3d33b45e43
Automatic merge from submit-queue
support Azure disk dynamic provisioning
azure disk dynamic provisioning
A screen shot
``` console
$ kubectl create -f examples/experimental/persistent-volume-provisioning/azure-dd.yaml
storageclass "slow" created
$ kubectl create -f examples/experimental/persistent-volume-provisioning/claim1.json
persistentvolumeclaim "claim1" created
$ kubectl describe pvc
Name: claim1
Namespace: default
Status: Bound
Volume: pvc-de7150d1-6a37-11e6-aec9-000d3a12e034
Labels: <none>
Capacity: 3Gi
Access Modes: RWO
$ kubectl create -f pod.yaml
replicationcontroller "nfs-server" created
$ kubectl describe pod
Name: nfs-server-b9w6x
Namespace: default
Node: rootfs-dev/172.24.0.4
Start Time: Wed, 24 Aug 2016 19:46:21 +0000
Labels: role=nfs-server
Status: Running
IP: 172.17.0.2
Controllers: ReplicationController/nfs-server
Containers:
nfs-server:
Container ID: docker://be6f8c0e26dc896d4c53ef0d21c9414982f0b39a10facd6b93a255f9e1c3806c
Image: nginx
Image ID: docker://bfdd4ced794ed276a28cf56b233ea58dec544e9ca329d796cf30b8bcf6d39b3f
Port:
State: Running
Started: Wed, 24 Aug 2016 19:49:19 +0000
Ready: True
Restart Count: 0
Volume Mounts:
/exports from mypvc (rw)
/var/run/secrets/kubernetes.io/serviceaccount from default-token-9o0fj (ro)
Environment Variables: <none>
Conditions:
Type Status
Initialized True
Ready True
PodScheduled True
Volumes:
mypvc:
Type: PersistentVolumeClaim (a reference to a PersistentVolumeClaim in the same namespace)
ClaimName: claim1
ReadOnly: false
default-token-9o0fj:
Type: Secret (a volume populated by a Secret)
SecretName: default-token-9o0fj
QoS Class: BestEffort
Tolerations: <none>
Events:
FirstSeen LastSeen Count From SubobjectPath Type Reason Message
--------- -------- ----- ---- ------------- -------- ------ -------
11m 11m 1 {default-scheduler } Normal Scheduled Successfully assigned nfs-server-b9w6x to rootfs-dev
9m 9m 1 {kubelet rootfs-dev} Warning FailedMount Unable to mount volumes for pod "nfs-server-b9w6x_default(6eb7fd98-6a33-11e6-aec9-000d3a12e034)": timeout expired waiting for volumes to attach/mount for pod "nfs-server-b9w6x"/"default". list of unattached/unmounted volumes=[mypvc]
9m 9m 1 {kubelet rootfs-dev} Warning FailedSync Error syncing pod, skipping: timeout expired waiting for volumes to attach/mount for pod "nfs-server-b9w6x"/"default". list of unattached/unmounted volumes=[mypvc]
8m 8m 1 {kubelet rootfs-dev} spec.containers{nfs-server} Normal Pulling pulling image "nginx"
8m 8m 1 {kubelet rootfs-dev} spec.containers{nfs-server} Normal Pulled Successfully pulled image "nginx"
8m 8m 1 {kubelet rootfs-dev} spec.containers{nfs-server} Normal Created Created container with docker id be6f8c0e26dc
8m 8m 1 {kubelet rootfs-dev} spec.containers{nfs-server} Normal Started Started container with docker id be6f8c0e26dc
```
@colemickens @brendandburns
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| federation | ||
| Godeps | ||
| hack | ||
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| logo | ||
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| code-of-conduct.md | ||
| CONTRIB.md | ||
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| DESIGN.md | ||
| labels.yaml | ||
| LICENSE | ||
| Makefile | ||
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| WORKSPACE | ||
Kubernetes
Are you ...
- Interested in learning more about using Kubernetes? Please see our user-facing documentation on kubernetes.io or try the Scalable Microservices with Kubernetes course
- Interested in hacking on the core Kubernetes code base? Keep reading!
Kubernetes is an open source system for managing containerized applications across multiple hosts, providing basic mechanisms for deployment, maintenance, and scaling of applications.
Kubernetes is:
- lean: lightweight, simple, accessible
- portable: public, private, hybrid, multi cloud
- extensible: modular, pluggable, hookable, composable
- self-healing: auto-placement, auto-restart, auto-replication
Kubernetes builds upon a decade and a half of experience at Google running production workloads at scale, combined with best-of-breed ideas and practices from the community.
Kubernetes is ready for Production!
With the 1.0.1 release Kubernetes is ready to serve your production workloads.
Kubernetes can run anywhere!
You can run Kubernetes on your local workstation under Vagrant, cloud providers (e.g. GCE, AWS, Azure), and physical hardware. Essentially, anywhere Linux runs you can run Kubernetes. Checkout the Getting Started Guides for details.
Concepts
Kubernetes works with the following concepts:
- Cluster
- A cluster is a set of physical or virtual machines and other infrastructure resources used by Kubernetes to run your applications. Kubernetes can run anywhere! See the Getting Started Guides for instructions for a variety of services.
- Node
- A node is a physical or virtual machine running Kubernetes, onto which pods can be scheduled.
- Pod
- Pods are a colocated group of application containers with shared volumes. They're the smallest deployable units that can be created, scheduled, and managed with Kubernetes. Pods can be created individually, but it's recommended that you use a replication controller even if creating a single pod.
- Replication controller
- Replication controllers manage the lifecycle of pods. They ensure that a specified number of pods are running at any given time, by creating or killing pods as required.
- Service
- Services provide a single, stable name and address for a set of pods. They act as basic load balancers.
- Label
- Labels are used to organize and select groups of objects based on key:value pairs.
Documentation
Kubernetes documentation is organized into several categories.
- Getting started guides
- for people who want to create a Kubernetes cluster
- for people who want to port Kubernetes to a new environment
- User documentation
- for people who want to run programs on an existing Kubernetes cluster
- in the Kubernetes User Guide: Managing Applications Tip: You can also view help documentation out on http://kubernetes.io/docs/.
- the Kubectl Command Line Interface is a detailed reference on
the
kubectlCLI - User FAQ
- Cluster administrator documentation
- for people who want to create a Kubernetes cluster and administer it
- in the Kubernetes Cluster Admin Guide
- Developer and API documentation
- for people who want to write programs that access the Kubernetes API, write plugins or extensions, or modify the core Kubernetes code
- in the Kubernetes Developer Guide
- see also notes on the API
- see also the API object documentation, a detailed description of all fields found in the core API objects
- Walkthroughs and examples
- hands-on introduction and example config files
- in the user guide
- in the docs/examples directory
- Contributions from the Kubernetes community
- in the docs/contrib directory
- Design documentation and design proposals
- for people who want to understand the design of Kubernetes, and feature proposals
- design docs in the Kubernetes Design Overview and the docs/design directory
- proposals in the docs/proposals directory
- Wiki/FAQ
- in the wiki
- troubleshooting information in the troubleshooting guide
Community, discussion, contribution, and support
See which companies are committed to driving quality in Kubernetes on our community page.
Do you want to help "shape the evolution of technologies that are container packaged, dynamically scheduled and microservices oriented?"
You should consider joining the Cloud Native Computing Foundation. For details about who's involved and how Kubernetes plays a role, read their announcement.
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Participation in the Kubernetes community is governed by the Kubernetes Code of Conduct.
Are you ready to add to the discussion?
We have presence on:
You can also view recordings of past events and presentations on our Media page.
For Q&A, our threads are at:
Want to contribute to Kubernetes?
If you're interested in being a contributor and want to get involved in developing Kubernetes, start in the Kubernetes Developer Guide and also review the contributor guidelines.
Or, if you just have an idea for a new feature, see the Kubernetes Features repository for details on how to propose it.
Also, please see our expectations for members of the Kubernetes community.
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While there are many different channels that you can use to get ahold of us, you can help make sure that we are efficient in getting you the help that you need.
If you need support, start with the troubleshooting guide and work your way through the process that we've outlined.
That said, if you have questions, reach out to us one way or another. We don't bite!
Community resources
- Awesome-kubernetes - http://ramitsurana.github.io/awesome-kubernetes
You can find more projects, tools and articles related to Kubernetes on the awesome-kubernetes list. Add your project there and help us make it better.
- CoreKube - https://corekube.com:
Instructive & educational resources for the Kubernetes community. By the community.
- Community Documentation
Here you can learn more about the current happenings in the kubernetes community.