Kubernetes Platform-specific Features¶
The kfp-kubernetes Python library enables authoring Kubeflow pipelines with Kubernetes-specific features. These features are supported by the default KFP open source BE. Specifically, the kfp-kubernetes library supports authoring pipelines that use:
See the ``kfp-kubernetes` reference documentation <https://kfp-kubernetes.readthedocs.io/>`_.
Installation¶
The kfp-kubernetes package can be installed as a kfp SDK extra dependency with kfp==2.x.x:
pip install kfp[kubernetes] --pre
Or installed independently:
pip install kfp-kubernetes
Example usage¶
Secret: As environment variable¶
from kfp import dsl
from kfp import kubernetes
@dsl.component
def print_secret():
import os
print(os.environ['my-secret'])
@dsl.pipeline
def pipeline():
task = print_secret()
kubernetes.use_secret_as_env(task,
secret_name='my-secret',
secret_key_to_env={'password': 'SECRET_VAR'})
Secret: As mounted volume¶
from kfp import dsl
from kfp import kubernetes
@dsl.component
def print_secret():
with open('/mnt/my_vol') as f:
print(f.read())
@dsl.pipeline
def pipeline():
task = print_secret()
kubernetes.use_secret_as_volume(task,
secret_name='my-secret',
mount_path='/mnt/my_vol')
Secret: As optional source for a mounted volume¶
from kfp import dsl
from kfp import kubernetes
@dsl.component
def print_secret():
with open('/mnt/my_vol') as f:
print(f.read())
@dsl.pipeline
def pipeline():
task = print_secret()
kubernetes.use_secret_as_volume(task,
secret_name='my-secret',
mount_path='/mnt/my_vol'
optional=True)
ConfigMap: As environment variable¶
from kfp import dsl
from kfp import kubernetes
@dsl.component
def print_config_map():
import os
print(os.environ['my-cm'])
@dsl.pipeline
def pipeline():
task = print_config_map()
kubernetes.use_config_map_as_env(task,
config_map_name='my-cm',
secret_key_to_env={'foo': 'CM_VAR'})
ConfigMap: As mounted volume¶
from kfp import dsl
from kfp import kubernetes
@dsl.component
def print_config_map():
with open('/mnt/my_vol') as f:
print(f.read())
@dsl.pipeline
def pipeline():
task = print_config_map()
kubernetes.use_config_map_as_volume(task,
config_map_name='my-cm',
mount_path='/mnt/my_vol')
ConfigMap: As optional source for a mounted volume¶
from kfp import dsl
from kfp import kubernetes
@dsl.component
def print_config_map():
with open('/mnt/my_vol') as f:
print(f.read())
@dsl.pipeline
def pipeline():
task = print_config_map()
kubernetes.use_config_map_as_volume(task,
config_map_name='my-cm',
mount_path='/mnt/my_vol',
optional=True)
PersistentVolumeClaim: Dynamically create PVC, mount, then delete¶
from kfp import dsl
from kfp import kubernetes
@dsl.component
def make_data():
with open('/data/file.txt', 'w') as f:
f.write('my data')
@dsl.component
def read_data():
with open('/reused_data/file.txt') as f:
print(f.read())
@dsl.pipeline
def my_pipeline():
pvc1 = kubernetes.CreatePVC(
# can also use pvc_name instead of pvc_name_suffix to use a pre-existing PVC
pvc_name_suffix='-my-pvc',
access_modes=['ReadWriteOnce'],
size='5Gi',
storage_class_name='standard',
)
task1 = make_data()
# normally task sequencing is handled by data exchange via component inputs/outputs
# but since data is exchanged via volume, we need to call .after explicitly to sequence tasks
task2 = read_data().after(task1)
kubernetes.mount_pvc(
task1,
pvc_name=pvc1.outputs['name'],
mount_path='/data',
)
kubernetes.mount_pvc(
task2,
pvc_name=pvc1.outputs['name'],
mount_path='/reused_data',
)
# wait to delete the PVC until after task2 completes
delete_pvc1 = kubernetes.DeletePVC(
pvc_name=pvc1.outputs['name']).after(task2)
PersistentVolumeClaim: Create PVC on-the-fly tied to your pod’s lifecycle¶
from kfp import dsl
from kfp import kubernetes
@dsl.component
def make_data():
with open('/data/file.txt', 'w') as f:
f.write('my data')
@dsl.pipeline
def my_pipeline():
task1 = make_data()
# note that the created pvc will be autoamatically cleaned up once pod disappeared and cannot be shared between pods
kubernetes.add_ephemeral_volume(
task1,
volume_name="my-pvc",
mount_path="/data",
access_modes=['ReadWriteOnce'],
size='5Gi',
)
Pod Metadata: Add pod labels and annotations to the container pod’s definition¶
from kfp import dsl
from kfp import kubernetes
@dsl.component
def comp():
pass
@dsl.pipeline
def my_pipeline():
task = comp()
kubernetes.add_pod_label(
task,
label_key='kubeflow.com/kfp',
label_value='pipeline-node',
)
kubernetes.add_pod_annotation(
task,
annotation_key='run_id',
annotation_value='123456',
)
Kubernetes Field: Use Kubernetes Field Path as enviornment variable¶
from kfp import dsl
from kfp import kubernetes
@dsl.component
def comp():
pass
@dsl.pipeline
def my_pipeline():
task = comp()
kubernetes.use_field_path_as_env(
task,
env_name='KFP_RUN_NAME',
field_path="metadata.annotations['pipelines.kubeflow.org/run_name']"
)
Timeout: Set timeout in seconds defined as pod spec’s activeDeadlineSeconds¶
from kfp import dsl
from kfp import kubernetes
@dsl.component
def comp():
pass
@dsl.pipeline
def my_pipeline():
task = comp()
kubernetes.set_timeout(task, 20)
ImagePullPolicy: One of “Always” “Never”, “IfNotPresent”.¶
from kfp import dsl
from kfp import kubernetes
@dsl.component
def simple_task():
print("hello-world")
@dsl.pipeline
def pipeline():
task = simple_task()
kubernetes.set_image_pull_policy(task, "Always")