Cloud Development Kit for Kubernetes
Project description
cdk8s
Cloud Development Kit for Kubernetes
cdk8s is a software development framework for defining Kubernetes applications using rich object-oriented APIs. It allows developers to leverage the full power of software in order to define abstract components called "constructs" which compose Kubernetes resources or other constructs into higher-level abstractions.
This library is the foundation of cdk8s. It includes base types that are used to define cdk8s applications.
Chart
The Chart is a container that synthesizes a single Kubernetes manifest.
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
class MyChart(Chart):
def __init__(self, scope, ns):
super().__init__(scope, ns)
During synthesis, charts collect all the ApiObject nodes (recursively) and
emit a single YAML manifest that includes all these objects.
ApiObject
An ApiObject is a construct that represents an entry in a Kubernetes manifest (level 0).
In most cases, you won't use ApiObject directly but rather use classes that
are imported through cdk8s import and which extend this base class.
Include
The Include construct can be used to include an existing manifest in a chart.
The following example will include the Kubernetes Dashboard in MyChart:
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
from cdk8s import Include
class MyChart(Chart):
def __init__(self, scope, id):
super().__init__(scope, id)
dashboard = Include(self, "dashboard", {
"url": "https://raw.githubusercontent.com/kubernetes/dashboard/v2.0.0/aio/deploy/recommended.yaml",
# or
"url": "dashboard.yaml"
})
All API objects defined in the included manifest will be added as children
ApiObjects under the Include construct's scope and can be accessed
through the apiObject property:
The following example queries for all the Deployment resources in the
dashboard:
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
deployment_api_object = dashboard.api_objects.find(c => c.kind === 'Deployment);)
NOTE: names of included objects (metadata.name) are preserved. This means that
if you try to include the same manifest twice into the same chart, your manifest
will have duplicate definitions of the same objects.
Dependencies
You can declare dependencies between any two cdk8s constructs using the addDependency() method.
ApiObjects
For example, you can force kubernetes to first apply a Namespace before applying the Service in the scope of that namespace:
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
namespace = k8s.Namespace(chart, "backend")
service = k8s.Service(chart, "Service", metadata={"namespace": namespace.name})
# declare the dependency. this is just a syntactic sugar for Node.of(service).addDependency(namespace)
service.add_dependency(namespace)
cdk8s will ensure that the Namespace object is placed before the Service object in the resulting manifest:
apiVersion: v1
kind: Namespace
metadata:
name: chart-backend-a59d2e47
---
apiVersion: v1
kind: Service
metadata:
name: chart-service-93d02be7
namespace: chart-backend-a59d2e47
Charts
You can also specify dependencies between charts, in exactly the same manner. For example, if we have a chart that provisions our namespace, we need that chart to be applied first:
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
namespace_chart = NamespaceChart(app, "namespace")
application_chart = ApplicationChart(app, "application")
# declare the dependency. this is just a syntactic sugar for Node.of(applicationChart).addDependency(namespaceChart)
application_chart.add_dependency(namespace_chart)
Running cdk8s synth will produce the following dist directory:
> cdk8s synth
dist/0000-namespace.k8s.yaml
dist/0001-application.k8s.yaml
Notice that the namespace chart appears first with the 0000 prefix. This will ensure that a subsequent execution of kubectl apply -f dist/ will apply the namespace first, and the application second.
Custom Constructs
The behavior above applies in the same way to custom constructs that you create or use.
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
class Database(Construct):
def __init__(self, scope, name):
super().__init__(scope, name)
k8s.StatefulSet(self, "StatefulSet")
k8s.ConfigMap(self, "ConfigMap")
app = App()
chart = Chart(app, "Chart")
service = k8s.Service(chart, "Service")
database = Database(chart, "Database")
service.add_dependency(database)
Declaring such a dependency will cause each ApiObject in the source construct, to depend on every ApiObject in the target construct.
Note that in the example above, the source construct is actually an ApiObject, which is also ok since it is essentially a construct with a single ApiObject.
Note that if the source of your dependency is a custom construct, it won't have the
addDependencysyntactic sugar by default, so you'll have to useNode.of().
The resulting manifest will be:
apiVersion: apps/v1
kind: StatefulSet
metadata:
name: chart-database-statefulset-4627f8e2
---
apiVersion: v1
kind: ConfigMap
metadata:
name: chart-database-configmap-676f8640
---
apiVersion: v1
kind: Service
metadata:
name: chart-service-93d02be7
You can see that all ApiObjects of the Database construct, appear before the Service object.
Things just got cool
If you simply declare a dependency between two ApiObjects (or Constructs), that belong to two different Charts, cdk8s will create the chart dependency automatically for you.
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
namespace_chart = NamespaceChart(app, "namespace")
application_chart = ApplicationChart(app, "application")
namespace = k8s.Namespace(namespace_chart, "namespace")
deployment = k8s.Deployment(application_chart, "Deployment")
# dependency between ApiObjects, not Charts!
deployment.add_dependency(namespace)
Running cdk8s synth will produce the same result as if explicit chart dependencies were declared:
> cdk8s synth
dist/0000-namespace.k8s.yaml
dist/0001-application.k8s.yaml
This means you need not be bothered with managing chart dependencies, simply work with the ApiObjects you create, and let cdk8s infer the chart dependencies.
Helm Support
You can use the Helm construct in order to include Helm
charts.
In order to use this construct, you must have helm installed on your system.
See Installing Helm in the Helm
documentation for details.
The following example adds the bitnami/redis Helm chart with sentinel containers enabled:
The Bitnami helm repo needs to be added through:
helm repo add bitnami https://charts.bitnami.com/bitnami
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
class MyChart(cdk8s.Chart):
def __init__(self, scope, id):
super().__init__(scope, id)
redis = Helm(self, "redis",
chart="bitnami/redis",
values={
"sentinel": {
"enabled": True
}
}
)
The Helm construct will render the manifest from the specified chart by
executing helm template. If values is specified, these values will override
the default values included with the chart.
The name option can be used to specify the chart's release name.
If not specified, a valid and unique release name will be allocated
based on the construct path.
The Helm construct extends Include and inherits it's API. For example, you
can use the apiObjects property to find and interact with included API
objects.
The following example shows how to add an annotation to the Redis master deployment:
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
master = redis.api_objects.find(o => o.name === 'foo-redis-master);,
master.metadata.add_annotation("my.annotation", "hey-there"))
Testing
cdk8s bundles a set of test utilities under the Testing class:
Testing.app()returns anAppobject bound to a temporary output directory.Testing.chart()returns aChartobject bound to a testing app.Testing.synth(chart)returns the Kubernetes manifest synthesized from a chart.
License
This project is distributed under the Apache License, Version 2.0.
This module is part of the cdk8s project.
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