kubernetes-the-hard-way/docs/05-apiserver.md

# Api Server

In this section, we will configure kubernetes API server.

> The Kubernetes API server validates and configures data for the api objects which include pods, services, replicationcontrollers, and others. The API Server services REST operations and provides the frontend to the cluster's shared state through which all other components interact.

As you can see from the description, api server is a central (not the main) component of kubernetes cluster.

![image](./img/05_cluster_architecture_apiserver.png "Kubelet")

## certificates

Before we begin with the configuration of the api server, we need to create certificates for kubernetes that will be used to sign service account tokens.
```bash
{
cat > service-account-csr.json <<EOF
{
  "CN": "service-accounts",
  "key": {
    "algo": "rsa",
    "size": 2048
  },
  "names": [
    {
      "C": "US",
      "L": "Portland",
      "O": "Kubernetes",
      "OU": "Kubernetes The Hard Way",
      "ST": "Oregon"
    }
  ]
}
EOF

cfssl gencert \
  -ca=ca.pem \
  -ca-key=ca-key.pem \
  -config=ca-config.json \
  -profile=kubernetes \
  service-account-csr.json | cfssljson -bare service-account
}
```

Now, we need to distribute certificates to the api server configuration folder
```bash
{
  mkdir /var/lib/kubernetes/
  sudo cp \
    ca.pem \
    kubernetes.pem kubernetes-key.pem \
    service-account-key.pem service-account.pem \
    /var/lib/kubernetes/
}
```

As you can see, in addition to the generated service-account certificate file, we also distributed the certificate generated in the [previous](./04-etcd.md) section. We will use that certificate for communication between 
- api server and etcd
- as certificate when comunication with api server

Also, we will use the ca file to validate the certificate files of the other components that communicate with the api server.

## data encryption

Also, we will configure the api server to encrypt sensitive data (secrets) before saving it to the etcd database. To do that we need to create the encryption config file.
```bash
{
ENCRYPTION_KEY=$(head -c 32 /dev/urandom | base64)

cat > /var/lib/kubernetes/encryption-config.yaml <<EOF
kind: EncryptionConfig
apiVersion: v1
resources:
  - resources:
      - secrets
    providers:
      - aescbc:
          keys:
            - name: key1
              secret: ${ENCRYPTION_KEY}
      - identity: {}
EOF
}
```
This config says api server to encrypt secrets before storing them in the etcd (with the usage of aescbc encryption provider).

## service configuration

Now, when all required configuration/certificate files are created and distributed to the proper folders, we can download binaries and enable api server as a service.

First of all, we need to download and install api server binaries

```bash
{
  wget -q --show-progress --https-only --timestamping \
    "https://storage.googleapis.com/kubernetes-release/release/v1.21.0/bin/linux/amd64/kube-apiserver"
    chmod +x kube-apiserver
  sudo mv kube-apiserver /usr/local/bin/
}
```

And create the service configuration file

```bash
cat <<EOF | sudo tee /etc/systemd/system/kube-apiserver.service
[Unit]
Description=Kubernetes API Server
Documentation=https://github.com/kubernetes/kubernetes

[Service]
ExecStart=/usr/local/bin/kube-apiserver \\
  --allow-privileged='true' \\
  --audit-log-maxage='30' \\
  --audit-log-maxbackup='3' \\
  --audit-log-maxsize='100' \\
  --audit-log-path='/var/log/audit.log' \\
  --authorization-mode='Node,RBAC' \\
  --bind-address='0.0.0.0' \\
  --client-ca-file='/var/lib/kubernetes/ca.pem' \\
  --enable-admission-plugins='NamespaceLifecycle,NodeRestriction,LimitRanger,ServiceAccount,DefaultStorageClass,ResourceQuota' \\
  --etcd-cafile='/var/lib/kubernetes/ca.pem' \\
  --etcd-certfile='/var/lib/kubernetes/kubernetes.pem' \\
  --etcd-keyfile='/var/lib/kubernetes/kubernetes-key.pem' \\
  --etcd-servers='https://127.0.0.1:2379' \\
  --event-ttl='1h' \\
  --encryption-provider-config='/var/lib/kubernetes/encryption-config.yaml' \\
  --kubelet-certificate-authority='/var/lib/kubernetes/ca.pem' \\
  --kubelet-client-certificate='/var/lib/kubernetes/kubernetes.pem' \\
  --kubelet-client-key='/var/lib/kubernetes/kubernetes-key.pem' \\
  --runtime-config='api/all=true' \\
  --service-account-key-file='/var/lib/kubernetes/service-account.pem' \\
  --service-cluster-ip-range='10.32.0.0/24' \\
  --service-node-port-range='30000-32767' \\
  --tls-cert-file='/var/lib/kubernetes/kubernetes.pem' \\
  --tls-private-key-file='/var/lib/kubernetes/kubernetes-key.pem' \\
  --service-account-signing-key-file='/var/lib/kubernetes/service-account-key.pem' \\
  --service-account-issuer='https://kubernetes.default.svc.cluster.local' \\
  --api-audiences='https://kubernetes.default.svc.cluster.local' \\
  --v='2'
Restart=on-failure
RestartSec=5

[Install]
WantedBy=multi-user.target
EOF
```

Configuration options I want to highlight:
- client-ca-file - certificate file which will be used to validate client certificates and authenticate users

Now, when api-server service is configured, we can start it
```bash
{
  sudo systemctl daemon-reload
  sudo systemctl enable kube-apiserver
  sudo systemctl start kube-apiserver
}
```

And check the service status
```bash
sudo systemctl status kube-apiserver
```

Output:
```
● kube-apiserver.service - Kubernetes API Server
     Loaded: loaded (/etc/systemd/system/kube-apiserver.service; enabled; vendor preset: enabled)
     Active: active (running) since Thu 2023-04-20 11:04:29 UTC; 22s ago
       Docs: https://github.com/kubernetes/kubernetes
   Main PID: 12566 (kube-apiserver)
      Tasks: 8 (limit: 2275)
     Memory: 291.6M
     CGroup: /system.slice/kube-apiserver.service
             └─12566 /usr/local/bin/kube-apiserver --advertise-address=91.107.220.4 --allow-privileged=true --apiserver-count=3 --audit-log-maxage=30 --audit-log-maxbackup=3 --audit-log-m>
...
```

## verify
Now, when our server is up and running, we want to communicate with it. To do that we will use kubectl tool. So let's download and install it

```bash
wget -q --show-progress --https-only --timestamping \
  https://storage.googleapis.com/kubernetes-release/release/v1.21.0/bin/linux/amd64/kubectl \
  && chmod +x kubectl \
  && sudo mv kubectl /usr/local/bin/
```

As the api server is configured in more or less secure mode, we need to provide some credentials when accessing it. We will use certificate files as the credentials. That is why we need to generate a proper certificate file that will allow us to access api server with administrator privileges
```bash
{
cat > admin-csr.json <<EOF
{
  "CN": "admin",
  "key": {
    "algo": "rsa",
    "size": 2048
  },
  "names": [
    {
      "C": "US",
      "L": "Portland",
      "O": "system:masters",
      "OU": "Kubernetes The Hard Way",
      "ST": "Oregon"
    }
  ]
}
EOF

cfssl gencert \
  -ca=ca.pem \
  -ca-key=ca-key.pem \
  -config=ca-config.json \
  -profile=kubernetes \
  admin-csr.json | cfssljson -bare admin
}
```

Now, when our certificate file is generated, we can use it in kubectl. To do that we will update the default kubectl config file (actually we will create it) to use the proper certs and connection options.
```bash
{
kubectl config set-cluster kubernetes-the-hard-way \
  --certificate-authority=ca.pem \
  --embed-certs=true \
  --server=https://127.0.0.1:6443

kubectl config set-credentials admin \
  --client-certificate=admin.pem \
  --client-key=admin-key.pem \
  --embed-certs=true

kubectl config set-context default \
  --cluster=kubernetes-the-hard-way \
  --user=admin

kubectl config use-context default
}
```

Now, we should be able to receive the cluster and kubeclt info
```bash
kubectl version
```

Output:
```
Client Version: version.Info{Major:"1", Minor:"21", GitVersion:"v1.21.0", GitCommit:"cb303e613a121a29364f75cc67d3d580833a7479", GitTreeState:"clean", BuildDate:"2021-04-08T16:31:21Z", GoVersion:"go1.16.1", Compiler:"gc", Platform:"linux/amd64"}
Server Version: version.Info{Major:"1", Minor:"21", GitVersion:"v1.21.0", GitCommit:"cb303e613a121a29364f75cc67d3d580833a7479", GitTreeState:"clean", BuildDate:"2021-04-08T16:25:06Z", GoVersion:"go1.16.1", Compiler:"gc", Platform:"linux/amd64"}
```

As already mentioned, api-server is the central kubernetes component, that stores information about all kubernetes objects.
It means that we can create a pod, even when other components (kubelet, scheduler, controller manager) are not configured
```bash
{
HOST_NAME=$(hostname -a)

cat <<EOF> pod.yaml
apiVersion: v1
kind: Pod
metadata:
  name: hello-world
spec:
  serviceAccountName: hello-world
  containers:
    - name: hello-world-container
      image: busybox
      command: ['sh', '-c', 'while true; do echo "Hello, World!"; sleep 1; done']
  nodeName: ${HOST_NAME}
EOF

cat <<EOF> sa.yaml
apiVersion: v1
kind: ServiceAccount
metadata:
  name: hello-world
automountServiceAccountToken: false
EOF

kubectl apply -f sa.yaml
kubectl apply -f pod.yaml
}
```

Note: as you can see, in addition to the pod, we create the service account associated with the pod. This step is needed as we have no default service account created in the default namespace (the service account controller is responsible to create it, but we didn't configure the controller manager yet).

To check pod status run
```bash
kubectl get pod
```

Output:
```
NAME          READY   STATUS    RESTARTS   AGE
hello-world   0/1     Pending   0          29s
```

As expected we received the pod in a pending state, because we have now kubelet configured to run pods created in API server.

We can veryfy that by running
```bash
kubectl get nodes
```

Output:
```
NAME             STATUS     ROLES    AGE   VERSION
```

Next: [Apiserver - Kubelet integration](./06-apiserver-kubelet.md)