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-# incubator/zookeeper
-
-This helm chart provides an implementation of the ZooKeeper [StatefulSet](http://kubernetes.io/docs/concepts/abstractions/controllers/statefulsets/) found in Kubernetes Contrib [Zookeeper StatefulSet](https://github.com/kubernetes/contrib/tree/master/statefulsets/zookeeper).
-
-## Prerequisites
-* Kubernetes 1.6+
-* PersistentVolume support on the underlying infrastructure
-* A dynamic provisioner for the PersistentVolumes
-* A familiarity with [Apache ZooKeeper 3.4.x](https://zookeeper.apache.org/doc/current/)
-
-## Chart Components
-This chart will do the following:
-
-* Create a fixed size ZooKeeper ensemble using a [StatefulSet](http://kubernetes.io/docs/concepts/abstractions/controllers/statefulsets/).
-* Create a [PodDisruptionBudget](https://kubernetes.io/docs/tasks/configure-pod-container/configure-pod-disruption-budget/) so kubectl drain will respect the Quorum size of the ensemble.
-* Create a [Headless Service](https://kubernetes.io/docs/concepts/services-networking/service/) to control the domain of the ZooKeeper ensemble.
-* Create a Service configured to connect to the available ZooKeeper instance on the configured client port.
-* Optionally apply a [Pod Anti-Affinity](https://kubernetes.io/docs/concepts/configuration/assign-pod-node/#inter-pod-affinity-and-anti-affinity-beta-feature) to spread the ZooKeeper ensemble across nodes.
-* Optionally start JMX Exporter and Zookeeper Exporter containers inside Zookeeper pods.
-* Optionally create a job which creates Zookeeper chroots (e.g. `/kafka1`).
-
-## Installing the Chart
-You can install the chart with the release name `zookeeper` as below.
-
-```console
-$ helm repo add incubator http://storage.googleapis.com/kubernetes-charts-incubator
-$ helm install --name zookeeper incubator/zookeeper
-```
-
-If you do not specify a name, helm will select a name for you.
-
-### Installed Components
-You can use `kubectl get` to view all of the installed components.
-
-```console{%raw}
-$ kubectl get all -l app=zookeeper
-NAME:   zookeeper
-LAST DEPLOYED: Wed Apr 11 17:09:48 2018
-NAMESPACE: default
-STATUS: DEPLOYED
-
-RESOURCES:
-==> v1beta1/PodDisruptionBudget
-NAME       MIN AVAILABLE  MAX UNAVAILABLE  ALLOWED DISRUPTIONS  AGE
-zookeeper  N/A            1                1                    2m
-
-==> v1/Service
-NAME                TYPE       CLUSTER-IP     EXTERNAL-IP  PORT(S)                     AGE
-zookeeper-headless  ClusterIP  None           <none>       2181/TCP,3888/TCP,2888/TCP  2m
-zookeeper           ClusterIP  10.98.179.165  <none>       2181/TCP                    2m
-
-==> v1beta1/StatefulSet
-NAME       DESIRED  CURRENT  AGE
-zookeeper  3        3        2m
-```
-
-1. `statefulsets/zookeeper` is the StatefulSet created by the chart.
-1. `po/zookeeper-<0|1|2>` are the Pods created by the StatefulSet. Each Pod has a single container running a ZooKeeper server.
-1. `svc/zookeeper-headless` is the Headless Service used to control the network domain of the ZooKeeper ensemble.
-1. `svc/zookeeper` is a Service that can be used by clients to connect to an available ZooKeeper server.
-
-## Configuration
-You can specify each parameter using the `--set key=value[,key=value]` argument to `helm install`.
-
-Alternatively, a YAML file that specifies the values for the parameters can be provided while installing the chart. For example,
-
-```console
-$ helm install --name my-release -f values.yaml incubator/zookeeper
-```
-
-## Default Values
-
-- You can find all user-configurable settings, their defaults and commentary about them in [values.yaml](values.yaml).
-
-## Deep Dive
-
-## Image Details
-The image used for this chart is based on Ubuntu 16.04 LTS. This image is larger than Alpine or BusyBox, but it provides glibc, rather than ulibc or mucl, and a JVM release that is built against it. You can easily convert this chart to run against a smaller image with a JVM that is built against that image's libc. However, as far as we know, no Hadoop vendor supports, or has verified, ZooKeeper running on such a JVM.
-
-## JVM Details
-The Java Virtual Machine used for this chart is the OpenJDK JVM 8u111 JRE (headless).
-
-## ZooKeeper Details
-The ZooKeeper version is the latest stable version (3.4.10). The distribution is installed into /opt/zookeeper-3.4.10. This directory is symbolically linked to /opt/zookeeper. Symlinks are created to simulate a rpm installation into /usr.
-
-## Failover
-You can test failover by killing the leader. Insert a key:
-```console
-$ kubectl exec zookeeper-0 -- /opt/zookeeper/bin/zkCli.sh create /foo bar;
-$ kubectl exec zookeeper-2 -- /opt/zookeeper/bin/zkCli.sh get /foo;
-```
-
-Watch existing members:
-```console
-$ kubectl run --attach bbox --image=busybox --restart=Never -- sh -c 'while true; do for i in 0 1 2; do echo zk-${i} $(echo stats | nc <pod-name>-${i}.<headless-service-name>:2181 | grep Mode); sleep 1; done; done';
-
-zk-2 Mode: follower
-zk-0 Mode: follower
-zk-1 Mode: leader
-zk-2 Mode: follower
-```
-
-Delete Pods and wait for the StatefulSet controller to bring them back up:
-```console
-$ kubectl delete po -l app=zookeeper
-$ kubectl get po --watch-only
-NAME          READY     STATUS    RESTARTS   AGE
-zookeeper-0   0/1       Running   0          35s
-zookeeper-0   1/1       Running   0         50s
-zookeeper-1   0/1       Pending   0         0s
-zookeeper-1   0/1       Pending   0         0s
-zookeeper-1   0/1       ContainerCreating   0         0s
-zookeeper-1   0/1       Running   0         19s
-zookeeper-1   1/1       Running   0         40s
-zookeeper-2   0/1       Pending   0         0s
-zookeeper-2   0/1       Pending   0         0s
-zookeeper-2   0/1       ContainerCreating   0         0s
-zookeeper-2   0/1       Running   0         19s
-zookeeper-2   1/1       Running   0         41s
-```
-
-Check the previously inserted key:
-```console
-$ kubectl exec zookeeper-1 -- /opt/zookeeper/bin/zkCli.sh get /foo
-ionid = 0x354887858e80035, negotiated timeout = 30000
-
-WATCHER::
-
-WatchedEvent state:SyncConnected type:None path:null
-bar
-```
-
-## Scaling
-ZooKeeper can not be safely scaled in versions prior to 3.5.x. This chart currently uses 3.4.x. There are manual procedures for scaling a 3.4.x ensemble, but as noted in the [ZooKeeper 3.5.2 documentation](https://zookeeper.apache.org/doc/r3.5.2-alpha/zookeeperReconfig.html) these procedures require a rolling restart, are known to be error prone, and often result in a data loss.
-
-While ZooKeeper 3.5.x does allow for dynamic ensemble reconfiguration (including scaling membership), the current status of the release is still alpha, and 3.5.x is therefore not recommended for production use.
-
-## Limitations
-* StatefulSet and PodDisruptionBudget are beta resources.
-* Only supports storage options that have backends for persistent volume claims.