Apache Airflow is a platform to programmatically author, schedule and monitor workflows.
This repository codifies the Airflow cluster that is deployed at workflow.telemetry.mozilla.org (behind SSO) and commonly referred to as "WTMO" or simply "Airflow".
Some links relevant to users and developers of WTMO:
- The
dags
directory in this repository contains some custom DAG definitions - Many of the DAGs registered with WTMO don't live in this repository, but are instead generated from ETL task definitions in bigquery-etl
- The Data SRE team maintains a WTMO Developer Guide (behind SSO)
This app is built and deployed with docker and docker-compose.
Add new Python dependencies into requirements.in
. Run the following commands with the same Python
version specified by the Dockerfile.
# As of time of writing, python3.7
pip install pip-tools
pip-compile
An Airflow container can be built with
make build
Airflow database migration is no longer a separate step for dev but is run by the web container if necessary on first run. That means, however, that you should run the web container (and the database container, of course) and wait for the database migrations to complete before running individual test commands per below. The easiest way to do this is to run make up
and let it run until the migrations complete.
A single task, e.g. spark
, of an Airflow dag, e.g. example
, can be run with an execution date, e.g. 2018-01-01
, in the dev
environment with:
make run COMMAND="test example spark 20180101"
docker logs -f telemetryairflow_scheduler_1
Tasks often require credentials to access external credentials. For example, one may choose to store API keys in an Airflow connection or variable. These variables are sure to exist in production but are often not mirrored locally for logistical reasons. Providing a dummy variable is the preferred way to keep the local development environment up to date.
In bin/run
, please update the init_connections
and init_variables
with appropriate strings to
prevent broken workflows. To test this, run bin/test-parse
to check for errors. You may manually
test this by restarting the orchestrated containers and checking for error messages within the main
administration UI at localhost:8000
.
Assuming you're using macOS and Docker for macOS, start the docker service, click the docker icon in the menu bar, click on preferences and change the available memory to 4GB.
To deploy the Airflow container on the docker engine, with its required dependencies, run:
make up
You can now connect to your local Airflow web console at
http://localhost:8000/
.
All DAGs are paused by default for local instances and our staging instance of Airflow. In order to submit a DAG via the UI, you'll need to toggle the DAG from "Off" to "On". You'll likely want to toggle the DAG back to "Off" as soon as your desired task starts running.
Users on Linux distributions will encounter permission issues with docker-compose
.
This is because the local application folder is mounted as a volume into the running container.
The Airflow user and group in the container is set to 10001
.
To work around this, replace all instances of 10001
in Dockerfile.dev
with the host user id.
sed -i "s/10001/$(id -u)/g" Dockerfile.dev
See https://go.corp.mozilla.com/wtmodev for more details.
make build && make up
make gke
When done:
make clean-gke
From there, connect to Airflow and enable your job.
Dataproc jobs run on a self-contained Dataproc cluster, created by Airflow.
To test these, jobs, you'll need a sandbox account and corresponding service account. For information on creating that, see "Testing GKE Jobs". Your service account will need Dataproc and GCS permissions (and BigQuery, if you're connecting to it). Note: Dataproc requires "Dataproc/Dataproc Worker" as well as Compute Admin permissions. You'll need to ensure that the Dataproc API is enabled in your sandbox project.
Ensure that your dataproc job has a configurable project to write to.
Set the project in the DAG entry to be configured based on development environment;
see the ltv.py
job for an example of that.
From there, run the following:
make build && make up
./bin/add_gcp_creds $GOOGLE_APPLICATION_CREDENTIALS google_cloud_airflow_dataproc
You can then connect to Airflow locally. Enable your DAG and see that it runs correctly.
Note: the canonical reference for production environment variables lives in a private repository.
When deploying to production make sure to set up the following environment variables:
AWS_ACCESS_KEY_ID
-- The AWS access key ID to spin up the Spark clustersAWS_SECRET_ACCESS_KEY
-- The AWS secret access keyAIRFLOW_DATABASE_URL
-- The connection URI for the Airflow database, e.g.mysql://username:password@hostname:port/database
AIRFLOW_BROKER_URL
-- The connection URI for the Airflow worker queue, e.g.redis://hostname:6379/0
AIRFLOW_BROKER_URL
-- The connection URI for the Airflow result backend, e.g.redis://hostname:6379/1
AIRFLOW_GOOGLE_CLIENT_ID
-- The Google Auth client id used for authentication.AIRFLOW_GOOGLE_CLIENT_SECRET
-- The Google Auth client secret used for authentication.AIRFLOW_GOOGLE_APPS_DOMAIN
-- The domain(s) to restrict Google Auth login to e.g.mozilla.com
AIRFLOW_SMTP_HOST
-- The SMTP server to use to send emails e.g.email-smtp.us-west-2.amazonaws.com
AIRFLOW_SMTP_USER
-- The SMTP user nameAIRFLOW_SMTP_PASSWORD
-- The SMTP passwordAIRFLOW_SMTP_FROM
-- The email address to send emails from e.g.telemetry-alerts@workflow.telemetry.mozilla.org
URL
-- The base URL of the website e.g.https://workflow.telemetry.mozilla.org
DEPLOY_ENVIRONMENT
-- The environment currently running, e.g.stage
orprod
Also, please set
AIRFLOW_SECRET_KEY
-- A secret key for Airflow's Flask based webserverAIRFLOW__CORE__FERNET_KEY
-- A secret key to saving connection passwords in the DB
Both values should be set by using the cryptography module's fernet tool that we've wrapped in a docker-compose call:
make secret
Run this for each key config variable, and don't use the same for both!
Some useful docker tricks for development and debugging:
# Stop all docker containers:
docker stop $(docker ps -aq)
# Remove any leftover docker volumes:
docker volume rm $(docker volume ls -qf dangling=true)
# Purge docker volumes (helps with mysql container failing to start)
# Careful as this will purge all local volumes not used by at least one container.
docker volume prune
Failing CircleCI 'test-environment' check:
# These commands are from the bin/test-parse script (get_errors_in_listing)
# If --detach is unavailable, make sure you are running the latest version of docker-compose
docker-compose up --detach
docker-compose logs --follow --tail 0 | sed -n '/\[testing_stage_0\]/q'
# Don't pipe to grep to see the full output including your errors
docker-compose exec web airflow list_dags
- Check if the task / run you want to re-run is visible in the DAG's Tree View UI
- For example, the
main_summary
DAG tree view. - Hover over the little squares to find the scheduled dag run you're looking for.
- For example, the
- If the dag run is not showing in the Dag Tree View UI (maybe deleted)
- Browse -> Dag Runs
- Create (you can look at another dag run of the same dag for example values too)
- Dag Id: the name of the dag, for example,
main_summary
- Execution Date: The date the dag should have run, for example,
2018-05-14 00:00:00
- Start Date: Some date between the execution date and "now", for example,
2018-05-20 00:00:05
- End Date: Leave it blank
- State: success
- Run Id:
scheduled__2018-05-14T00:00:00
- External Trigger: unchecked
- Dag Id: the name of the dag, for example,
- Click Save
- Click on the Graph view for the dag in question. From the main DAGs view, click the name of the DAG
- Select the "Run Id" you just entered from the drop-down list
- Click "Go"
- Click each element of the DAG and "Mark Success"
- The tasks should now show in the Tree View UI
- If the dag run is showing in the DAG's Tree View UI
- Click on the small square for the task you want to re-run
- Uncheck the "Downstream" toggle
- Click the "Clear" button
- Confirm that you want to clear it
- The task should be scheduled to run again straight away.
- SSH into the ECS container instance
- List docker containers using
docker ps
- Log in to one of the docker containers using
docker exec -it <container_id> bash
. The web server instance is a good choice. - Run the desired backfill command, something like
$ airflow backfill main_summary -s 2018-05-20 -e 2018-05-26
- Commits to forked repo PRs will trigger CircleCI builds that build the docker container and test python dag compilation. This should pass prior to merging.
- Every commit to main or tag will trigger a CircleCI build that will build and push the container to dockerhub