raynix 筆記 – There’s no spoon.

November 30, 2019

Fedora 31, Optimus, Bumblebee and Steam

My laptop(XPS 15) has Nvidia 1050 Ti but I never used it to play games, because I replaced Windows 10 with Fedora Linux on the first day, not even a dual boot. I’ve tried Bumblebee to run Linux native games on Nvidia a few years ago but it wasn’t stable enough.

After I upgraded the laptop to Fedora 31, I decided to give Bumblebee another try. Luckily I got it working just by following instructions here. With very little efforts, I got Nvidia Settings and GLXSpheres working.

And it’s almost a no-brainer to launch Steam Linux native games with an extra launch option optirun -b primus %command%

That’s it, now I can play my Steam games on my Linux laptop 🙂

October 19, 2019

Golang and Docker Multi-Stage Build MK2

In my previous post I used Docker multi stage technique to build a Docker container image which only has the golang executable in a tiny Alpine Linux base image. I’ll go further to use the scratch base image which has basically nothing.

Here’s the Dockerfile I tested on my own project, I’ve also added comments to help understand important lines:

FROM golang:1.13.1 AS builder

# ENVs to ensure golang will need no external libraries
ENV CGO_ENABLED=0 GOOS=linux
WORKDIR /app
COPY . .
# build switches to ensure golang will need no external libraries
RUN go build -a -installsuffix cgo -o myapp main.go && \
# create non-privileged user and group to run the app
  addgroup --system --gid 2000 golang && \
  adduser --system --gid 2000 --uid 2000 golang

FROM scratch
# some sample ENVs for the app
ENV API_KEY=xxx \
  API_EMAIL=xxx
WORKDIR /app
# copy the golang executable over
COPY --from=builder /app/myapp .
# scratch has no adduser command so just copy the files from builder
COPY --from=builder /etc/passwd /etc/passwd
COPY --from=builder /etc/group /etc/group
# use the CA cert from builder to enable HTTPS access
COPY --from=builder /etc/ssl/certs/ca-certificates.crt /etc/ssl/certs/
USER golang
# run the executable directly
ENTRYPOINT ["/app/myapp"]

The result image is only 7.7MB, only 1MB larger than the golang app itself. 🙂

October 4, 2019October 7, 2019

Deploy WordPress to Kubernetes with Kustomize

I’ve just migrated this blog site itself into the kubernetes cluster I built with Raspberry Pi 4s, and this post is about the steps and approach I used to achieve this goal. Yes, what you have been reading is served by 1 of the Raspberry Pi boards.

First of all, a bit introduction on kustomize: It’s a bit late to the game but better late than never. Since kubectl v1.14, kustomize has been merged as a switch like kubectl apply -k test.yaml ...

I guess the reason behind something like kustomize is when a guy like me deploying apps into k8s clusters, it’s actually a lot of “YAML engineering”, ie. writing YAML files for the Namespace, Deployment, Service, etc. It’s OK to do it for the first time, but very soon I felt repeating myself with all those metadata or annotation tags.

helm is the other tool to manage kubernetes schema files and it started quite earlier than kustomize. I never liked it though. A sample helm chart template looks like this. The main reason I don’t like it is that it brings placeholders like {{ .Values.stuff }} into yaml and they are everywhere, just like good old asp/jsp templates, this makes the template no longer a valid YAML any more. Also I’m not a fan to put a lot of logic into configuration files.

Here’s a very good blog on how to kustomize. With kustomize I can put values associated with some conditions, eg. git branch, or ops environments, etc. into YAML files without any efforts to template the original schema, which enabling me to check-in the base schema into a public repository without the need to worry if I put any database password there.

Here’s the github repository where I store the YAML files which I used to deploy wordpress into my cluster, including following implementations:

Namespace for each installation
typical WordPress on PHP7.2-FPM and nginx containers running as non-root user
K8s PersistedVolume on NFS shared partition for files, eg. photos, plug-ins, etc.
Redis cache for PHP session
Ingress routing for nginx-ingress-controller

The wordpress-base directory has almost all the schema and with some dummy values. And the wordress-site directory has kustomize patch files which should hold your domain name, NFS server address for storage, etc.

To reuse my schema, you can simply duplicate the wordpress-site directory along side with the wordpress-base directory and put in real configuration as fit. Such as:

pik8s/
  + wordpress-base/
  + wordpress-site/
  + wordpress-mysite/

Then assuming you’ve configured kubectl, database and NFS already, you can preview the wordpress deployment with:

# in pik8s/wordpress-mysite/
$ kubectl apply -k . --dry-run -o yaml |less

And do the real thing without the --dry-run switch.

But the secret referenced in deploy.yaml is not checked in obviously. You need to create it manually with:

# prepare files to be used in the secret
$ echo -n 'mydbpass' > dbpass
# do the similar for dbhost, dbname, dbuser
...
# then create the secret
$ kubectl create secret --namespace wordpress-mysite generic wordpress-secret --from-file=dbuser --from-file=dbhost --from-file=dbname --from-file=dbpass

🙂

September 25, 2019October 28, 2019

Kubernetes at Home on Raspberry Pi 4, Part 3

Continue from part 2, this is mostly about installing ingress controller. In short, an ingress controller is like a single entry point for all ingress connections into the cluster.

The reason I chose Flannel over other CNIs is that it’s lightweight and not bloated with features. I would like to keep the Pi 4s easy before they are tasked with anything. Same reason I’ll install nginx-ingress-controller to have control with ingress. MetalLB looks a good fit for A Raspberry Pi cluster but I’ll pass at this moment, because this is more like a hobby project, if the load is really high and redundancy is necessary I’ll probably use AWS or GCP which has decent load balancers.

The official nginx-ingress-controller image at quay.io doesn’t seem to support armhf/armv7 architecture, so I built one myself here. To deploy the ingress controller schema but using my own container image, I chose kustomize for the little tweak. (Also kustomize has been integrated into kubectl v1.14+).

First I downloaded the official nginx-ingress-controller schema:

$ wget https://raw.githubusercontent.com/kubernetes/ingress-nginx/master/deploy/static/mandatory.yaml
$ wget https://raw.githubusercontent.com/kubernetes/ingress-nginx/master/deploy/static/provider/baremetal/service-nodeport.yaml

Then I use kustomize to replace the container image with my own:

$ cat <<EOF >kustomization.yaml
apiVersion: kustomize.config.k8s.io/v1beta1
kind: Kustomization
resources:
  - mandatory.yaml
  - service-nodeport.yaml 
images:
  - name: quay.io/kubernetes-ingress-controller/nginx-ingress-controller
    newName: raynix/nginx-ingress-controller-arm
    newTag: 0.25.1
EOF
# then there should be 3 files in current directory
$ ls
kustomization.yaml  mandatory.yaml  service-nodeport.yaml
# install with kubectl
$ kubectl apply -k .

To see the node port for this ingress controller, do

$ k get --namespace ingress-nginx svc
 NAME            TYPE       CLUSTER-IP     EXTERNAL-IP   PORT(S)                      AGE
 ingress-nginx   NodePort   10.100.0.246           80:32283/TCP,443:30841/TCP   7d14h

In the upstream nginx or HAProxy box, a static route can be set to route traffic to ingress controller:

$ sudo ip route add 10.100.0.0/24 \
  nexthop via <node1 LAN IP> dev <LAN interface> weight 1 \
  nexthop via <node2 LAN IP> dev <LAN interface> weight 1
$ sudo ip route
...
10.100.0.0/24 
     nexthop via 192.168.1.101 dev enp0xxx weight 1 
     nexthop via 192.168.1.102 dev enp0xxx weight 1  
...

To make the above route permanent, add the following line into /etc/network/interfaces (this is for ubuntu, other distro may defer)

iface enp0s1f1 inet static
...
up ip route add 10.100.0.0/24 nexthop via 192.168.1.81 dev enp0s31f6 weight 1 nexthop via 192.168.1.82 dev enp0s1f1 weight 1

To test if the ingress controller is visible from the upstream box, do

$ curl -H "Host: nonexist.com" http://10.100.0.246
<html>
<head><title>404 Not Found</title></head>
<body>
<center><h1>404 Not Found</h1></center>
<hr><center>openresty/1.15.8.1</center>
</body>
</html>

Now the ingress controller works 🙂