Setting up a distributed Kubernetes cluster along with Istio service mesh locally with Vagrant and VirtualBox
使用Vagrant和VirtualBox在本地搭建分布式Kubernetes集群和Istio Service Mesh - 中文
Setting up a Kubernetes cluster and istio service mesh with vagrantfile
which consists of 1 master(also as node) and 3 nodes. You don't have to create complicated CA files or configuration.
Because I want to setup the etcd, apiserver, controller and scheduler without docker container.
We will create a Kubernetes 1.11.0 cluster with 3 nodes which contains the components below:
IP | Hostname | Componets |
---|---|---|
172.17.8.101 | node1 | kube-apiserver, kube-controller-manager, kube-scheduler, etcd, kubelet, docker, flannel, dashboard |
172.17.8.102 | node2 | kubelet, docker, flannel、traefik |
172.17.8.103 | node3 | kubelet, docker, flannel |
The default setting will create the private network from 172.17.8.101 to 172.17.8.103 for nodes, and it will use the host's DHCP for the public IP.
The kubernetes service's VIP range is 10.254.0.0/16
.
The container network range is 170.33.0.0/16
owned by flanneld with host-gw
backend.
kube-proxy
will run as ipvs
mode.
- Host server with 8G+ mem(More is better), 60G disk, 8 core cpu at lease
- Vagrant 2.0+
- VirtualBox 5.0+
- Kubernetes 1.9+ (support the latest version 1.11.0)
- Across GFW to download the kubernetes files (For China users only)
- MacOS/Linux (Windows is not supported completely)
Required
- CoreDNS
- Dashboard
- Traefik
Optional
- Heapster + InfluxDB + Grafana
- ElasticSearch + Fluentd + Kibana
- Istio service mesh
- Helm
- Vistio
- Kiali
Clone this repo into your local machine and download kubernetes binary release first and move them into the root directory of this repo.
git clone https://github.com/rootsongjc/kubernetes-vagrant-centos-cluster.git
cd kubernetes-vagrant-centos-cluster
wget https://storage.googleapis.com/kubernetes-release/release/v1.11.0/kubernetes-server-linux-amd64.tar.gz
Note: you can find download address of the Kubernetes releases here.
Set up Kubernetes cluster with vagrant.
vagrant up
Wait about 10 minutes the kubernetes cluster will be setup automatically.
Note
If you have difficult to vagrant up the cluster because of have no way to downlaod the centos/7
box, you can download the box and add it first.
Add centos/7 box manually
wget -c http://cloud.centos.org/centos/7/vagrant/x86_64/images/CentOS-7-x86_64-Vagrant-1801_02.VirtualBox.box
vagrant box add CentOS-7-x86_64-Vagrant-1801_02.VirtualBox.box --name centos/7
The next time you run vagrant up
, vagrant will import the local box automatically.
For Windows
While running vagrant up
in Windows, you will see the following output:
G:\code\kubernetes-vagrant-centos-cluster>vagrant up
Bringing machine 'node1' up with 'virtualbox' provider...
Bringing machine 'node2' up with 'virtualbox' provider...
Bringing machine 'node3' up with 'virtualbox' provider...
==> node1: Importing base box 'centos/7'...
==> node1: Matching MAC address for NAT networking...
==> node1: Setting the name of the VM: node1
==> node1: Clearing any previously set network interfaces...
==> node1: Specific bridge 'en0: Wi-Fi (AirPort)' not found. You may be asked to specify
==> node1: which network to bridge to.
==> node1: Available bridged network interfaces:
1) Realtek PCIe GBE Family Controller
2) TAP-Windows Adapter V9
==> node1: When choosing an interface, it is usually the one that is
==> node1: being used to connect to the internet.
node1: Which interface should the network bridge to?
node1: Which interface should the network bridge to?
Press 1
to continue. (Choose the corresponding network interface for node2 and node3)
You will see these output while node3 is going to be complete:
node3: Created symlink from /etc/systemd/system/multi-user.target.wants/kubelet.service to /usr/lib/systemd/system/kubelet.service.
node3: Created symlink from /etc/systemd/system/multi-user.target.wants/kube-proxy.service to /usr/lib/systemd/system/kube-proxy.service.
node3: deploy coredns
node3: /tmp/vagrant-shell: ./dns-deploy.sh: /bin/bash^M: bad interpreter: No such file or directory
node3: error: no objects passed to apply
node3: /home/vagrant
Solution:
vagrant ssh node3
sudo -i
cd /vagrant/addon/dns
yum -y install dos2unix
dos2unix dns-deploy.sh
./dns-deploy.sh -r 10.254.0.0/16 -i 10.254.0.2 |kubectl apply -f -
There are 3 ways to access the kubernetes cluster.
- on local
- login to VM
- Kubernetes dashboard
local
In order to manage the cluster on local you should Install kubectl
command line tool first.
Go to Kubernetes release notes, download the client binaries, unzip it and then move kubectl
to your $PATH
folder, for MacOS:
wget https://storage.googleapis.com/kubernetes-release/release/v1.11.0/kubernetes-client-darwin-amd64.tar.gz
tar xvf kubernetes-client-darwin-amd64.tar.gz && cp kubernetes/client/bin/kubectl /usr/local/bin
Copy conf/admin.kubeconfig
to ~/.kube/config
, using kubectl
CLI to access the cluster.
mkdir -p ~/.kube
cp conf/admin.kubeconfig ~/.kube/config
We recommend you fellow this way.
VM
Login to the virtual machine for dubuging. In most situations, you have no need to login the VMs.
vagrant ssh node1
sudo -i
kubectl get nodes
Kubernetes dashboard
Kubernetes dashboard URL: https://172.17.8.101:8443
Get the admin token:
kubectl -n kube-system describe secret `kubectl -n kube-system get secret|grep admin-token|cut -d " " -f1`|grep "token:"|tr -s " "|cut -d " " -f2
Note: You can see the token message on console when vagrant up
done.
Only if you install the heapter addon bellow that you can see the metrics.
Visit from Chrome/Firefox on Windows
If you see the hint NET::ERR_CERT_INVALID
, follow these steps:
vagrant ssh node1
sudo -i
cd /vagrant/addon/dashboard/
mkdir certs
openssl req -nodes -newkey rsa:2048 -keyout certs/dashboard.key -out certs/dashboard.csr -subj "/C=/ST=/L=/O=/OU=/CN=kubernetes-dashboard"
openssl x509 -req -sha256 -days 365 -in certs/dashboard.csr -signkey certs/dashboard.key -out certs/dashboard.crt
kubectl delete secret kubernetes-dashboard-certs -n kube-system
kubectl create secret generic kubernetes-dashboard-certs --from-file=certs -n kube-system
kubectl delete pods $(kubectl get pods -n kube-system|grep kubernetes-dashboard|awk '{print $1}') -n kube-system #re-install dashboard
Refresh the browser and click Advance
, skip it. You will see the dashboard page there.
Heapster monitoring
Run this command on your local machine.
kubectl apply -f addon/heapster/
Append the following item to your local /etc/hosts
file.
172.17.8.102 grafana.jimmysong.io
Open the URL in browser: http://grafana.jimmysong.io
Traefik
Run this command on your local machine.
kubectl apply -f addon/traefik-ingress
Append the following item to your local file /etc/hosts
.
172.17.8.102 traefik.jimmysong.io
Traefik UI URL: http://traefik.jimmysong.io
EFK
Run this command on your local machine.
kubectl apply -f addon/efk/
Note: Powerful CPU and memory allocation required. At least 4G per virtual machine.
Helm
Run this command on your local machine.
hack/deploy-helm.sh
We use istio as the default service mesh.
Installation
Go to Istio release to download the binary package, install istio command line tool on local and move istioctl
to your $PATH
folder, for Mac:
wget https://github.com/istio/istio/releases/download/1.0.0/istio-1.0.0-osx.tar.gz
tar xvf istio-1.0.0-osx.tar.gz
mv bin/istioctl /usr/local/bin/
Deploy istio into Kubernetes:
kubectl apply -f addon/istio/istio-demo.yaml
kubectl apply -f addon/istio/istio-ingress.yaml
Run sample
We will let the sidecars be auto injected.
kubectl label namespace default istio-injection=enabled
kubectl apply -n default -f yaml/istio-bookinfo/bookinfo.yaml
kubectl apply -n default -f yaml/istio-bookinfo/bookinfo-gateway.yaml
Add the following items into the file /etc/hosts
of your local machine.
172.17.8.102 grafana.istio.jimmysong.io
172.17.8.102 prometheus.istio.jimmysong.io
172.17.8.102 servicegraph.istio.jimmysong.io
We can see the services from the following URLs.
More detail see https://istio.io/docs/guides/bookinfo.html
Vizceral is an open source project released by Netflix to monitor network traffic between applications and clusters in near real time. Vistio is an adaptation of Vizceral for Istio and mesh monitoring. It utilizes metrics generated by Istio Mixer which are then fed into Prometheus. Vistio queries Prometheus and stores that data locally to allow for the replaying of traffic.
Run the following commands in your local machine.
# Deploy vistio via kubectl
kubectl -n default apply -f addon/vistio/
# Expose vistio-api
kubectl -n default port-forward $(kubectl -n default get pod -l app=vistio-api -o jsonpath='{.items[0].metadata.name}') 9091:9091 &
# Expose vistio in another terminal window
kubectl -n default port-forward $(kubectl -n default get pod -l app=vistio-web -o jsonpath='{.items[0].metadata.name}') 8080:8080 &
If everything up until now is working you should be able to load the Vistio UI in your browser http://localhost:8080
More details see Vistio — Visualize your Istio Mesh Using Netflix’s Vizceral.
Kiali is a project to help observability for the Istio service mesh, see https://kiali.io.
Run the following commands in your local machine.
kubectl apply -n istio-system -f addon/kiali
Kiali web: http://172.17.8.101:32439
User/password: admin/admin
Note: Kiali use jaeger for tracing. Do not block the pop-up windows for kiali.
Weave scope is a project for monitoring, visualisation & management for Docker & Kubernetes, see https://www.weave.works/oss/scope/
Run the following commands in your local machine.
kubectl apply -f addon/weave-scope
Add a record on your local /etc/hosts
.
172.17.8.102 scope.weave.jimmysong.io
Now open your browser on http://scope.weave.jimmysong.io/
Except for special claim, execute the following commands under the current git repo's root directory.
Suspend the current state of VMs.
vagrant suspend
Resume the last state of VMs.
vagrant resume
Note: every time you resume the VMs you will find that the machine time is still at you last time you suspended it. So consider to halt the VMs and restart them.
Halt the VMs and up them again.
vagrant halt
vagrant up
# login to node1
vagrant ssh node1
# run the prosivision scripts
/vagrant/hack/k8s-init.sh
exit
# login to node2
vagrant ssh node2
# run the prosivision scripts
/vagrant/hack/k8s-init.sh
exit
# login to node3
vagrant ssh node3
# run the prosivision scripts
/vagrant/hack/k8s-init.sh
sudo -i
cd /vagrant/hack
./deploy-base-services.sh
exit
Now you have provisioned the base kubernetes environments and you can login to kubernetes dashboard, run the following command at the root of this repo to get the admin token.
hack/get-dashboard-token.sh
Following the hint to login.
Clean up the VMs.
vagrant destroy
rm -rf .vagrant
Only use for development and test, don't use it in production environment.
- Kubernetes Handbook - jimmysong.io
- duffqiu/centos-vagrant
- coredns/deployment
- kubernetes ipvs
- Vistio — Visualize your Istio Mesh Using Netflix’s Vizceral
Follow the ServiceMesher community on twitter to get more information about Istio and service mesh.