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487 lines
18 KiB
Markdown
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[#]: subject: (Test Kubernetes cluster failures and experiments in your terminal)
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[#]: via: (https://opensource.com/article/21/6/kubernetes-litmus-chaos)
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[#]: author: (Jessica Cherry https://opensource.com/users/cherrybomb)
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[#]: collector: (lujun9972)
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[#]: translator: ( )
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[#]: reviewer: ( )
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[#]: publisher: ( )
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[#]: url: ( )
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Test Kubernetes cluster failures and experiments in your terminal
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======
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Litmus is an effective tool to cause chaos to test how your system will
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respond to failure.
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![Science lab with beakers][1]
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Do you know how your system will respond to an arbitrary failure? Will your application fail? Will anything survive after a loss? If you're not sure, it's time to see if your system passes the [Litmus][2] test, a detailed way to cause chaos at random with many experiments.
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In the first article in this series, I explained [what chaos engineering is][3], and in the second article, I demonstrated how to get your [system's steady state][4] so that you can compare it against a chaos state. This third article will show you how to install and use Litmus to test arbitrary failures and experiments in your Kubernetes cluster. In this walkthrough, I'll use Pop!_OS 20.04, Helm 3, Minikube 1.14.2, and Kubernetes 1.19.
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### Configure Minikube
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If you haven't already, [install Minikube][5] in whatever way makes sense for your environment. If you have enough resources, I recommend giving your virtual machine a bit more than the default memory and CPU power:
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```
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$ minikube config set memory 8192
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❗ These changes will take effect upon a minikube delete and then a minikube start
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$ minikube config set cpus 6
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❗ These changes will take effect upon a minikube delete and then a minikube start
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```
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Then start and check your system's status:
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```
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$ minikube start
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😄 minikube v1.14.2 on Debian bullseye/sid
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🎉 minikube 1.19.0 is available! Download it: <https://github.com/kubernetes/minikube/releases/tag/v1.19.0>
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💡 To disable this notice, run: 'minikube config set WantUpdateNotification false'
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✨ Using the docker driver based on user configuration
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👍 Starting control plane node minikube in cluster minikube
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🔥 Creating docker container (CPUs=6, Memory=8192MB) ...
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🐳 Preparing Kubernetes v1.19.0 on Docker 19.03.8 ...
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🔎 Verifying Kubernetes components...
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🌟 Enabled addons: storage-provisioner, default-storageclass
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🏄 Done! kubectl is now configured to use "minikube" by default
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jess@Athena:~$ minikube status
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minikube
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type: Control Plane
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host: Running
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kubelet: Running
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apiserver: Running
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kubeconfig: Configured
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```
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### Install Litmus
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As outlined on [Litmus' homepage][6], the steps to install Litmus are: add your repo to Helm, create your Litmus namespace, then install your chart:
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```
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$ helm repo add litmuschaos <https://litmuschaos.github.io/litmus-helm/>
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"litmuschaos" has been added to your repositories
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$ kubectl create ns litmus
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namespace/litmus created
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$ helm install chaos litmuschaos/litmus --namespace=litmus
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NAME: chaos
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LAST DEPLOYED: Sun May 9 17:05:36 2021
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NAMESPACE: litmus
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STATUS: deployed
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REVISION: 1
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TEST SUITE: None
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NOTES:
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```
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### Verify the installation
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You can run the following commands if you want to verify all the desired components are installed correctly.
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Check if **api-resources** for chaos are available:
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```
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root@demo:~# kubectl api-resources | grep litmus
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chaosengines litmuschaos.io true ChaosEngine
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chaosexperiments litmuschaos.io true ChaosExperiment
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chaosresults litmuschaos.io true ChaosResult
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```
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Check if the Litmus chaos operator deployment is running successfully:
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```
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root@demo:~# kubectl get pods -n litmus
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NAME READY STATUS RESTARTS AGE
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litmus-7d998b6568-nnlcd 1/1 Running 0 106s
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```
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### Start running chaos experiments
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With this out of the way, you are good to go! Refer to Litmus' [chaos experiment documentation][7] to start executing your first experiment.
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To confirm your installation is working, check that the pod is up and running correctly:
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```
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jess@Athena:~$ kubectl get pods -n litmus
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NAME READY STATUS RESTARTS AGE
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litmus-7d6f994d88-2g7wn 1/1 Running 0 115s
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```
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Confirm the Custom Resource Definitions (CRDs) are also installed correctly:
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```
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jess@Athena:~$ kubectl get crds | grep chaos
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chaosengines.litmuschaos.io 2021-05-09T21:05:33Z
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chaosexperiments.litmuschaos.io 2021-05-09T21:05:33Z
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chaosresults.litmuschaos.io 2021-05-09T21:05:33Z
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```
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Finally, confirm your API resources are also installed:
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```
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jess@Athena:~$ kubectl api-resources | grep chaos
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chaosengines litmuschaos.io true ChaosEngine
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chaosexperiments litmuschaos.io true ChaosExperiment
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chaosresults litmuschaos.io true ChaosResult
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```
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That's what I call easy installation and confirmation. The next step is setting up deployments for chaos.
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### Prep for destruction
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To test for chaos, you need something to test against. Add a new namespace:
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```
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$ kubectl create namespace more-apps
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namespace/more-apps created
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```
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Then add a deployment to the new namespace:
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```
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$ kubectl create deployment ghost --namespace more-apps --image=ghost:3.11.0-alpine
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deployment.apps/ghost created
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```
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Finally, scale your deployment up so that you have more than one pod in your deployment to test against:
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```
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$ kubectl scale deployment/ghost --namespace more-apps --replicas=4
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deployment.apps/ghost scaled
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```
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For Litmus to cause chaos, you need to add an [annotation][8] to your deployment to mark it ready for chaos. Currently, annotations are available for deployments, StatefulSets, and DaemonSets. Add the annotation `chaos=true` to your deployment:
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```
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$ kubectl annotate deploy/ghost litmuschaos.io/chaos="true" -n more-apps
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deployment.apps/ghost annotated
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```
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Make sure the experiments you will install have the correct permissions to work in the "more-apps" namespace.
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Make a new **rbac.yaml** file for the prepper bindings and permissions:
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```
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`$ touch rbac.yaml`
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```
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Then add permissions for the generic testing by copying and pasting the code below into your **rbac.yaml** file. These are just basic, minimal permissions to kill pods in your namespace and give Litmus permissions to delete a pod for a namespace you provide:
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```
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\---
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apiVersion: v1
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kind: ServiceAccount
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metadata:
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name: pod-delete-sa
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namespace: more-apps
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labels:
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name: pod-delete-sa
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\---
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apiVersion: rbac.authorization.k8s.io/v1
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kind: Role
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metadata:
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name: pod-delete-sa
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namespace: more-apps
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labels:
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name: pod-delete-sa
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rules:
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\- apiGroups: [""]
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resources: ["pods","events"]
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verbs: ["create","list","get","patch","update","delete","deletecollection"]
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\- apiGroups: [""]
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resources: ["pods/exec","pods/log","replicationcontrollers"]
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verbs: ["create","list","get"]
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\- apiGroups: ["batch"]
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resources: ["jobs"]
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verbs: ["create","list","get","delete","deletecollection"]
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\- apiGroups: ["apps"]
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resources: ["deployments","statefulsets","daemonsets","replicasets"]
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verbs: ["list","get"]
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\- apiGroups: ["apps.openshift.io"]
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resources: ["deploymentconfigs"]
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verbs: ["list","get"]
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\- apiGroups: ["argoproj.io"]
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resources: ["rollouts"]
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verbs: ["list","get"]
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\- apiGroups: ["litmuschaos.io"]
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resources: ["chaosengines","chaosexperiments","chaosresults"]
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verbs: ["create","list","get","patch","update"]
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\---
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apiVersion: rbac.authorization.k8s.io/v1
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kind: RoleBinding
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metadata:
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name: pod-delete-sa
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namespace: more-apps
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labels:
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name: pod-delete-sa
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roleRef:
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apiGroup: rbac.authorization.k8s.io
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kind: Role
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name: pod-delete-sa
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subjects:
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\- kind: ServiceAccount
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name: pod-delete-sa
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namespace: more-apps
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```
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Apply the **rbac.yaml** file:
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```
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$ kubectl apply -f rbac.yaml
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serviceaccount/pod-delete-sa created
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role.rbac.authorization.k8s.io/pod-delete-sa created
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rolebinding.rbac.authorization.k8s.io/pod-delete-sa created
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```
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The next step is to prepare your chaos engine to delete pods. The chaos engine will connect the experiment you need to your application instance by creating a **chaosengine.yaml** file and copying the information below into the .yaml file. This will connect your experiment to your namespace and the service account with the role bindings you created above.
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This chaos engine file only specifies the pod to delete during chaos testing:
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```
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apiVersion: litmuschaos.io/v1alpha1
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kind: ChaosEngine
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metadata:
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name: moreapps-chaos
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namespace: more-apps
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spec:
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appinfo:
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appns: 'more-apps'
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applabel: 'app=ghost'
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appkind: 'deployment'
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# It can be true/false
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annotationCheck: 'true'
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# It can be active/stop
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engineState: 'active'
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#ex. values: ns1:name=percona,ns2:run=more-apps
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auxiliaryAppInfo: ''
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chaosServiceAccount: pod-delete-sa
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# It can be delete/retain
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jobCleanUpPolicy: 'delete'
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experiments:
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- name: pod-delete
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spec:
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components:
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env:
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# set chaos duration (in sec) as desired
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- name: TOTAL_CHAOS_DURATION
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value: '30'
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# set chaos interval (in sec) as desired
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- name: CHAOS_INTERVAL
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value: '10'
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# pod failures without '--force' & default terminationGracePeriodSeconds
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- name: FORCE
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value: 'false'
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```
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Don't apply this file until you install the experiments in the next section.
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### Add new experiments for causing chaos
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Now that you have an entirely new environment with deployments, roles, and the chaos engine to test against, you need some experiments to run. Since Litmus has a large community, you can find some great experiments in the [Chaos Hub][9].
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In this walkthrough, I'll use the generic experiment of [killing a pod][10].
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Run a kubectl command to install the generic experiments into your cluster. Install this in your `more-apps` namespace; you will see the tests created when you run it:
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```
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$ kubectl apply -f <https://hub.litmuschaos.io/api/chaos/1.13.3?file=charts/generic/experiments.yaml> -n more-apps
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chaosexperiment.litmuschaos.io/pod-network-duplication created
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chaosexperiment.litmuschaos.io/node-cpu-hog created
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chaosexperiment.litmuschaos.io/node-drain created
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chaosexperiment.litmuschaos.io/docker-service-kill created
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chaosexperiment.litmuschaos.io/node-taint created
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chaosexperiment.litmuschaos.io/pod-autoscaler created
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chaosexperiment.litmuschaos.io/pod-network-loss created
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chaosexperiment.litmuschaos.io/node-memory-hog created
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chaosexperiment.litmuschaos.io/disk-loss created
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chaosexperiment.litmuschaos.io/pod-io-stress created
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chaosexperiment.litmuschaos.io/pod-network-corruption created
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chaosexperiment.litmuschaos.io/container-kill created
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chaosexperiment.litmuschaos.io/node-restart created
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chaosexperiment.litmuschaos.io/node-io-stress created
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chaosexperiment.litmuschaos.io/disk-fill created
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chaosexperiment.litmuschaos.io/pod-cpu-hog created
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chaosexperiment.litmuschaos.io/pod-network-latency created
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chaosexperiment.litmuschaos.io/kubelet-service-kill created
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chaosexperiment.litmuschaos.io/k8-pod-delete created
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chaosexperiment.litmuschaos.io/pod-delete created
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chaosexperiment.litmuschaos.io/node-poweroff created
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chaosexperiment.litmuschaos.io/k8-service-kill created
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chaosexperiment.litmuschaos.io/pod-memory-hog created
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```
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Verify the experiments installed correctly:
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```
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$ kubectl get chaosexperiments -n more-apps
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NAME AGE
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container-kill 72s
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disk-fill 72s
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disk-loss 72s
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docker-service-kill 72s
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k8-pod-delete 72s
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k8-service-kill 72s
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kubelet-service-kill 72s
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node-cpu-hog 72s
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node-drain 72s
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node-io-stress 72s
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node-memory-hog 72s
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node-poweroff 72s
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node-restart 72s
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node-taint 72s
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pod-autoscaler 72s
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pod-cpu-hog 72s
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pod-delete 72s
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pod-io-stress 72s
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pod-memory-hog 72s
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pod-network-corruption 72s
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pod-network-duplication 72s
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pod-network-latency 72s
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pod-network-loss 72s
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```
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### Run the experiments
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Now that everything is installed and configured, use your **chaosengine.yaml** file to run the pod-deletion experiment you defined. Apply your chaos engine file:
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```
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$ kubectl apply -f chaosengine.yaml
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chaosengine.litmuschaos.io/more-apps-chaos created
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```
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Confirm the engine started by getting all the pods in your namespace; you should see `pod-delete` being created:
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```
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$ kubectl get pods -n more-apps
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NAME READY STATUS RESTARTS AGE
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ghost-5bdd4cdcc4-blmtl 1/1 Running 0 53m
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ghost-5bdd4cdcc4-z2lnt 1/1 Running 0 53m
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ghost-5bdd4cdcc4-zlcc9 1/1 Running 0 53m
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ghost-5bdd4cdcc4-zrs8f 1/1 Running 0 53m
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moreapps-chaos-runner 1/1 Running 0 17s
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pod-delete-e443qx-lxzfx 0/1 ContainerCreating 0 7s
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```
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Next, you need to be able to observe your experiments using Litmus. The following command uses the ChaosResult CRD and provides a large amount of output:
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```
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$ kubectl describe chaosresult moreapps-chaos-pod-delete -n more-apps
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Name: moreapps-chaos-pod-delete
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Namespace: more-apps
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Labels: app.kubernetes.io/component=experiment-job
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app.kubernetes.io/part-of=litmus
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app.kubernetes.io/version=1.13.3
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|||
|
chaosUID=a6c9ab7e-ff07-4703-abe4-43e03b77bd72
|
|||
|
controller-uid=601b7330-c6f3-4d9b-90cb-2c761ac0567a
|
|||
|
job-name=pod-delete-e443qx
|
|||
|
name=moreapps-chaos-pod-delete
|
|||
|
Annotations: <none>
|
|||
|
API Version: litmuschaos.io/v1alpha1
|
|||
|
Kind: ChaosResult
|
|||
|
Metadata:
|
|||
|
Creation Timestamp: 2021-05-09T22:06:19Z
|
|||
|
Generation: 2
|
|||
|
Managed Fields:
|
|||
|
API Version: litmuschaos.io/v1alpha1
|
|||
|
Fields Type: FieldsV1
|
|||
|
fieldsV1:
|
|||
|
f:metadata:
|
|||
|
f:labels:
|
|||
|
.:
|
|||
|
f:app.kubernetes.io/component:
|
|||
|
f:app.kubernetes.io/part-of:
|
|||
|
f:app.kubernetes.io/version:
|
|||
|
f:chaosUID:
|
|||
|
f:controller-uid:
|
|||
|
f:job-name:
|
|||
|
f:name:
|
|||
|
f:spec:
|
|||
|
.:
|
|||
|
f:engine:
|
|||
|
f:experiment:
|
|||
|
f:status:
|
|||
|
.:
|
|||
|
f:experimentStatus:
|
|||
|
f:history:
|
|||
|
Manager: experiments
|
|||
|
Operation: Update
|
|||
|
Time: 2021-05-09T22:06:53Z
|
|||
|
Resource Version: 8406
|
|||
|
Self Link: /apis/litmuschaos.io/v1alpha1/namespaces/more-apps/chaosresults/moreapps-chaos-pod-delete
|
|||
|
UID: 08b7e3da-d603-49c7-bac4-3b54eb30aff8
|
|||
|
Spec:
|
|||
|
Engine: moreapps-chaos
|
|||
|
Experiment: pod-delete
|
|||
|
Status:
|
|||
|
Experiment Status:
|
|||
|
Fail Step: N/A
|
|||
|
Phase: Completed
|
|||
|
Probe Success Percentage: 100
|
|||
|
Verdict: Pass
|
|||
|
History:
|
|||
|
Failed Runs: 0
|
|||
|
Passed Runs: 1
|
|||
|
Stopped Runs: 0
|
|||
|
Events:
|
|||
|
Type Reason Age From Message
|
|||
|
---- ------ ---- ---- -------
|
|||
|
Normal Pass 104s pod-delete-e443qx-lxzfx experiment: pod-delete, Result: Pass
|
|||
|
```
|
|||
|
|
|||
|
You can see the pass or fail output from your testing as you run the chaos engine definitions.
|
|||
|
|
|||
|
Congratulations on your first (and hopefully not last) chaos engineering test! Now you have a powerful tool to use and help your environment grow.
|
|||
|
|
|||
|
### Final thoughts
|
|||
|
|
|||
|
You might be thinking, "I can't run this manually every time I want to run chaos. How far can I take this, and how can I set it up for the long term?"
|
|||
|
|
|||
|
Litmus' best part (aside from the Chaos Hub) is its [scheduler][11] function. You can use it to define times and dates, repetitions or sporadic, to run experiments. This is a great tool for detailed admins who have been working with Kubernetes for a while and are ready to create some chaos. I suggest staying up to date on Litmus and how to use this tool for regular chaos engineering. Happy pod hunting!
|
|||
|
|
|||
|
--------------------------------------------------------------------------------
|
|||
|
|
|||
|
via: https://opensource.com/article/21/6/kubernetes-litmus-chaos
|
|||
|
|
|||
|
作者:[Jessica Cherry][a]
|
|||
|
选题:[lujun9972][b]
|
|||
|
译者:[译者ID](https://github.com/译者ID)
|
|||
|
校对:[校对者ID](https://github.com/校对者ID)
|
|||
|
|
|||
|
本文由 [LCTT](https://github.com/LCTT/TranslateProject) 原创编译,[Linux中国](https://linux.cn/) 荣誉推出
|
|||
|
|
|||
|
[a]: https://opensource.com/users/cherrybomb
|
|||
|
[b]: https://github.com/lujun9972
|
|||
|
[1]: https://opensource.com/sites/default/files/styles/image-full-size/public/lead-images/science_experiment_beaker_lab.png?itok=plKWRhlU (Science lab with beakers)
|
|||
|
[2]: https://github.com/litmuschaos/litmus
|
|||
|
[3]: https://opensource.com/article/21/5/11-years-kubernetes-and-chaos
|
|||
|
[4]: https://opensource.com/article/21/5/get-your-steady-state-chaos-grafana-and-prometheus
|
|||
|
[5]: https://minikube.sigs.k8s.io/docs/start/
|
|||
|
[6]: https://litmuschaos.io/
|
|||
|
[7]: https://docs.litmuschaos.io
|
|||
|
[8]: https://kubernetes.io/docs/concepts/overview/working-with-objects/annotations/
|
|||
|
[9]: https://hub.litmuschaos.io/
|
|||
|
[10]: https://docs.litmuschaos.io/docs/pod-delete/
|
|||
|
[11]: https://docs.litmuschaos.io/docs/scheduling/
|