An airflow operator that executes a task in a kubernetes cluster, given a yaml configuration or an image url.
Contributions are welcome. See here.
- Running tasks as Kubernetes Jobs.
- Running tasks as Kubernetes Pods, with sidecar support (see metadata annotations).
- Running tasks as multi resource (see example below, similar to
kubectl apply
). - Running tasks as custom resources (help).
- Auto detection of kubernetes namespace and config.
- Pod and participating resources logs -> airflow.
- Full kubernetes error logs on failure.
- Integrated operator airflow config, see below.
- Integrated Jinja2 support for file templates with flag.
- XCom
- Log based events
- Tested and working on google cloud composer.
- Airflow > 2.0.0 (BETA)
- KubernetesJobOperator - Supply a kubernetes configuration (yaml file, yaml string or a list of python dictionaries) as the body of the task.
- KubernetesLegacyJobOperator - Defaults to a kubernetes job definition, and supports the same arguments as the KubernetesPodOperator. i.e. replace with the KubernetesPodOperator for legacy support.
To install using pip @ https://pypi.org/project/airflow-kubernetes-job-operator,
pip install airflow_kubernetes_job_operator
To install from master branch,
pip install git+https://github.com/LamaAni/KubernetesJobOperator.git@master
To install from a release (tag)
pip install git+https://github.com/LamaAni/KubernetesJobOperator.git@[tag]
from airflow import DAG
from airflow_kubernetes_job_operator.kubernetes_job_operator import KubernetesJobOperator
from airflow_kubernetes_job_operator.kubernetes_legacy_job_operator import KubernetesLegacyJobOperator
from airflow.utils.dates import days_ago
default_args = {"owner": "tester", "start_date": days_ago(2), "retries": 0}
dag = DAG("job-tester", default_args=default_args, description="Test base job operator", schedule_interval=None)
job_task = KubernetesJobOperator(
task_id="from-image",
dag=dag,
image="ubuntu",
command=["bash", "-c", 'echo "all ok"'],
)
body = {"kind": "Pod"} # The body or a yaml string (must be valid)
job_task_from_body = KubernetesJobOperator(dag=dag, task_id="from-body", body=body)
body_filepath = "./my_yaml_file.yaml" # Can be relative to this file, or abs path.
job_task_from_yaml = KubernetesJobOperator(dag=dag, task_id="from-yaml", body_filepath=body_filepath)
# Legacy compatibility to KubernetesPodOperator
legacy_job_task = KubernetesLegacyJobOperator(
task_id="legacy-image-job",
image="ubuntu",
cmds=["bash", "-c", 'echo "all ok"'],
dag=dag,
is_delete_operator_pod=True,
)
NOTE: that the success/failure of the task is tracked only on the first
resource, no matter of its kind. Currently native support exists for Pods and Jobs only, though you can always add a custom resource.
# First resource: this resource will be tracked by the operator. Other resources will not be tracked.
apiVersion: batch/v1
kind: Job
metadata:
name: test-job # not required. Will be a prefix to task name
finalizers:
- foregroundDeletion
spec:
template:
metadata:
labels:
app: test-task-pod
spec:
restartPolicy: Never
containers:
- name: job-executor
image: ubuntu
command:
- bash
- -c
- |
#/usr/bin/env bash
echo "OK"
backoffLimit: 0
---
apiVersion: v1
kind: Service
metadata:
name: test-service # not required, will be a prefex to task name.
spec:
selector:
app: test-task-pod
ports:
- port: 8080
targetPort: 8080
The operator auto augments the following fields on the first resource containers,
- envs are added to all pods
- special envs are added:
- KUBERNETES_JOB_OPERATOR_RESOURCES - A list of all resource names.
All other changes are made on the main container (the first container) of the first resource only.
Airflow config extra sections,
[kubernetes_job_operator]
# The task kube resources delete policy. Can be: Never, Always, IfFailed, IfSucceeded
delete_policy=IfSucceeded
# The default object type to execute with (legacy, or image). Can be: Pod, Job
default_execution_object=Job
# Logs
detect_kubernetes_log_level=True
show_kubernetes_timestamps=False
# Shows the runner id in the log (for all runner logs.)
show_runner_id=False
# Tasks (Defaults)
# Wait to first connect to kubernetes.
startup_timeout_seconds=120
# if true, will parse the body when building the dag. Otherwise only while executing.
validate_body_on_init=False
# Comma seperated list of where to look for the kube config file. Will be added to the top
# of the search list, in order.
kube_config_extra_locations=
To set these values through the environment follow airflow standards,
export AIRFLOW__[section]__[item] = value
Why would this be better than the KubernetesPodOperator?
The KubernetesJobOperator allows for more execution options thank the KubernetesPodOperator such as multiple resource execution, custom resource executions, creation event and pod log tracking, proper resource deletion after task is complete, on error and when task is cancelled and more.
Further, in the KubernetesPodOperator the monitoring between the worker pod and airflow is done by an internal loop which executes and consumes worker resources. In this operator, an async threaded approach was taken which reduces resource consumption on the worker. Further, since the logging and parsing of data is done outside of the main worker thread the worker is "free" do handle other tasks without interruption.
Finally, using the KubernetesJobOperator you are free to use other resources like the kubernetes Job to execute your tasks. These are better designed for use in kubernetes and are "up with the times".
argument | default value | description |
---|---|---|
command | None | A list of commands to be sent. i.e. ["echo","ok"] |
arguments | None | A list of arguments to be sent to the docker image. |
image | None | An image to use. (Overrides the main pod image) |
namespace | None | A namespace to use (Overrides/adds a namespace to main resource) |
envs | None | A dictionary of envs to add to the main job pod. |
body | None | The body of the job to use. Can be string, dictionary. |
body_filepath | None | A filepath to the yaml config file. Can use a relative filepath. |
image_pull_policy | Always | The kubernetes image pull policy (str) |
delete_policy | IfSucceeded | The resources delete policy. Can be one of: Always, Never, IfSucceeded, IfFailed (Str) |
in_cluster | None | Use in cluster creds. |
config_file | None | Use this kubernetes config file. |
get_logs | True | Retrive the executing pod logs (for all resources) |
cluster_context | The cluster context name to use. | |
startup_timeout_seconds | 10 | The max number of seconds to create the job before timeout is called |
validate_body_on_init | False | Can be set to true only if jinja is disabled. Process the yaml when the object is created. |
enable_jinja | True | Enable jinja on the body (str, or file), and the following args: command, arguments, image, envs, body, namespace, config_file, cluster_context |
jinja_job_args | None | A dictionary or object to be used in the jinja template to render arguments. The jinja args are loaded under the keyword "job". |
on_kube_api_event | None | A method to capture kube api log events. By default is none. log output pattern: ::kube_api:[name]=value |
parse_xcom_event | json parser | Parse the result of xcom events, ::kube_api:xcom={json values...} |
When executing Pod
resources, via yaml, we can define the main container that the status is taken from. Thus we allow
other sidecars to be loaded before the pod completes (this for now is not available for Job
),
apiVersion: v1
kind: Pod
metadata:
...
annotations:
kubernetes_job_operator.main_container: main
spec:
restartPolicy: Never
containers:
- name: main
image: 'ubuntu:20.10'
command:
- sleep
- '10'
- name: side-car
image: 'ubuntu:20.10'
command:
- sleep
- infinity
When executed, only the status of the main container will be taken into account when determining the state of the task.
Note, if the delete policy is not one of Always
,IfFailed
, the sidecar will continue executing on failure.
The implementation of XCom via the KubernetesJobOperator differes from the one by KuberenetesPodsOperator, and therefore no backward compatible implementation for XCom currently exists.
To use xcom with KubernetesJobOperator simply add a log line to your pod log output,
::kube_api:xcom={"a":2,"[key]":"[value]"}
Note the value of the xcom must be in json format (for the default parser).
Are welcome, please post issues or PR's if needed.
Copyright ©
Zav Shotan
and other contributors.
It is free software, released under the MIT licence, and may be redistributed under the terms specified in LICENSE.