EBS Loss Experiment Details
Experiment Metadata
Type | Description | Tested K8s Platform |
---|---|---|
Kube AWS | EBS volume loss against specified application | EKS |
Prerequisites
- Ensure that Kubernetes Version > 1.13
- Ensure that the Litmus Chaos Operator is running by executing
kubectl get pods
in operator namespace (typically,litmus
). If not, install from here - Ensure that the
ebs-loss
experiment resource is available in the cluster by executingkubectl get chaosexperiments
in the desired namespace If not, install from here - Ensure that you have sufficient AWS access to attach or detach an ebs volume from the instance.
- Ensure to create a Kubernetes secret having the AWS access configuration(key) in the
CHAOS_NAMESPACE
. A sample secret file looks like:
apiVersion: v1
kind: Secret
metadata:
name: cloud-secret
type: Opaque
stringData:
cloud_config.yml: |-
# Add the cloud AWS credentials respectively
[default]
aws_access_key_id = XXXXXXXXXXXXXXXXXXX
aws_secret_access_key = XXXXXXXXXXXXXXX
Entry-Criteria
- Application pods are healthy before chaos injection also ebs volume is attached to the instance.
Exit-Criteria
- Application pods are healthy post chaos injection and ebs volume is attached to the instance.
Details
- Causes chaos to disrupt state of infra resources ebs volume loss from node or ec2 instance for a certain chaos duration.
- Causes Pod to get Evicted if the Pod exceeds it Ephemeral Storage Limit.
- Tests deployment sanity (replica availability & uninterrupted service) and recovery workflows of the application pod
Integrations
- EBS Loss can be effected using the chaos library:
litmus
, which makes use of aws sdk to attach/detach an ebs volume from the target instance. specified capacity on the node. - The desired chaoslib can be selected by setting the above options as value for the env variable
LIB
Steps to Execute the Chaos Experiment
This Chaos Experiment can be triggered by creating a ChaosEngine resource on the cluster. To understand the values to provide in a ChaosEngine specification, refer Getting Started
Follow the steps in the sections below to create the chaosServiceAccount, prepare the ChaosEngine & execute the experiment.
Prepare chaosServiceAccount
- Use this sample RBAC manifest to create a chaosServiceAccount in the desired (app) namespace. This example consists of the minimum necessary role permissions to execute the experiment.
Sample Rbac Manifest
---
apiVersion: v1
kind: ServiceAccount
metadata:
name: ebs-loss-sa
namespace: default
labels:
name: ebs-loss-sa
app.kubernetes.io/part-of: litmus
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRole
metadata:
name: ebs-loss-sa
labels:
name: ebs-loss-sa
app.kubernetes.io/part-of: litmus
rules:
- apiGroups: ["","litmuschaos.io","batch"]
resources: ["pods","jobs","secrets","events","pods/log","chaosengines","chaosexperiments","chaosresults"]
verbs: ["create","list","get","patch","update","delete"]
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
name: ebs-loss-sa
labels:
name: ebs-loss-sa
app.kubernetes.io/part-of: litmus
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: ebs-loss-sa
subjects:
- kind: ServiceAccount
name: ebs-loss-sa
namespace: default
Prepare ChaosEngine
- Provide the application info in
spec.appinfo
- Provide the auxiliary applications info (ns & labels) in
spec.auxiliaryAppInfo
- Override the experiment tunables if desired in
experiments.spec.components.env
- To understand the values to provided in a ChaosEngine specification, refer ChaosEngine Concepts
Supported Experiment Tunables
Variables | Description | Specify In ChaosEngine | Notes |
---|---|---|---|
EC2_INSTANCE_ID | Instance Id of the target ec2 instance. | Mandatory | |
EBS_VOL_ID | The EBS volume id attached to the given instance | Mandatory | |
DEVICE_NAME | The device name which you wanted to mount | Mandatory | Defaults to '/dev/sdb' |
TOTAL_CHAOS_DURATION | The time duration for chaos insertion (sec) | Optional | Defaults to 60s |
REGION | The region name of the target instance | Optional | |
INSTANCE_ID | A user-defined string that holds metadata/info about current run/instance of chaos. Ex: 04-05-2020-9-00. This string is appended as suffix in the chaosresult CR name. | Optional | Ensure that the overall length of the chaosresult CR is still < 64 characters |
Sample ChaosEngine Manifest
apiVersion: litmuschaos.io/v1alpha1
kind: ChaosEngine
metadata:
name: nginx-chaos
namespace: default
spec:
annotationCheck: 'false'
engineState: 'active'
chaosServiceAccount: ebs-loss-sa
monitoring: false
# It can be retain/delete
jobCleanUpPolicy: 'delete'
experiments:
- name: ebs-loss
spec:
components:
env:
# set chaos duration (in sec) as desired
- name: TOTAL_CHAOS_DURATION
value: '60'
# Instance ID of the target ec2 instance
- name: EC2_INSTANCE_ID
value: ''
# provide EBS volume id attached to the given instance
- name: EBS_VOL_ID
value: ''
# Enter the device name which you wanted to mount only for AWS.
- name: DEVICE_NAME
value: '/dev/sdb'
# provide the region name of the instace
- name: REGION
value: ''
Create the ChaosEngine Resource
Create the ChaosEngine manifest prepared in the previous step to trigger the Chaos.
kubectl apply -f chaosengine.yml
If the chaos experiment is not executed, refer to the troubleshooting section to identify the root cause and fix the issues.
Watch Chaos progress
View the status of the pods as they are subjected to ebs loss.
watch -n 1 kubectl get pods -n <application-namespace>
Monitor the attachment status for ebs volume from AWS CLI.
aws ec2 describe-volumes --volume-ids <vol-id>
You can also use aws console to keep a watch over ebs attachment status.
Check Chaos Experiment Result
Check whether the application is resilient to the ebs loss, once the experiment (job) is completed. The ChaosResult resource name is derived like this:
<ChaosEngine-Name>-<ChaosExperiment-Name>
.kubectl describe chaosresult nginx-chaos-ebs-loss -n <application-namespace>
EBS Loss Experiment Demo
- A sample recording of this experiment execution will be added soon.