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This source installs and configures a (local) Kubernetes cluster from scratch, and deploys a Python/Flask workload onto n nodes, providing a way to create and measure CPU load on them.

The purpose of this rather academic project is to get into K8s and to learn how to communicate with the Pods/Deployment.

Since I had to start somewhere, I'm assuming a regular Linux user with sudo/root access, and the group names "kube" and "docker" for the respective services. I used Arch Linux/Pacman on my test, a realistic scenario would be it's own instance with Alpine Linux.

Notes

I got stuck in the Routing and Proxying realm of K8s, so the Loadbalancer Deployment doesn't work yet and the fun part begins only there: Do statistics over different scenarios and – ultimately – provide fancy graphics!

Usually one would use the stress/stress_ng cmdline tool for this kind of scenario, but I resorted to some simple Float arithmetics for now.

I also had to considerably upgrade my host on AWS: Kubernetes, even Minikube just doesn't run nicely on 1 vcore, with never-enough RAM, and it wouldn't provide useful data anyway. On the bright side, vertically scaling MyLittleEC2 instance was really easy.

The stress method returns only after $STRESSTIME seconds, which is braindead. I'd solve that with fork/SIGALARM IPC, if I had the time.

Flask daemon should return plain json.

Install docker, dockerd, kubernetes, pip, the stress cmdline tool

sudo pacman -Sy docker ethtool wget unzip containerd
sudo pacman -Sy minikube
sudo pacman -Sy python-pip

Install etcd from AUR (https://aur.archlinux.org/etcd.git)

sudo pacman -Sy go 
mkdir pkg && cd pkg
git clone https://aur.archlinux.org/etcd.git
cd etcd
makepkg 
sudo pacman -U etcd-.*.pkg.tar.zst 
cd ../..

Install required python modules

sudo pip install -r requirements.txt

Doing sudo pip makes sure to install the necessary Python modules system-wide. (Only needed for locally testing main.py.)

Flask Workload

This was taken from https://github.com/JasonHaley/hello-python.git, and extended by the CPU stressing and Load Average functions.

.
├── app
│   ├── main.py
│   └── requirements.txt
├── docker
│   └── Dockerfile
├── kubernetes
│   └── deployment.yaml
├── LICENSE
└── README.md
Url Description Output
/stress Create CPU load for 60 seconds. hostname, seconds
/cpu Return LoadAverage (psutil.getloadavg()[0]) hostname, load
/insight Environment of the current pod/process. environment

Install Workload on Docker and Kubernetes

docker image rm load-and-stress
docker build -f Dockerfile -t load-and-stress:latest . 
minikube start
eval $(minikube docker-env) 
kubectl delete deployment --all 
kubectl apply -f deployment.yaml
kubectl replace --force -f deployment.yaml 
# kubectl expose deployment load-and-stress --type=LoadBalancer --port=8080
minikube tunnel > /dev/null 2>&1 & 
minikube proxy >/dev/null 2>&1 &
kubectl get svc
url=$(kubectl get svc|grep load-and-stress|grep 8080| sed -e 's#  *#\t#gi'| cut -f 4,5 | cut -f 1 -d:| sed -e 's#\t#:#')
echo "http://${url}/"

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