How to install and use Gremlin locally with Kubernetes

How to install and use Gremlin locally with Kubernetes
Tammy Butow
Tammy Butow
Principal SRE

This tutorial explains how to install and use Gremlin locally with Kubernetes. You will run a Chaos Engineering experiment using Gremlin to inject packet loss to a Kubernetes pod running the frontend of a microservices e-commerce store.

Prerequisites

Before you begin this tutorial, you'll need the following:

  • An Ubuntu server
  • A Gremlin account

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Additional Kubernetes tutorials to try

Step 1.0 - Install Docker For Mac

First you will need to install Docker For Mac if you do not yet have it on your local computer, follow the instructions provided by Docker. Next enable Kubernetes, by clicking Enable Kubernetes and Show system containers (advanced). Then click apply:

install k8s

Step 2.0 - Confirm your local Kubernetes cluster has been created

Run the following command:

bash
1kubectl cluster-info

You will see the following output:

1Kubernetes master is running at https://localhost:6443
2
3KubeDNS is running at https://localhost:6443/api/v1/namespaces/kube-system/services/kube-dns:dns/proxy

Step 3.0 - Create a local Gremlin directory

Next create a folder on your Desktop to store files you will need for Kubernetes and Gremlin authentication.

bash
1cd Desktop
2mkdir gremlin
3cd gremlin

Step 4.0 - Setup a Kubernetes Add-On for Networking Features and Policy

Weave Net is a virtual network that helps simplify container networking and provides automatic service discovery. Install Weave Net by running:

bash
1kubectl apply -f "https://cloud.weave.works/k8s/net?k8s-version=$(kubectl version | base64 | tr -d '\n')"

You will see the following result:

1serviceaccount "weave-net" created
2clusterrole "weave-net" created
3clusterrolebinding "weave-net" created
4role "weave-net" created
5rolebinding "weave-net" created
6daemonset "weave-net" created

It may take a minute or two for DNS to be ready, run the following command to check for DNS to be ready:

bash
1kubectl get pods --all-namespaces

The successful result will look like this, every container should be running:

1NAMESPACE NAME READY STATUS RESTARTS AGE
2kube-system etcd-kube-01 1/1 Running 0 5m
3kube-system kube-apiserver-kube-01 1/1 Running 0 6m
4kube-system kube-controller-manager-kube-01 1/1 Running 0 5m
5kube-system kube-dns-6f4fd4bdf-whbhd 3/3 Running 0 6m
6kube-system kube-proxy-2hdhk 1/1 Running 0 6m
7kube-system kube-proxy-tvhjk 1/1 Running 0 5m
8kube-system kube-proxy-wspmv 1/1 Running 0 5m
9kube-system kube-scheduler-kube-01 1/1 Running 0 6m
10kube-system weave-net-9ghn5 2/2 Running 1 5m
11kube-system weave-net-lh8tq 2/2 Running 0 5m
12kube-system weave-net-qhr25 2/2 Running 0

Congratulations, now your Kubernetes cluster running on Ubuntu 16.04 is up and ready for you to deploy a microservices application.

Step 5.0 - Deploying the Weaveworks Microservices Sock Shop

First you will need to download the Weaveworks Microservices Sock Shop demo app to your Gremlin folder, run the following command:

bash
1git clone https://github.com/microservices-demo/microservices-demo.git

Create a namespace for your Sock Shop demo app:

bash
1kubectl create namespace sock-shop

You will see the following result:

bash
1namespace "sock-shop" created

Navigate to the microservices-demo/deploy/kubernetes folder:

bash
1cd microservices-demo/deploy/kubernetes

Next apply the demo to your kubernetes cluster:

bash
1kubectl apply -f complete-demo.yaml

Check to confirm that all the Sock Shop pods are now running:

bash
1kubectl get pods --namespace sock-shop

You will see the following result when all pods are ready, they will have the status of “Running”:

1NAMESPACE NAME READY STATUS RESTARTS AGEdefault carts-db-784446fdd6-kp7sm 1/1 Running 0 1mdefault gremlin-8xbnm 1/1 Running 0 1mdocker compose-74649b4db6-xdkwf 1/1 Running 0 1mdocker compose-api-6ff6b7fb4f-g29km 1/1 Running 0 1mkube-system etcd-docker-for-desktop 1/1 Running 2 1mkube-system kube-apiserver-docker-for-desktop 1/1 Running 2 1mkube-system kube-controller-manager-docker-for-desktop 1/1 Running 2 1mkube-system kube-dns-86f4d74b45-4n8b6 3/3 Running 3 1mkube-system kube-proxy-dsqqf 1/1 Running 1 1mkube-system kube-scheduler-docker-for-desktop 1/1 Running 2 1mkube-system weave-net-wsbk9 2/2 Running 3 1msock-shop carts-6cd457d86c-x6vjs 1/1 Running 0 1msock-shop carts-db-784446fdd6-dxkvx 1/1 Running 0 1msock-shop catalogue-779cd58f9b-hk4vr 1/1 Running 0 1msock-shop catalogue-db-6794f65f5d-7bzr4 1/1 Running 0 1msock-shop front-end-679d7bcb77-m2995 1/1 Running 0 1msock-shop orders-755bd9f786-w46z4 1/1 Running 0 1msock-shop orders-db-84bb8f48d6-nfzlq 1/1 Running 0 1msock-shop payment-674658f686-6br5w 1/1 Running 0 1msock-shop queue-master-5f98bbd67-gfhxx 1/1 Running 0 1msock-shop rabbitmq-86d44dd846-sqt7f 1/1 Running 0 1msock-shop shipping-79786fb956-z8xxg 1/1 Running 0 1msock-shop user-6995984547-lk9dg 1/1 Running 0 1msock-shop user-db-fc7b47fb9-xsqzw 1/1 Running 0 1m

Visit http://localhost:30001/ to see the Sock Shop running:

sock shop

Step 6.0 - Install the Gremlin agent with Helm

Step 6.1 - Retrieve Your Team ID and Secret Key

To install the Gremlin agent and Kubernetes client, you will need your Gremlin Team ID and Secret Key. If you already know what those are, you can skip to step 3.2. If you don’t know what your Team ID and Secret Key are, you can get them from the Gremlin web app.

Visit the Teams page in Gremlin, and then click on your team’s name in the list.

Gremlin Teams page

On the Teams screen click on Configuration.

Teams Configuration screen

Make a note of your Team ID.

If you don’t know your Secret Key, you will need to reset it. Click the Reset button. You’ll get a popup reminding you that any running clients using the current Secret Key will need to be configured with the new key. Hit Continue.

Next you’ll see a popup screen that will show you the new Secret Key. Make a note of it.

Secret Key popup

Step 6.2 - Install the Gremlin Agent

The simplest way to install the Gremlin agent on your Kubernetes cluster is to use Helm. If you would prefer to use yaml files using kubectl directly, you can find the Gremlin Kubernetes yaml files in the Gremlin Docs.

If you do not already have Helm installed, go here to get started. Once Helm is installed and configured, the next steps are to add the Gremlin repo and install the client.

Add the Gremlin Helm chart:

bash
1helm repo add gremlin https://helm.gremlin.com

Create a namespace for the Gremlin Kubernetes client:

bash
1kubectl create namespace gremlin

Next you will run the helm command to install the Gremlin client. In this command there are three placeholder variables that you will need to replace with real data. Replace $GREMLIN_TEAM_ID with your Team ID from step1, and replace $GREMLIN_TEAM_SECRET with your Secret Key from step 1. Replace $GREMLIN_CLUSTER_ID with a name for the cluster.

If you are using Helm v3, run this command:

bash
1helm install gremlin gremlin/gremlin \
2 --namespace gremlin \
3 --set gremlin.secret.managed=true \
4 --set gremlin.secret.type=secret \
5 --set gremlin.secret.teamID=$GREMLIN_TEAM_ID \
6 --set gremlin.secret.clusterID=$GREMLIN_CLUSTER_ID \
7 --set gremlin.secret.teamSecret=$GREMLIN_TEAM_SECRET

For older versions of Helm, use the --name option:

bash
1helm install gremlin/gremlin \
2 --name gremlin \
3 --namespace gremlin \
4 --set gremlin.secret.managed=true \
5 --set gremlin.secret.type=secret \
6 --set gremlin.secret.teamID=$GREMLIN_TEAM_ID \
7 --set gremlin.secret.clusterID=$GREMLIN_CLUSTER_ID \
8 --set gremlin.secret.teamSecret=$GREMLIN_TEAM_SECRET

If you’re not sure which version of Helm you’re using, run this command:

bash
1helm version

For more information on the Gremlin Helm chart, including more configuration options, check out the chart on Github.

Step 7.0 - Installing the Datadog agent using a Kubernetes Daemonset

To install Datadog in a Kubernetes pod you can use the Datadog Kubernetes easy one-step install. It will take a few minutes for Datadog to spin up the Datadog container, collect metrics on your existing containers and display them in the Datadog App.

datadog api key

You will simple copy the Kubernetes DaemonSet, save it as datadog-agent.yaml and then run the following command:

bash
1kubectl apply -f datadog-agent.yaml

To confirm that the Datadog agent pod is now up, run the following command:

bash
1kubectl get pods -n default

You will see the following output:

1NAME READY STATUS RESTARTS AGE
2datadog-agent-4kbq8 1/1 Running 0 1m
3gremlin-tj6wl 1/1 Running 0 17m

Step 8.0 - Performing a Packet Loss Attack using Gremlin

Now you are ready to start performing your Chaos Engineering experiments. The first experiment we will run will be a packet loss attack on the front-end Kubernetes deployment for the Sock Shop.

In the Gremlin UI, click on Attacks in the left navigation bar and then New Attack. Then click on Kubernetes on the right. You can select the cluster you’d like to attack, and the sock-shop namespace to filter the objects available to attack.

Gremlin Kubernetes

Next, click on Deployments to expand the list of Kubernetes deployments that are available, and click on front-end.

Click on Front End

Scroll down and click Choose a Gremlin. Select Network, and Packet loss.

Choose a Gremlin

In the next section below we can customize the attack settings. Scroll down to the bottom of the list and input 60 for the percentage of packet loss to apply in the attack. Then click the green Unleash Gremlin button.

Now refresh the Sock Shop at http://localhost:30001/ and see the impact to the UI. You will notice that none of the items in the store will load.

sock shop no items

This type of Chaos Engineering experiment enables you to see how your application handles packet loss. It also enables you to view the experience of your customer.

Conclusion

You have now successfully run a Chaos Engineering experiment using Gremlin which injected packet loss to a Kubernetes pod running the frontend of a microservices e-commerce store. Next, we recommend trying Kubernetes recommended scenarios in Gremlin, which you can use to simulate failures, such as a node shutdown or CPU throttle.

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