Set up a Database Backend

Airflow was built to interact with its metadata using SqlAlchemy.

The document below describes the database engine configurations, the necessary changes to their configuration to be used with Airflow, as well as changes to the Airflow configurations to connect to these databases.

Choosing database backend

If you want to take a real test drive of Airflow, you should consider setting up a database backend to PostgreSQL or MySQL. By default, Airflow uses SQLite, which is intended for development purposes only.

Airflow supports the following database engine versions, so make sure which version you have. Old versions may not support all SQL statements.

  • PostgreSQL: 12, 13, 14, 15, 16

  • MySQL: 8.0, Innovation

  • SQLite: 3.15.0+

If you plan on running more than one scheduler, you have to meet additional requirements. For details, see Scheduler HA Database Requirements.

Warning

Despite big similarities between MariaDB and MySQL, we DO NOT support MariaDB as a backend for Airflow. There are known problems (for example index handling) between MariaDB and MySQL and we do not test our migration scripts nor application execution on Maria DB. We know there were people who used MariaDB for Airflow and that cause a lot of operational headache for them so we strongly discourage attempts of using MariaDB as a backend and users cannot expect any community support for it because the number of users who tried to use MariaDB for Airflow is very small.

Database URI

Airflow uses SQLAlchemy to connect to the database, which requires you to configure the Database URL. You can do this in option sql_alchemy_conn in section [database]. It is also common to configure this option with AIRFLOW__DATABASE__SQL_ALCHEMY_CONN environment variable.

Note

For more information on setting the configuration, see Setting Configuration Options.

If you want to check the current value, you can use airflow config get-value database sql_alchemy_conn command as in the example below.

$ airflow config get-value database sql_alchemy_conn
sqlite:////tmp/airflow/airflow.db

The exact format description is described in the SQLAlchemy documentation, see Database Urls. We will also show you some examples below.

Setting up a SQLite Database

SQLite database can be used to run Airflow for development purpose as it does not require any database server (the database is stored in a local file). There are many limitations of using the SQLite database (for example it only works with Sequential Executor) and it should NEVER be used for production.

There is a minimum version of sqlite3 required to run Airflow 2.0+ - minimum version is 3.15.0. Some of the older systems have an earlier version of sqlite installed by default and for those system you need to manually upgrade SQLite to use version newer than 3.15.0. Note, that this is not a python library version, it’s the SQLite system-level application that needs to be upgraded. There are different ways how SQLite might be installed, you can find some information about that at the official website of SQLite and in the documentation specific to distribution of your Operating System.

Troubleshooting

Sometimes even if you upgrade SQLite to higher version and your local python reports higher version, the python interpreter used by Airflow might still use the older version available in the LD_LIBRARY_PATH set for the python interpreter that is used to start Airflow.

You can make sure which version is used by the interpreter by running this check:

root@b8a8e73caa2c:/opt/airflow# python
Python 3.8.10 (default, Mar 15 2022, 12:22:08)
[GCC 8.3.0] on linux
Type "help", "copyright", "credits" or "license" for more information.
>>> import sqlite3
>>> sqlite3.sqlite_version
'3.27.2'
>>>

But be aware that setting environment variables for your Airflow deployment might change which SQLite library is found first, so you might want to make sure that the “high-enough” version of SQLite is the only version installed in your system.

An example URI for the sqlite database:

sqlite:////home/airflow/airflow.db

Upgrading SQLite on AmazonLinux AMI or Container Image

AmazonLinux SQLite can only be upgraded to v3.7 using the source repos. Airflow requires v3.15 or higher. Use the following instructions to setup the base image (or AMI) with latest SQLite3

Pre-requisite: You will need wget, tar, gzip, gcc, make, and expect to get the upgrade process working.

yum -y install wget tar gzip gcc make expect

Download source from https://sqlite.org/, make and install locally.

wget https://www.sqlite.org/src/tarball/sqlite.tar.gz
tar xzf sqlite.tar.gz
cd sqlite/
export CFLAGS="-DSQLITE_ENABLE_FTS3 \
    -DSQLITE_ENABLE_FTS3_PARENTHESIS \
    -DSQLITE_ENABLE_FTS4 \
    -DSQLITE_ENABLE_FTS5 \
    -DSQLITE_ENABLE_JSON1 \
    -DSQLITE_ENABLE_LOAD_EXTENSION \
    -DSQLITE_ENABLE_RTREE \
    -DSQLITE_ENABLE_STAT4 \
    -DSQLITE_ENABLE_UPDATE_DELETE_LIMIT \
    -DSQLITE_SOUNDEX \
    -DSQLITE_TEMP_STORE=3 \
    -DSQLITE_USE_URI \
    -O2 \
    -fPIC"
export PREFIX="/usr/local"
LIBS="-lm" ./configure --disable-tcl --enable-shared --enable-tempstore=always --prefix="$PREFIX"
make
make install

Post install add /usr/local/lib to library path

export LD_LIBRARY_PATH=/usr/local/lib:$LD_LIBRARY_PATH

Setting up a PostgreSQL Database

You need to create a database and a database user that Airflow will use to access this database. In the example below, a database airflow_db and user with username airflow_user with password airflow_pass will be created

CREATE DATABASE airflow_db;
CREATE USER airflow_user WITH PASSWORD 'airflow_pass';
GRANT ALL PRIVILEGES ON DATABASE airflow_db TO airflow_user;
-- PostgreSQL 15 requires additional privileges:
GRANT ALL ON SCHEMA public TO airflow_user;

Note

The database must use a UTF-8 character set

You may need to update your Postgres pg_hba.conf to add the airflow user to the database access control list; and to reload the database configuration to load your change. See The pg_hba.conf File in the Postgres documentation to learn more.

Warning

When you use SQLAlchemy 1.4.0+, you need to use postgresql:// as the database in the sql_alchemy_conn. In the previous versions of SQLAlchemy it was possible to use postgres://, but using it in SQLAlchemy 1.4.0+ results in:

>       raise exc.NoSuchModuleError(
            "Can't load plugin: %s:%s" % (self.group, name)
        )
E       sqlalchemy.exc.NoSuchModuleError: Can't load plugin: sqlalchemy.dialects:postgres

If you cannot change the prefix of your URL immediately, Airflow continues to work with SQLAlchemy 1.3 and you can downgrade SQLAlchemy, but we recommend to update the prefix.

Details in the SQLAlchemy Changelog.

We recommend using the psycopg2 driver and specifying it in your SqlAlchemy connection string.

postgresql+psycopg2://<user>:<password>@<host>/<db>

Also note that since SqlAlchemy does not expose a way to target a specific schema in the database URI, you need to ensure schema public is in your Postgres user’s search_path.

If you created a new Postgres account for Airflow:

  • The default search_path for new Postgres user is: "$user", public, no change is needed.

If you use a current Postgres user with custom search_path, search_path can be changed by the command:

ALTER USER airflow_user SET search_path = public;

For more information regarding setup of the PostgreSQL connection, see PostgreSQL dialect in SQLAlchemy documentation.

Note

Airflow is known - especially in high-performance setup - to open many connections to metadata database. This might cause problems for Postgres resource usage, because in Postgres, each connection creates a new process and it makes Postgres resource-hungry when a lot of connections are opened. Therefore we recommend to use PGBouncer as database proxy for all Postgres production installations. PGBouncer can handle connection pooling from multiple components, but also in case you have remote database with potentially unstable connectivity, it will make your DB connectivity much more resilient to temporary network problems. Example implementation of PGBouncer deployment can be found in the Helm Chart for Apache Airflow where you can enable pre-configured PGBouncer instance with flipping a boolean flag. You can take a look at the approach we have taken there and use it as an inspiration, when you prepare your own Deployment, even if you do not use the Official Helm Chart.

See also Helm Chart production guide

Note

For managed Postgres such as Azure Postgresql, CloudSQL, Amazon RDS, you should use keepalives_idle in the connection parameters and set it to less than the idle time because those services will close idle connections after some time of inactivity (typically 300 seconds), which results with error The error: psycopg2.operationalerror: SSL SYSCALL error: EOF detected. The keepalive settings can be changed via sql_alchemy_connect_args configuration parameter Configuration Reference in [database] section. You can configure the args for example in your local_settings.py and the sql_alchemy_connect_args should be a full import path to the dictionary that stores the configuration parameters. You can read about Postgres Keepalives. An example setup for keepalives that has been observed to fix the problem might be:

keepalive_kwargs = {
    "keepalives": 1,
    "keepalives_idle": 30,
    "keepalives_interval": 5,
    "keepalives_count": 5,
}

Then, if it were placed in airflow_local_settings.py, the config import path would be:

sql_alchemy_connect_args = airflow_local_settings.keepalive_kwargs

See Configuring local settings for details on how to configure local settings.

Setting up a MySQL Database

You need to create a database and a database user that Airflow will use to access this database. In the example below, a database airflow_db and user with username airflow_user with password airflow_pass will be created

CREATE DATABASE airflow_db CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE USER 'airflow_user' IDENTIFIED BY 'airflow_pass';
GRANT ALL PRIVILEGES ON airflow_db.* TO 'airflow_user';

Note

The database must use a UTF-8 character set. A small caveat that you must be aware of is that utf8 in newer versions of MySQL is really utf8mb4 which causes Airflow indexes to grow too large (see https://github.com/apache/airflow/pull/17603#issuecomment-901121618). Therefore as of Airflow 2.2 all MySQL databases have sql_engine_collation_for_ids set automatically to utf8mb3_bin (unless you override it). This might lead to a mixture of collation ids for id fields in Airflow Database, but it has no negative consequences since all relevant IDs in Airflow use ASCII characters only.

We rely on more strict ANSI SQL settings for MySQL in order to have sane defaults. Make sure to have specified explicit_defaults_for_timestamp=1 option under [mysqld] section in your my.cnf file. You can also activate these options with the --explicit-defaults-for-timestamp switch passed to mysqld executable

We recommend using the mysqlclient driver and specifying it in your SqlAlchemy connection string.

mysql+mysqldb://<user>:<password>@<host>[:<port>]/<dbname>

Important

The integration of MySQL backend has only been validated using the mysqlclient driver during Apache Airflow’s continuous integration (CI) process.

If you want to use other drivers visit the MySQL Dialect in SQLAlchemy documentation for more information regarding download and setup of the SqlAlchemy connection.

In addition, you also should pay particular attention to MySQL’s encoding. Although the utf8mb4 character set is more and more popular for MySQL (actually, utf8mb4 becomes default character set in MySQL8.0), using the utf8mb4 encoding requires additional setting in Airflow 2+ (See more details in #7570.). If you use utf8mb4 as character set, you should also set sql_engine_collation_for_ids=utf8mb3_bin.

Note

In strict mode, MySQL doesn’t allow 0000-00-00 as a valid date. Then you might get errors like "Invalid default value for 'end_date'" in some cases (some Airflow tables use 0000-00-00 00:00:00 as timestamp field default value). To avoid this error, you could disable NO_ZERO_DATE mode on you MySQL server. Read https://stackoverflow.com/questions/9192027/invalid-default-value-for-create-date-timestamp-field for how to disable it. See SQL Mode - NO_ZERO_DATE for more information.

MsSQL Database

Warning

After discussion and a voting process, the Airflow’s PMC and Committers have reached a resolution to no longer maintain MsSQL as a supported Database Backend.

As of Airflow 2.9.0 support of MsSQL has been removed for Airflow Database Backend. This does not affect the existing provider packages (operators and hooks), DAGs can still access and process data from MsSQL.

Migrating off MsSQL Server

As with Airflow 2.9.0 the support of MSSQL has ended, a migration script can help with Airflow version 2.7.x or 2.8.x to migrate off SQL-Server. The migration script is available in airflow-mssql-migration repo on Github.

Note that the migration script is provided without support and warranty.

Other configuration options

There are more configuration options for configuring SQLAlchemy behavior. For details, see reference documentation for sqlalchemy_* option in [database] section.

For instance, you can specify a database schema where Airflow will create its required tables. If you want Airflow to install its tables in the airflow schema of a PostgreSQL database, specify these environment variables:

export AIRFLOW__DATABASE__SQL_ALCHEMY_CONN="postgresql://postgres@localhost:5432/my_database?options=-csearch_path%3Dairflow"
export AIRFLOW__DATABASE__SQL_ALCHEMY_SCHEMA="airflow"

Note the search_path at the end of the SQL_ALCHEMY_CONN database URL.

Initialize the database

After configuring the database and connecting to it in Airflow configuration, you should create the database schema.

airflow db migrate

Database Monitoring and Maintenance in Airflow

Airflow extensively utilizes a relational metadata database for task scheduling and execution. Monitoring and proper configuration of this database are crucial for optimal Airflow performance.

Key Concerns

  1. Performance Impact: Long or excessive queries can significantly affect Airflow’s functionality. These may arise due to workflow specifics, lack of optimizations, or code bugs.

  2. Database Statistics: Incorrect optimization decisions by the database engine, often due to outdated data statistics, can degrade performance.

Responsibilities

The responsibilities for database monitoring and maintenance in Airflow environments vary depending on whether you’re using self-managed databases and Airflow instances or opting for managed services.

Self-Managed Environments:

In the setups where both the database and Airflow are self-managed, the Deployment Manager is responsible for setting up, configuring, and maintaining the database. This includes monitoring its performance, managing backups, periodic cleanups and ensuring its optimal operation with Airflow.

Managed Services:

  • Managed Database Services: When using managed DB services, many maintenance tasks (like backups, patching, and basic monitoring) are handled by the provider. However, the Deployment Manager still needs to oversee the configuration of Airflow and optimize performance settings specific to their workflows, manages periodic cleanups and monitor their DB to ensure optimal operations with Airflow.

  • Managed Airflow Services: With managed Airflow services, those service provider take responsibility for the configuration and maintenance of Airflow and its database. However, the Deployment Manager needs to collaborate with the service configuration to ensure that the sizing and workflow requirements are matching the sizing and configuration of the managed service.

Monitoring Aspects

Regular monitoring should include:

  • CPU, I/O, and memory usage.

  • Query frequency and number.

  • Identification and logging of slow or long-running queries.

  • Detection of inefficient query execution plans.

  • Analysis of disk swap versus memory usage and cache swapping frequency.

Tools and Strategies

  • Airflow doesn’t provide direct tooling for database monitoring.

  • Use server-side monitoring and logging to obtain metrics.

  • Enable tracking of long-running queries based on defined thresholds.

  • Regularly run house-keeping tasks (like ANALYZE SQL command) for maintenance.

Database Cleaning Tools

  • Airflow DB Clean Command: Utilize the airflow db clean command to help manage and clean up your database.

  • Python Methods in ``airflow.utils.db_cleanup``: This module provides additional Python methods for database cleanup and maintenance, offering more fine-grained control and customization for specific needs.

Recommendations

  • Proactive Monitoring: Implement monitoring and logging in production without significantly impacting performance.

  • Database-Specific Guidance: Consult the chosen database’s documentation for specific monitoring setup instructions.

  • Managed Database Services: Check if automatic maintenance tasks are available with your database provider.

SQLAlchemy Logging

For detailed query analysis, enable SQLAlchemy client logging (echo=True in SQLAlchemy engine configuration).

  • This method is more intrusive and can affect Airflow’s client-side performance.

  • It generates a lot of logs, especially in a busy Airflow environment.

  • Suitable for non-production environments like staging systems.

You can do it with echo=True as sqlalchemy engine configuration as explained in the SQLAlchemy logging documentation.

Use sql_alchemy_engine_args configuration parameter to set echo arg to True.

Caution

  • Be mindful of the impact on Airflow’s performance and system resources when enabling extensive logging.

  • Prefer server-side monitoring over client-side logging for production environments to minimize performance interference.

What’s next?

By default, Airflow uses SequentialExecutor, which does not provide parallelism. You should consider configuring a different executor for better performance.

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