# Bitnami package for Apache Airflow ## What is Apache Airflow? > Apache Airflow is a tool to express and execute workflows as directed acyclic graphs (DAGs). It includes utilities to schedule tasks, monitor task progress and handle task dependencies. [Overview of Apache Airflow](https://airflow.apache.org/) Trademarks: This software listing is packaged by Bitnami. The respective trademarks mentioned in the offering are owned by the respective companies, and use of them does not imply any affiliation or endorsement. ## TL;DR ```console docker run --name airflow bitnami/airflow:latest ``` **Warning**: This quick setup is only intended for development environments. You are encouraged to change the insecure default credentials and check out the available configuration options in the [Environment Variables](#environment-variables) section for a more secure d eployment. ## Why use Bitnami Images? * Bitnami closely tracks upstream source changes and promptly publishes new versions of this image using our automated systems. * With Bitnami images the latest bug fixes and features are available as soon as possible. * Bitnami containers, virtual machines and cloud images use the same components and configuration approach - making it easy to switch between formats based on your project needs. * All our images are based on [**minideb**](https://github.com/bitnami/minideb) -a minimalist Debian based container image that gives you a small base container image and the familiarity of a leading Linux distribution- or **scratch** -an explicitly empty image-. * All Bitnami images available in Docker Hub are signed with [Notation](https://notaryproject.dev/). [Check this post](https://blog.bitnami.com/2024/03/bitnami-packaged-containers-and-helm.html) to know how to verify the integrity of the images. * Bitnami container images are released on a regular basis with the latest distribution packages available. Looking to use Apache Airflow in production? Try [VMware Tanzu Application Catalog](https://bitnami.com/enterprise), the commercial edition of the Bitnami catalog. ## Only the latest stable branch maintained in the free Bitnami catalog Starting December 10th, 2024, only the latest stable branch of each container image will receive updates in the free Bitnami catalog. To access up-to-date releases for all upstream-supported branches (e.g., LTS), consider upgrading to Bitnami Premium. Previously released versions will not be deleted and will remain available for pulling from DockerHub. Please check the Bitnami Premium page in our partner [Arrow Electronics](https://www.arrow.com/globalecs/na/vendors/bitnami?utm_source=GitHub&utm_medium=containers) for more information. ## Supported tags and respective `Dockerfile` links Learn more about the Bitnami tagging policy and the difference between rolling tags and immutable tags [in our documentation page](https://techdocs.broadcom.com/us/en/vmware-tanzu/application-catalog/tanzu-application-catalog/services/tac-doc/apps-tutorials-understand-rolling-tags-containers-index.html). You can see the equivalence between the different tags by taking a look at the `tags-info.yaml` file present in the branch folder, i.e `bitnami/ASSET/BRANCH/DISTRO/tags-info.yaml`. Subscribe to project updates by watching the [bitnami/containers GitHub repo](https://github.com/bitnami/containers). ## Prerequisites To run this application you need [Docker Engine](https://www.docker.com/products/docker-engine) >= `1.10.0`. [Docker Compose](https://docs.docker.com/compose/) is recommended with a version `1.6.0` or later. ## How to use this image Airflow requires access to a PostgreSQL database to store information. We will use our very own [PostgreSQL image](https://github.com/bitnami/containers/tree/main/bitnami/postgresql) for the database requirements. Additionally, if you pretend to use the `CeleryExecutor`, you will also need a [Redis(R) server](https://github.com/bitnami/containers/tree/main/bitnami/redis). ### Using the Docker Command Line 1. Create a network ```console docker network create airflow-tier ``` 2. Create a volume for PostgreSQL persistence and create a PostgreSQL container ```console docker volume create --name postgresql_data docker run -d --name postgresql \ -e POSTGRESQL_USERNAME=bn_airflow \ -e POSTGRESQL_PASSWORD=bitnami1 \ -e POSTGRESQL_DATABASE=bitnami_airflow \ --net airflow-tier \ --volume postgresql_data:/bitnami/postgresql \ bitnami/postgresql:latest ``` 3. Create a volume for Redis(R) persistence and create a Redis(R) container ```console docker volume create --name redis_data docker run -d --name redis \ -e ALLOW_EMPTY_PASSWORD=yes \ --net airflow-tier \ --volume redis_data:/bitnami \ bitnami/redis:latest ``` 4. Launch the Apache Airflow web container ```console docker run -d --name airflow -p 8080:8080 \ -e AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= \ -e AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= \ -e AIRFLOW_EXECUTOR=CeleryExecutor \ -e AIRFLOW_DATABASE_NAME=bitnami_airflow \ -e AIRFLOW_DATABASE_USERNAME=bn_airflow \ -e AIRFLOW_DATABASE_PASSWORD=bitnami1 \ -e AIRFLOW_LOAD_EXAMPLES=yes \ -e AIRFLOW_PASSWORD=bitnami123 \ -e AIRFLOW_USERNAME=user \ -e AIRFLOW_EMAIL=user@example.com \ --net airflow-tier \ bitnami/airflow:latest ``` 5. Launch the Apache Airflow scheduler container ```console docker run -d --name airflow-scheduler \ -e AIRFLOW_COMPONENT_TYPE=scheduler \ -e AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= \ -e AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= \ -e AIRFLOW_EXECUTOR=CeleryExecutor \ -e AIRFLOW_DATABASE_NAME=bitnami_airflow \ -e AIRFLOW_DATABASE_USERNAME=bn_airflow \ -e AIRFLOW_DATABASE_PASSWORD=bitnami1 \ -e AIRFLOW_LOAD_EXAMPLES=yes \ -e AIRFLOW_WEBSERVER_HOST=airflow \ --net airflow-tier \ bitnami/airflow:latest ``` 6. Launch the Apache Airflow worker container ```console docker run -d --name airflow-worker \ -e AIRFLOW_COMPONENT_TYPE=worker \ -e AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= \ -e AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= \ -e AIRFLOW_EXECUTOR=CeleryExecutor \ -e AIRFLOW_DATABASE_NAME=bitnami_airflow \ -e AIRFLOW_DATABASE_USERNAME=bn_airflow \ -e AIRFLOW_DATABASE_PASSWORD=bitnami1 \ -e AIRFLOW_WEBSERVER_HOST=airflow \ --net airflow-tier \ bitnami/airflow:latest ``` Access your application at `http://your-ip:8080` ### Using `docker-compose.yaml` ```console curl -LO https://raw.githubusercontent.com/bitnami/containers/main/bitnami/airflow/docker-compose.yml docker-compose up ``` Please be aware this file has not undergone internal testing. Consequently, we advise its use exclusively for development or testing purposes. For production-ready deployments, we highly recommend utilizing its associated [Bitnami Helm chart](https://github.com/bitnami/charts/tree/main/bitnami/airflow). If you detect any issue in the `docker-compose.yaml` file, feel free to report it or contribute with a fix by following our [Contributing Guidelines](https://github.com/bitnami/containers/blob/main/CONTRIBUTING.md). ### Persisting your application The Bitnami Airflow container relies on the PostgreSQL database & Redis to persist the data. This means that Airflow does not persist anything. To avoid loss of data, you should mount volumes for persistence of [PostgreSQL data](https://github.com/bitnami/containers/blob/main/bitnami/mariadb#persisting-your-database) and [Redis(R) data](https://github.com/bitnami/containers/blob/main/bitnami/redis#persisting-your-database) The above examples define docker volumes namely `postgresql_data`, and `redis_data`. The Airflow application state will persist as long as these volumes are not removed. To avoid inadvertent removal of these volumes you can [mount host directories as data volumes](https://docs.docker.com/engine/tutorials/dockervolumes/). Alternatively you can make use of volume plugins to host the volume data. #### Mount host directories as data volumes with Docker Compose The following `docker-compose.yml` template demonstrates the use of host directories as data volumes. ```yaml version: '2' services: postgresql: image: 'bitnami/postgresql:latest' environment: - POSTGRESQL_DATABASE=bitnami_airflow - POSTGRESQL_USERNAME=bn_airflow - POSTGRESQL_PASSWORD=bitnami1 volumes: - /path/to/postgresql-persistence:/bitnami/postgresql redis: image: 'bitnami/redis:latest' environment: - ALLOW_EMPTY_PASSWORD=yes volumes: - /path/to/redis-persistence:/bitnami airflow-worker: image: bitnami/airflow:latest environment: - AIRFLOW_COMPONENT_TYPE=worker - AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= - AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= - AIRFLOW_EXECUTOR=CeleryExecutor - AIRFLOW_DATABASE_NAME=bitnami_airflow - AIRFLOW_DATABASE_USERNAME=bn_airflow - AIRFLOW_DATABASE_PASSWORD=bitnami1 - AIRFLOW_LOAD_EXAMPLES=yes airflow-scheduler: image: bitnami/airflow:latest environment: - AIRFLOW_COMPONENT_TYPE=scheduler - AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= - AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= - AIRFLOW_EXECUTOR=CeleryExecutor - AIRFLOW_DATABASE_NAME=bitnami_airflow - AIRFLOW_DATABASE_USERNAME=bn_airflow - AIRFLOW_DATABASE_PASSWORD=bitnami1 - AIRFLOW_LOAD_EXAMPLES=yes airflow: image: bitnami/airflow:latest environment: - AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= - AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= - AIRFLOW_EXECUTOR=CeleryExecutor - AIRFLOW_DATABASE_NAME=bitnami_airflow - AIRFLOW_DATABASE_USERNAME=bn_airflow - AIRFLOW_DATABASE_PASSWORD=bitnami1 - AIRFLOW_PASSWORD=bitnami123 - AIRFLOW_USERNAME=user - AIRFLOW_EMAIL=user@example.com ports: - '8080:8080' ``` #### Mount host directories as data volumes using the Docker command line 1. Create a network (if it does not exist) ```console docker network create airflow-tier ``` 2. Create the PostgreSQL container with host volumes ```console docker run -d --name postgresql \ -e POSTGRESQL_USERNAME=bn_airflow \ -e POSTGRESQL_PASSWORD=bitnami1 \ -e POSTGRESQL_DATABASE=bitnami_airflow \ --net airflow-tier \ --volume /path/to/postgresql-persistence:/bitnami \ bitnami/postgresql:latest ``` 3. Create the Redis(R) container with host volumes ```console docker run -d --name redis \ -e ALLOW_EMPTY_PASSWORD=yes \ --net airflow-tier \ --volume /path/to/redis-persistence:/bitnami \ bitnami/redis:latest ``` 4. Create the Airflow container ```console docker run -d --name airflow -p 8080:8080 \ -e AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= \ -e AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= \ -e AIRFLOW_EXECUTOR=CeleryExecutor \ -e AIRFLOW_DATABASE_NAME=bitnami_airflow \ -e AIRFLOW_DATABASE_USERNAME=bn_airflow \ -e AIRFLOW_DATABASE_PASSWORD=bitnami1 \ -e AIRFLOW_LOAD_EXAMPLES=yes \ -e AIRFLOW_PASSWORD=bitnami123 \ -e AIRFLOW_USERNAME=user \ -e AIRFLOW_EMAIL=user@example.com \ --net airflow-tier \ bitnami/airflow:latest ``` 5. Create the Airflow Scheduler container ```console docker run -d --name airflow-scheduler \ -e AIRFLOW_COMPONENT_TYPE=scheduler \ -e AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= \ -e AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= \ -e AIRFLOW_EXECUTOR=CeleryExecutor \ -e AIRFLOW_DATABASE_NAME=bitnami_airflow \ -e AIRFLOW_DATABASE_USERNAME=bn_airflow \ -e AIRFLOW_DATABASE_PASSWORD=bitnami1 \ -e AIRFLOW_LOAD_EXAMPLES=yes \ -e AIRFLOW_WEBSERVER_HOST=airflow \ --net airflow-tier \ bitnami/airflow:latest ``` 6. Create the Airflow Worker container ```console docker run -d --name airflow-worker \ -e AIRFLOW_COMPONENT_TYPE=worker \ -e AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= \ -e AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= \ -e AIRFLOW_EXECUTOR=CeleryExecutor \ -e AIRFLOW_DATABASE_NAME=bitnami_airflow \ -e AIRFLOW_DATABASE_USERNAME=bn_airflow \ -e AIRFLOW_DATABASE_PASSWORD=bitnami1 \ -e AIRFLOW_WEBSERVER_HOST=airflow \ --net airflow-tier \ bitnami/airflow:latest ``` ## Configuration ### Load DAG files Custom DAG files can be mounted to `/opt/bitnami/airflow/dags`. ### Installing additional python modules This container supports the installation of additional python modules at start-up time. In order to do that, you can mount a `requirements.txt` file with your specific needs under the path `/bitnami/python/requirements.txt`. ### Environment variables #### Customizable environment variables | Name | Description | Default Value | |------------------------------------------|---------------------------------------------------------------------------------------------------------------------------------------------|---------------------------------| | `AIRFLOW_USERNAME` | Airflow username | `user` | | `AIRFLOW_PASSWORD` | Airflow password | `bitnami` | | `AIRFLOW_FIRSTNAME` | Airflow firstname | `Firstname` | | `AIRFLOW_LASTNAME` | Airflow lastname | `Lastname` | | `AIRFLOW_EMAIL` | Airflow email | `user@example.com` | | `AIRFLOW_COMPONENT_TYPE` | Airflow component type. Allowed values: *api-server*, *scheduler*, *dag-processor*, *triggerer*, *webserver* (2.x versions only), *worker*. | `api-server` | | `AIRFLOW_EXECUTOR` | Airflow executor. | `SequentialExecutor` | | `AIRFLOW_RAW_FERNET_KEY` | Airflow raw/unencoded Fernet key | `nil` | | `AIRFLOW_FORCE_OVERWRITE_CONF_FILE` | Force the airflow.cfg config file generation. | `no` | | `AIRFLOW_FERNET_KEY` | Airflow Fernet key | `nil` | | `AIRFLOW_WEBSERVER_SECRET_KEY` | Airflow webserver secret key | `airflow-web-server-key` | | `AIRFLOW_APISERVER_SECRET_KEY` | Airflow API secret key | `airflow-api-server-key` | | `AIRFLOW_APISERVER_BASE_URL` | Airflow API server base URL. | `nil` | | `AIRFLOW_APISERVER_HOST` | Airflow API server host | `127.0.0.1` | | `AIRFLOW_APISERVER_PORT_NUMBER` | Airflow API server port. | `8080` | | `AIRFLOW_LOAD_EXAMPLES` | To load example tasks into the application. | `yes` | | `AIRFLOW_HOSTNAME_CALLABLE` | Method to obtain the hostname. | `nil` | | `AIRFLOW_POOL_NAME` | Pool name. | `nil` | | `AIRFLOW_POOL_SIZE` | Pool size, required with AIRFLOW_POOL_NAME. | `nil` | | `AIRFLOW_POOL_DESC` | Pool description, required with AIRFLOW_POOL_NAME. | `nil` | | `AIRFLOW_STANDALONE_DAG_PROCESSOR` | Enable running Dag Processor in standalone mode | `no` | | `AIRFLOW_TRIGGERER_DEFAULT_CAPACITY` | How many triggers a single Triggerer can run at once. | `1000` | | `AIRFLOW_WORKER_QUEUE` | A queue for the worker to pull tasks from. | `nil` | | `AIRFLOW_SKIP_DB_SETUP` | Skip db init / db migrate actions during the setup | `no` | | `PYTHONPYCACHEPREFIX` | Configure Python .pyc files cache prefix | `/opt/bitnami/airflow/venv/tmp` | | `AIRFLOW_DB_MIGRATE_TIMEOUT` | How much time to wait for database migrations | `120` | | `AIRFLOW_ENABLE_HTTPS` | Whether to enable HTTPS for Airflow by default. | `no` | | `AIRFLOW_EXTERNAL_APISERVER_PORT_NUMBER` | External HTTP/HTTPS port for Airflow. | `80` | | `AIRFLOW_DATABASE_HOST` | Hostname for PostgreSQL server. | `postgresql` | | `AIRFLOW_DATABASE_PORT_NUMBER` | Port used by PostgreSQL server. | `5432` | | `AIRFLOW_DATABASE_NAME` | Database name that Airflow will use to connect with the database. | `bitnami_airflow` | | `AIRFLOW_DATABASE_USERNAME` | Database user that Airflow will use to connect with the database. | `bn_airflow` | | `AIRFLOW_DATABASE_PASSWORD` | Database password that Airflow will use to connect with the database. | `nil` | | `AIRFLOW_DATABASE_USE_SSL` | Set to yes if the database is using SSL. | `no` | | `AIRFLOW_REDIS_USE_SSL` | Set to yes if Redis(R) uses SSL. | `no` | | `REDIS_HOST` | Hostname for Redis(R) server. | `redis` | | `REDIS_PORT_NUMBER` | Port used by Redis(R) server. | `6379` | | `REDIS_USER` | User that Airflow will use to connect with Redis(R). | `nil` | | `REDIS_PASSWORD` | Password that Airflow will use to connect with Redis(R). | `nil` | | `REDIS_DATABASE` | Name of the Redis(R) database. | `1` | | `AIRFLOW_LDAP_ENABLE` | Enable LDAP authentication. | `no` | | `AIRFLOW_LDAP_URI` | LDAP server URI. | `nil` | | `AIRFLOW_LDAP_SEARCH` | LDAP search base. | `nil` | | `AIRFLOW_LDAP_UID_FIELD` | LDAP field used for uid. | `nil` | | `AIRFLOW_LDAP_BIND_USER` | LDAP user name. | `nil` | | `AIRFLOW_LDAP_BIND_PASSWORD` | LDAP user password. | `nil` | | `AIRFLOW_LDAP_USER_REGISTRATION` | User self registration. | `True` | | `AIRFLOW_LDAP_USER_REGISTRATION_ROLE` | Role name to be assign when a user registers himself. | `nil` | | `AIRFLOW_LDAP_ROLES_MAPPING` | Mapping from LDAP DN to a list of Airflow roles. | `nil` | | `AIRFLOW_LDAP_ROLES_SYNC_AT_LOGIN` | Replace ALL the user roles each login, or only on registration. | `True` | | `AIRFLOW_LDAP_USE_TLS` | Use LDAP SSL. | `False` | | `AIRFLOW_LDAP_ALLOW_SELF_SIGNED` | Allow self signed certicates in LDAP ssl. | `True` | | `AIRFLOW_LDAP_TLS_CA_CERTIFICATE` | File that store the CA for LDAP ssl. | `nil` | #### Read-only environment variables | Name | Description | Value | |-------------------------------|-------------------------------------------|-------------------------------------------| | `AIRFLOW_BASE_DIR` | Airflow home/installation directory. | `${BITNAMI_ROOT_DIR}/airflow` | | `AIRFLOW_BIN_DIR` | Airflow directory for binary executables. | `${AIRFLOW_BASE_DIR}/venv/bin` | | `AIRFLOW_LOGS_DIR` | Airflow logs directory. | `${AIRFLOW_BASE_DIR}/logs` | | `AIRFLOW_SCHEDULER_LOGS_DIR` | Airflow scheduler logs directory. | `${AIRFLOW_LOGS_DIR}/scheduler` | | `AIRFLOW_CONF_FILE` | Airflow configuration file. | `${AIRFLOW_BASE_DIR}/airflow.cfg` | | `AIRFLOW_WEBSERVER_CONF_FILE` | Airflow Webserver configuration file. | `${AIRFLOW_BASE_DIR}/webserver_config.py` | | `AIRFLOW_TMP_DIR` | Airflow directory temporary files. | `${AIRFLOW_BASE_DIR}/tmp` | | `AIRFLOW_DAGS_DIR` | Airflow data to be persisted. | `${AIRFLOW_BASE_DIR}/dags` | | `AIRFLOW_DAEMON_USER` | Airflow system user. | `airflow` | | `AIRFLOW_DAEMON_GROUP` | Airflow system group. | `airflow` | > In addition to the previous environment variables, all the parameters from the configuration file can be overwritten by using environment variables with this format: `AIRFLOW__{SECTION}__{KEY}`. Note the double underscores. #### Specifying Environment variables using Docker Compose ```yaml version: '2' services: airflow: image: bitnami/airflow:latest environment: - AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= - AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= - AIRFLOW_EXECUTOR=CeleryExecutor - AIRFLOW_DATABASE_NAME=bitnami_airflow - AIRFLOW_DATABASE_USERNAME=bn_airflow - AIRFLOW_DATABASE_PASSWORD=bitnami1 - AIRFLOW_PASSWORD=bitnami123 - AIRFLOW_USERNAME=user - AIRFLOW_EMAIL=user@example.com ``` #### Specifying Environment variables on the Docker command line ```console docker run -d --name airflow -p 8080:8080 \ -e AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= \ -e AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= \ -e AIRFLOW_EXECUTOR=CeleryExecutor \ -e AIRFLOW_DATABASE_NAME=bitnami_airflow \ -e AIRFLOW_DATABASE_USERNAME=bn_airflow \ -e AIRFLOW_DATABASE_PASSWORD=bitnami1 \ -e AIRFLOW_PASSWORD=bitnami123 \ -e AIRFLOW_USERNAME=user \ -e AIRFLOW_EMAIL=user@example.com \ bitnami/airflow:latest ``` #### SMTP Configuration To configure Airflow to send email using SMTP you can set the following environment variables: * `AIRFLOW__SMTP__SMTP_HOST`: Host for outgoing SMTP email. Default: **localhost** * `AIRFLOW__SMTP__SMTP_PORT`: Port for outgoing SMTP email. Default: **25** * `AIRFLOW__SMTP__SMTP_STARTTLS`: To use TLS communication. Default: **True** * `AIRFLOW__SMTP__SMTP_SSL`: To use SSL communication. Default: **False** * `AIRFLOW__SMTP__SMTP_USER`: User of SMTP used for authentication (likely email). No defaults. * `AIRFLOW__SMTP__SMTP_PASSWORD`: Password for SMTP. No defaults. * `AIRFLOW__SMTP__SMTP_MAIL_FROM`: To modify the "from email address". Default: **** This would be an example of SMTP configuration using a GMail account: * docker-compose (application part): ```yaml airflow: image: bitnami/airflow:latest environment: - AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= - AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= - AIRFLOW_EXECUTOR=CeleryExecutor - AIRFLOW_DATABASE_NAME=bitnami_airflow - AIRFLOW_DATABASE_USERNAME=bn_airflow - AIRFLOW_DATABASE_PASSWORD=bitnami1 - AIRFLOW_PASSWORD=bitnami - AIRFLOW_USERNAME=user - AIRFLOW_EMAIL=user@email.com - AIRFLOW__SMTP__SMTP_HOST=smtp@gmail.com - AIRFLOW__SMTP__SMTP_USER=your_email@gmail.com - AIRFLOW__SMTP__SMTP_PASSWORD=your_password - AIRFLOW__SMTP__SMTP_PORT=587 ports: - '8080:8080' ``` * For manual execution: ```console docker run -d --name airflow -p 8080:8080 \ -e AIRFLOW_FERNET_KEY=46BKJoQYlPPOexq0OhDZnIlNepKFf87WFwLbfzqDDho= \ -e AIRFLOW_SECRET_KEY=a25mQ1FHTUh3MnFRSk5KMEIyVVU2YmN0VGRyYTVXY08= \ -e AIRFLOW_EXECUTOR=CeleryExecutor \ -e AIRFLOW_DATABASE_NAME=bitnami_airflow \ -e AIRFLOW_DATABASE_USERNAME=bn_airflow \ -e AIRFLOW_DATABASE_PASSWORD=bitnami1 \ -e AIRFLOW_PASSWORD=bitnami123 \ -e AIRFLOW_USERNAME=user \ -e AIRFLOW_EMAIL=user@example.com \ -e AIRFLOW__SMTP__SMTP_HOST=smtp@gmail.com \ -e AIRFLOW__SMTP__SMTP_USER=your_email@gmail.com \ -e AIRFLOW__SMTP__SMTP_PASSWORD=your_password \ -e AIRFLOW__SMTP__SMTP_PORT=587 \ bitnami/airflow:latest ``` ## Notable Changes ### Starting October 30, 2024 * The Airflow container now supports running as a Web server, Scheduler or Worker component, so it's no longer necessary to combine this container image with `bitnami/airflow-scheduler` and `bitnami/airflow-worker` in order to use the `CeleryExecutor`. * The `AIRFLOW_COMPONENT_TYPE` environment variable was introduced to specify the component type. Current supported values are `webserver`, `scheduler` and `worker`, although it's planned to add soon support for `dag-processor` and `triggerer` components. The default value is `webserver`. ### 1.10.15-debian-10-r17 and 2.0.1-debian-10-r50 * The size of the container image has been decreased. * The configuration logic is now based on Bash scripts in the *rootfs/* folder. ## Contributing We'd love for you to contribute to this Docker image. You can request new features by creating an [issue](https://github.com/bitnami/containers/issues) or submitting a [pull request](https://github.com/bitnami/containers/pulls) with your contribution. ## Issues If you encountered a problem running this container, you can file an [issue](https://github.com/bitnami/containers/issues/new/choose). For us to provide better support, be sure to fill the issue template. ## License Copyright © 2025 Broadcom. The term "Broadcom" refers to Broadcom Inc. and/or its subsidiaries. Licensed 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 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.