Understanding Kubernetes Objects
This page explains how Kubernetes objects are represented in the Kubernetes API, and how you can express them in .yaml
format.
Understanding Kubernetes objects
Kubernetes objects are persistent entities in the Kubernetes system. Kubernetes uses these entities to represent the state of your cluster. Specifically, they can describe:
- What containerized applications are running (and on which nodes)
- The resources available to those applications
- The policies around how those applications behave, such as restart policies, upgrades, and fault-tolerance
A Kubernetes object is a "record of intent"--once you create the object, the Kubernetes system will constantly work to ensure that object exists. By creating an object, you're effectively telling the Kubernetes system what you want your cluster's workload to look like; this is your cluster's desired state.
To work with Kubernetes objects--whether to create, modify, or delete them--you'll need to use the Kubernetes API. When you use the kubectl
command-line interface, for example, the CLI makes the necessary Kubernetes API calls for you. You can also use the Kubernetes API directly in your own programs using one of the Client Libraries.
Object Spec and Status
Almost every Kubernetes object includes two nested object fields that govern
the object's configuration: the object spec
and the object status
.
For objects that have a spec
, you have to set this when you create the object,
providing a description of the characteristics you want the resource to have:
its desired state.
The status
describes the current state of the object, supplied and updated
by the Kubernetes system and its components. The Kubernetes
control plane continually
and actively manages every object's actual state to match the desired state you
supplied.
For example: in Kubernetes, a Deployment is an object that can represent an
application running on your cluster. When you create the Deployment, you
might set the Deployment spec
to specify that you want three replicas of
the application to be running. The Kubernetes system reads the Deployment
spec and starts three instances of your desired application--updating
the status to match your spec. If any of those instances should fail
(a status change), the Kubernetes system responds to the difference
between spec and status by making a correction--in this case, starting
a replacement instance.
For more information on the object spec, status, and metadata, see the .
Describing a Kubernetes object
When you create an object in Kubernetes, you must provide the object spec that describes its desired state, as well as some basic information about the object (such as a name). When you use the Kubernetes API to create the object (either directly or via kubectl
), that API request must include that information as JSON in the request body. Most often, you provide the information to kubectl
in a .yaml file. kubectl
converts the information to JSON when making the API request.
Here's an example .yaml
file that shows the required fields and object spec for a Kubernetes Deployment:
apiVersion: apps/v1
kind: Deployment
metadata:
name: nginx-deployment
spec:
selector:
matchLabels:
app: nginx
replicas: 2 # tells deployment to run 2 pods matching the template
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: nginx
image: nginx:1.14.2
ports:
- containerPort: 80
One way to create a Deployment using a .yaml
file like the one above is to use the
kubectl apply
command
in the kubectl
command-line interface, passing the .yaml
file as an argument. Here's an example:
kubectl apply -f https://k8s.io/examples/application/deployment.yaml
The output is similar to this:
deployment.apps/nginx-deployment created
Required Fields
In the .yaml
file for the Kubernetes object you want to create, you'll need to set values for the following fields:
apiVersion
- Which version of the Kubernetes API you're using to create this objectkind
- What kind of object you want to createmetadata
- Data that helps uniquely identify the object, including aname
string,UID
, and optionalnamespace
spec
- What state you desire for the object
The precise format of the object For example, see the spec
is different for every Kubernetes object, and contains nested fields specific to that object. The
spec
field
for the Pod API reference.
For each Pod, the .spec
field specifies the pod and its desired state (such as the container image name for
each container within that pod).
Another example of an object specification is the
spec
field
for the StatefulSet API. For StatefulSet, the .spec
field specifies the StatefulSet and
its desired state.
Within the .spec
of a StatefulSet is a template
for Pod objects. That template describes Pods that the StatefulSet controller will create in order to
satisfy the StatefulSet specification.
Different kinds of object can also have different .status
; again, the API reference pages
detail the structure of that .status
field, and its content for each different type of object.What's next