Web Server
DAG_OWNER_NAME = "operations"
# List of email address to send email alerts to if this job fails
ALERT_EMAIL_ADDRESSES = []
# Airflow version used by the environment in list form, value stored in
# airflow_version is in format e.g "2.3.4+composer"
AIRFLOW_VERSION = airflow_version[: -len("+composer")].split(".")
# Length to retain the log files if not already provided in the conf. If this
# is set to 30, the job will remove those files that arE 30 days old or older.
DEFAULT_MAX_DB_ENTRY_AGE_IN_DAYS = int(
    Variable.get("airflow_db_cleanup__max_db_entry_age_in_days", 30)
)
# Prints the database entries which will be getting deleted; set to False
# to avoid printing large lists and slowdown process
PRINT_DELETES = False
# Whether the job should delete the db entries or not. Included if you want to
# temporarily avoid deleting the db entries.
ENABLE_DELETE = True
# List of all the objects that will be deleted. Comment out the DB objects you
# want to skip.
DATABASE_OBJECTS = [
    {
        "airflow_db_model": DagRun,
        "age_check_column": DagRun.execution_date,
        "keep_last": True,
        "keep_last_filters": [DagRun.external_trigger.is_(False)],
        "keep_last_group_by": DagRun.dag_id,
    },
    {
        "airflow_db_model": TaskInstance,
        "age_check_column": TaskInstance.start_date
        if AIRFLOW_VERSION < ["2", "2", "0"]
        else TaskInstance.start_date,
        "keep_last": False,
        "keep_last_filters": None,
        "keep_last_group_by": None,
    },
    {
        "airflow_db_model": Log,
        "age_check_column": Log.dttm,
        "keep_last": False,
        "keep_last_filters": None,
        "keep_last_group_by": None,
    },
    {
        "airflow_db_model": XCom,
        "age_check_column": XCom.execution_date
        if AIRFLOW_VERSION < ["2", "2", "5"]
        else XCom.timestamp,
        "keep_last": False,
        "keep_last_filters": None,
        "keep_last_group_by": None,
    },
    {
        "airflow_db_model": SlaMiss,
        "age_check_column": SlaMiss.execution_date,
        "keep_last": False,
        "keep_last_filters": None,
        "keep_last_group_by": None,
    },
    {
        "airflow_db_model": DagModel,
        "age_check_column": DagModel.last_parsed_time,
        "keep_last": False,
        "keep_last_filters": None,
        "keep_last_group_by": None,
    },
]

# Check for TaskReschedule model
try:
    from airflow.models import TaskReschedule

    DATABASE_OBJECTS.append(
        {
            "airflow_db_model": TaskReschedule,
            "age_check_column": TaskReschedule.execution_date
            if AIRFLOW_VERSION < ["2", "2", "0"]
            else TaskReschedule.start_date,
            "keep_last": False,
            "keep_last_filters": None,
            "keep_last_group_by": None,
        }
    )

except Exception as e:
    logging.error(e)

# Check for TaskFail model
try:
    from airflow.models import TaskFail

    DATABASE_OBJECTS.append(
        {
            "airflow_db_model": TaskFail,
            "age_check_column": TaskFail.start_date,
            "keep_last": False,
            "keep_last_filters": None,
            "keep_last_group_by": None,
        }
    )

except Exception as e:
    logging.error(e)

# Check for RenderedTaskInstanceFields model
if AIRFLOW_VERSION < ["2", "4", "0"]:
    try:
        from airflow.models import RenderedTaskInstanceFields

        DATABASE_OBJECTS.append(
            {
                "airflow_db_model": RenderedTaskInstanceFields,
                "age_check_column": RenderedTaskInstanceFields.execution_date,
                "keep_last": False,
                "keep_last_filters": None,
                "keep_last_group_by": None,
            }
        )

    except Exception as e:
        logging.error(e)

# Check for ImportError model
try:
    from airflow.models import ImportError

    DATABASE_OBJECTS.append(
        {
            "airflow_db_model": ImportError,
            "age_check_column": ImportError.timestamp,
            "keep_last": False,
            "keep_last_filters": None,
            "keep_last_group_by": None,
            "do_not_delete_by_dag_id": True,
        }
    )

except Exception as e:
    logging.error(e)

if AIRFLOW_VERSION < ["2", "6", "0"]:
    try:
        from airflow.jobs.base_job import BaseJob

        DATABASE_OBJECTS.append(
            {
                "airflow_db_model": BaseJob,
                "age_check_column": BaseJob.latest_heartbeat,
                "keep_last": False,
                "keep_last_filters": None,
                "keep_last_group_by": None,
            }
        )
    except Exception as e:
        logging.error(e)
else:
    try:
        from airflow.jobs.job import Job

        DATABASE_OBJECTS.append(
            {
                "airflow_db_model": Job,
                "age_check_column": Job.latest_heartbeat,
                "keep_last": False,
                "keep_last_filters": None,
                "keep_last_group_by": None,
            }
        )
    except Exception as e:
        logging.error(e)

default_args = {
    "owner": DAG_OWNER_NAME,
    "depends_on_past": False,
    "email": ALERT_EMAIL_ADDRESSES,
    "email_on_failure": True,
    "email_on_retry": False,
    "start_date": START_DATE,
    "retries": 1,
    "retry_delay": timedelta(minutes=1),
}

dag = DAG(
    DAG_ID,
    default_args=default_args,
    schedule_interval=SCHEDULE_INTERVAL,
    start_date=START_DATE,
)
if hasattr(dag, "doc_md"):
    dag.doc_md = __doc__
if hasattr(dag, "catchup"):
    dag.catchup = False


def print_configuration_function(**context):
    logging.info("Loading Configurations...")
    dag_run_conf = context.get("dag_run").conf
    logging.info("dag_run.conf: " + str(dag_run_conf))
    max_db_entry_age_in_days = None
    if dag_run_conf:
        max_db_entry_age_in_days = dag_run_conf.get(
            "maxDBEntryAgeInDays", None
        )
    logging.info("maxDBEntryAgeInDays from dag_run.conf: " + str(dag_run_conf))
    if max_db_entry_age_in_days is None or max_db_entry_age_in_days < 1:
        logging.info(
            "maxDBEntryAgeInDays conf variable isn't included or Variable "
            + "value is less than 1. Using Default '"
            + str(DEFAULT_MAX_DB_ENTRY_AGE_IN_DAYS)
            + "'"
        )
        max_db_entry_age_in_days = DEFAULT_MAX_DB_ENTRY_AGE_IN_DAYS
    max_date = now() + timedelta(-max_db_entry_age_in_days)
    logging.info("Finished Loading Configurations")
    logging.info("")

    logging.info("Configurations:")
    logging.info("max_db_entry_age_in_days: " + str(max_db_entry_age_in_days))
    logging.info("max_date:                 " + str(max_date))
    logging.info("enable_delete:            " + str(ENABLE_DELETE))
    logging.info("")

    logging.info("Setting max_execution_date to XCom for Downstream Processes")
    context["ti"].xcom_push(key="max_date", value=max_date.isoformat())


print_configuration = PythonOperator(
    task_id="print_configuration",
    python_callable=print_configuration_function,
    provide_context=True,
    dag=dag,
)


def build_query(
    session,
    airflow_db_model,
    age_check_column,
    max_date,
    dag_id=None
):
    """
    Build a database query to retrieve and filter Airflow data.

    Args:
        session: SQLAlchemy session object for database interaction.
        airflow_db_model: The Airflow model class to query (e.g., DagRun).
        age_check_column: The column representing the age of the data.
        max_date: The maximum allowed age for the data.
        dag_id (optional): The ID of the DAG to filter by. Defaults to None.

    Returns:
        SQLAlchemy query object: The constructed query.
    """
    query = session.query(airflow_db_model)

    logging.info("INITIAL QUERY : " + str(query))

    if dag_id:
        query = query.filter(airflow_db_model.dag_id == dag_id)

    if airflow_db_model == DagRun:
        # For DaRus we want to leave last DagRun regardless of its age
        newest_dagrun = (
            session
            .query(airflow_db_model)
            .filter(airflow_db_model.dag_id == dag_id)
            .order_by(desc(airflow_db_model.execution_date))
            .first()
        )
        logging.info("Newest dagrun: " + str(newest_dagrun))
        if newest_dagrun is not None:
            query = (
                query
                .filter(DagRun.external_trigger.is_(False))
                .filter(age_check_column <= max_date)
                .filter(airflow_db_model.id != newest_dagrun.id)
            )
        else:
            query = query.filter(sql.false())
    else:
        query = query.filter(age_check_column <= max_date)

    logging.info("FINAL QUERY: " + str(query))

    return query


def print_query(query, airflow_db_model, age_check_column):
    entries_to_delete = query.all()

    logging.info("Query: " + str(query))
    logging.info(
        "Process will be Deleting the following "
        + str(airflow_db_model.__name__)
        + "(s):"
    )
    for entry in entries_to_delete:
        date = str(entry.__dict__[str(age_check_column).split(".")[1]])
        logging.info("\tEntry: " + str(entry) + ", Date: " + date)

    logging.info(
        "Process will be Deleting "
        + str(len(entries_to_delete))
        + " "
        + str(airflow_db_model.__name__)
        + "(s)"
    )


def cleanup_function(**context):
    session = settings.Session()

    logging.info("Retrieving max_execution_date from XCom")
    max_date = context["ti"].xcom_pull(
        task_ids=print_configuration.task_id, key="max_date"
    )
    max_date = dateutil.parser.parse(max_date)  # stored as iso8601 str in xcom

    airflow_db_model = context["params"].get("airflow_db_model")
    state = context["params"].get("state")
    age_check_column = context["params"].get("age_check_column")
    keep_last = context["params"].get("keep_last")
    keep_last_filters = context["params"].get("keep_last_filters")
    keep_last_group_by = context["params"].get("keep_last_group_by")

    logging.info("Configurations:")
    logging.info("max_date:                 " + str(max_date))
    logging.info("enable_delete:            " + str(ENABLE_DELETE))
    logging.info("session:                  " + str(session))
    logging.info("airflow_db_model:         " + str(airflow_db_model))
    logging.info("state:                    " + str(state))
    logging.info("age_check_column:         " + str(age_check_column))
    logging.info("keep_last:                " + str(keep_last))
    logging.info("keep_last_filters:        " + str(keep_last_filters))
    logging.info("keep_last_group_by:       " + str(keep_last_group_by))

    logging.info("")

    logging.info("Running Cleanup Process...")

    try:
        if context["params"].get("do_not_delete_by_dag_id"):
            query = build_query(
                session=session,
                airflow_db_model=airflow_db_model,
                age_check_column=age_check_column,
                max_date=max_date,
            )
            if PRINT_DELETES:
                print_query(query, airflow_db_model, age_check_column)
            if ENABLE_DELETE:
                logging.info("Performing Delete...")
                query.delete(synchronize_session=False)
            session.commit()
        else:
            dags = session.query(airflow_db_model.dag_id).distinct()
            session.commit()

            list_dags = [str(list(dag)[0]) for dag in dags] + [None]
            for dag_id in list_dags:
                query = build_query(
                    session=session,
                    airflow_db_model=airflow_db_model,
                    age_check_column=age_check_column,
                    max_date=max_date,
                    dag_id=dag_id,
                )
                if PRINT_DELETES:
                    print_query(query, airflow_db_model, age_check_column)
                if ENABLE_DELETE:
                    logging.info("Performing Delete...")
                    query.delete(synchronize_session=False)
                session.commit()

        if not ENABLE_DELETE:
            logging.warning(
                "You've opted to skip deleting the db entries. "
                "Set ENABLE_DELETE to True to delete entries!!!"
            )

        logging.info("Finished Running Cleanup Process")

    except ProgrammingError as e:
        logging.error(e)
        logging.error(
            str(airflow_db_model) +
            " is not present in the metadata." +
            "Skipping..."
        )

    finally:
        session.close()


def cleanup_sessions():
    session = settings.Session()

    try:
        logging.info("Deleting sessions...")
        count_statement = (
            "SELECT COUNT(*) AS cnt FROM session " +
            "WHERE expiry < now()::timestamp(0);"
        )
        before = session.execute(text(count_statement)).one_or_none()["cnt"]
        session.execute(
            text(
                "DELETE FROM session WHERE expiry < now()::timestamp(0);"
            )
        )
        after = session.execute(text(count_statement)).one_or_none()["cnt"]
        logging.info("Deleted %s expired sessions.", (before - after))
    except Exception as err:
        logging.exception(err)

    session.commit()
    session.close()


def analyze_db():
    session = settings.Session()
    session.execute("ANALYZE")
    session.commit()
    session.close()


analyze_op = PythonOperator(
    task_id="analyze_query",
    python_callable=analyze_db,
    provide_context=True,
    dag=dag
)

cleanup_session_op = PythonOperator(
    task_id="cleanup_sessions",
    python_callable=cleanup_sessions,
    provide_context=True,
    dag=dag,
)

cleanup_session_op.set_downstream(analyze_op)

for db_object in DATABASE_OBJECTS:
    cleanup_op = PythonOperator(
        task_id="cleanup_" + str(db_object["airflow_db_model"].__name__),
        python_callable=cleanup_function,
        params=db_object,
        provide_context=True,
        dag=dag,
    )

    print_configuration.set_downstream(cleanup_op)
    cleanup_op.set_downstream(analyze_op)

Maintenir les performances de la base de données

  • Les problèmes de performances de la base de données Airflow peuvent entraîner des problèmes d'exécution globale du DAG. Observez les statistiques sur l'utilisation du processeur et de la mémoire de la base de données. Si l'utilisation du processeur et de la mémoire approche des limites, la base de données est surchargée et nécessite un scaling. La quantité de ressources disponibles pour la base de données Airflow est contrôlée par la propriété de taille d'environnement de votre environnement. Pour effectuer un scaling de la base de données à la hausse, modifiez la taille de l'environnement pour choisir un niveau supérieur. L'augmentation de la taille de l'environnement augmente les coûts associés à votre environnement.

  • Si vous utilisez le mécanisme XCom pour transférer des fichiers, assurez-vous de l'utiliser conformément aux consignes d'Airflow. Le transfert de fichiers volumineux ou d'un grand nombre de fichiers à l'aide de XCom a un impact sur les performances de la base de données Airflow et peut entraîner des échecs lors du chargement d'instantanés ou de la mise à niveau de votre environnement. Pensez à utiliser des solutions alternatives telles que Cloud Storage pour transférer de grands volumes de données.

Supprimer les entrées des DAG inutilisés

Vous pouvez supprimer les entrées de base de données des DAG inutilisés en supprimant les DAG de l'UI d'Airflow.

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