二进制部署k8s集群

部署k8s有多种方式,本章我们采取二进制的部署方式来部署k8s集群,二进制部署麻烦点,但是可以在我们通过部署各个组件的时候,也通知能让我们更好的深入了解组件之间的关联,也利于后期维护

主机环境

  • 系统: centos7.4 3台
  • 内存: 4G
  • 磁盘:40G
  • cpu 2CPU

软件版本

  • k8s 1.18
  • docker 19-ce

主机规划

masetr 172.16.210.53 kube-apiserver,kube-controller-manager,kube-scheduler,etcd
node1 172.16.210.54 kubelet,kube-proxy,docker etcd
node2 172.16.210.55 kubelet,kube-proxy,docker etcd

1.主机环境初始化

在3个节点上操作

#关闭防火墙
systemctl stop firewalld ; systemctl disable firewalld
#关闭selinux
setenforce 0 ;sed -i 's/enforcing/disabled/' /etc/selinux/config
#关闭swap分区
swapoff -a ; sed -ri 's/.*swap.*/#&/' /etc/fstab
#添加hosts
cat >> /etc/hosts << EOF
172.16.210.53 master k8s-master
172.16.210.54 node1 k8s-node1
172.16.210.55 node2 k8s-node2
EOF
#添加防火墙转发
cat > /etc/sysctl.d/k8s.conf << EOF
net.ipv4.ip_forward = 1
net.bridge.bridge-nf-call-ip6tables = 1
net.bridge.bridge-nf-call-iptables = 1
EOF
modprobe br_netfilter
sysctl --system ##生效
#时间同步
yum install -y ntpdate  ##安装时间同步工具
ntpdate time.windows.com  #同步windwos时间服务器

2.部署etcd集群

Etcd 是一个分布式键值存储系统,Kubernetes使用Etcd进行数据存储

2.1准备cfssl证书生成工具

cfssl是一个开源的证书管理工具,使用json文件生成证书,相比openssl更方便使用
在master上操作:

##获取证书管理工具
wget https://pkg.cfssl.org/R1.2/cfssl_linux-amd64
wget https://pkg.cfssl.org/R1.2/cfssljson_linux-amd64
wget https://pkg.cfssl.org/R1.2/cfssl-certinfo_linux-amd64
##添加看执行权限并放进可执行目录
chmod +x cfssl_linux-amd64 cfssljson_linux-amd64 cfssl-certinfo_linux-amd64
mv cfssl_linux-amd64 /usr/local/bin/cfssl
mv cfssljson_linux-amd64 /usr/local/bin/cfssljson
mv cfssl-certinfo_linux-amd64 /usr/bin/cfssl-certinfo

2.2生成Etcd证书

创建证书目录

mkdir -p ~/TLS/{etcd,k8s} 
cd ~/TLS/etcd  ##进入证书目录

自签CA:

cat > ca-config.json << EOF
{
  "signing": {
    "default": {
      "expiry": "87600h"
    },
    "profiles": {
      "www": {
         "expiry": "87600h",
         "usages": [
            "signing",
            "key encipherment",
            "server auth",
            "client auth"
        ]
      }
    }
  }
}
EOF

cat > ca-csr.json << EOF
{
    "CN": "etcd CA",
    "key": {
        "algo": "rsa",
        "size": 2048
    },
    "names": [
        {
            "C": "CN",
            "L": "Beijing",
            "ST": "Beijing"
        }
    ]
}
EOF

生成证书:

cfssl gencert -initca ca-csr.json | cfssljson -bare ca -
ls *pem ##可以看到当前目录生成了两个证书文件
ca-key.pem  ca.pem

2. 使用自签CA签发Etcd HTTPS证书

创建证书申请文件:

cat > server-csr.json << EOF
{
    "CN": "etcd",
    "hosts": [
    "172.16.210.53",
    "172.16.210.54",
    "172.16.210.55"
    ],
    "key": {
        "algo": "rsa",
        "size": 2048
    },
    "names": [
        {
            "C": "CN",
            "L": "BeiJing",
            "ST": "BeiJing"
        }
    ]
}
EOF

生成证书:

cfssl gencert -ca=ca.pem -ca-key=ca-key.pem -config=ca-config.json -profile=www server-csr.json | cfssljson -bare server
ls server*pem  ##可以看到生成了两个sever证书
server-key.pem  server.pem

2.3下载etcd二进制文件

文件地址:https://github.com/etcd-io/etcd/releases/download/v3.4.9/etcd-v3.4.9-linux-amd64.tar.gz
以下操作在master上操作,待会将master生成的所有文件拷贝到node1和node2:

wget https://github.com/etcd-io/etcd/releases/download/v3.4.9/etcd-v3.4.9-linux-amd64.tar.gz ##获取二进制文件

2.4部署etcd集群

1.创建工作目录并解压二进制文件

mkdir /opt/etcd/{bin,cfg,ssl} -p
tar zxvf etcd-v3.4.9-linux-amd64.tar.gz
mv etcd-v3.4.9-linux-amd64/{etcd,etcdctl} /opt/etcd/bin/

2.创建etcd配置文件

cat > /opt/etcd/cfg/etcd.conf << EOF
#[Member]
ETCD_NAME="etcd-1"
ETCD_DATA_DIR="/var/lib/etcd/default.etcd"
ETCD_LISTEN_PEER_URLS="https://172.16.210.53:2380"
ETCD_LISTEN_CLIENT_URLS="https://172.16.210.53:2379"
#[Clustering]
ETCD_INITIAL_ADVERTISE_PEER_URLS="https://172.16.210.53:2380"
ETCD_ADVERTISE_CLIENT_URLS="https://172.16.210.53:2379"
ETCD_INITIAL_CLUSTER="etcd-1=https://172.16.210.53:2380,etcd-2=https://172.16.210.54:2380,etcd-3=https://172.16.210.55:2380"
ETCD_INITIAL_CLUSTER_TOKEN="etcd-cluster"
ETCD_INITIAL_CLUSTER_STATE="new"
EOF

参数详解:

  • ETCD_DATA_DIR:数据目录
  • ETCD_LISTEN_PEER_URLS:集群通信监听地址
  • ETCD_LISTEN_CLIENT_URLS:客户端访问监听地址
  • ETCD_INITIAL_ADVERTISE_PEER_URLS:集群通告地址
  • ETCD_ADVERTISE_CLIENT_URLS:客户端通告地址
  • ETCD_INITIAL_CLUSTER:集群节点地址
  • ETCD_INITIAL_CLUSTER_TOKEN:集群Token
  • ETCD_INITIAL_CLUSTER_STATE:加入集群的当前状态,new是新集群,existing表示加入已有集群

3.配置systemd管理etcd

cat > /usr/lib/systemd/system/etcd.service << EOF
[Unit]
Description=Etcd Server
After=network.target
After=network-online.target
Wants=network-online.target
[Service]
Type=notify
EnvironmentFile=/opt/etcd/cfg/etcd.conf
ExecStart=/opt/etcd/bin/etcd \
--cert-file=/opt/etcd/ssl/server.pem \
--key-file=/opt/etcd/ssl/server-key.pem \
--peer-cert-file=/opt/etcd/ssl/server.pem \
--peer-key-file=/opt/etcd/ssl/server-key.pem \
--trusted-ca-file=/opt/etcd/ssl/ca.pem \
--peer-trusted-ca-file=/opt/etcd/ssl/ca.pem \
--logger=zap
Restart=on-failure
LimitNOFILE=65536
[Install]
WantedBy=multi-user.target
EOF

4. 拷贝刚才生成的证书

把刚才生成的证书拷贝到配置文件中的路径:

cp ~/TLS/etcd/ca*pem ~/TLS/etcd/server*pem /opt/etcd/ssl/

5.将master生成的所有文件拷贝到其他节点

scp -r /opt/etcd/ 172.16.210.54:/opt/
scp /usr/lib/systemd/system/etcd.service 172.16.210.54:/usr/lib/systemd/system/
scp -r /opt/etcd/ 172.16.210.55:/opt/
scp /usr/lib/systemd/system/etcd.service 172.16.210.55:/usr/lib/systemd/system/

6.在node1和node2分别修改etcd.conf配置文件中的节点名称和当前服务器IP

sed -i '4,8s/172.16.210.53/172.16.210.54/' /opt/etcd/cfg/etcd.conf  ; sed -i '2s/etcd-1/etcd-2/'  /opt/etcd/cfg/etcd.conf ###在node1执行
sed -i '4,8s/172.16.210.53/172.16.210.55/' /opt/etcd/cfg/etcd.conf  ; sed -i '2s/etcd-1/etcd-3/'  /opt/etcd/cfg/etcd.conf ###在node2执行

7.启动3个节点的etcd并加入开机自启

在三各节点操作

systemctl daemon-reload
systemctl start etcd
systemctl enable etcd

8.查看etcd集群状态

[root@master ~]# ETCDCTL_API=3 /opt/etcd/bin/etcdctl --cacert=/opt/etcd/ssl/ca.pem --cert=/opt/etcd/ssl/server.pem --key=/opt/etcd/ssl/server-key.pem --endpoints="https://172.16.210.53:2379,https://172.16.210.54:2379,https://172.16.210.55:2379" endpoint health
https://172.16.210.54:2379 is healthy: successfully committed proposal: took = 14.194738ms
https://172.16.210.55:2379 is healthy: successfully committed proposal: took = 14.97292ms
https://172.16.210.53:2379 is healthy: successfully committed proposal: took = 14.847968ms

出现successfully,表面etcd部署成功,如果有异常情况可以使用systemctl stautus etcd -l进一步查看报错信息

3.安装Docker

可以使用yum安装,这次我们采用二进制的方式
以下所有操作在所有节点

3.1获取docker安装包

wget https://download.docker.com/linux/static/stable/x86_64/docker-19.03.9.tgz

3.2解压docker二进制包

tar zxvf docker-19.03.9.tgz
mv docker/* /usr/bin

3.3配置systemd管理docker

cat > /usr/lib/systemd/system/docker.service << EOF
[Unit]
Description=Docker Application Container Engine
Documentation=https://docs.docker.com
After=network-online.target firewalld.service
Wants=network-online.target
[Service]
Type=notify
ExecStart=/usr/bin/dockerd
ExecReload=/bin/kill -s HUP $MAINPID
LimitNOFILE=infinity
LimitNPROC=infinity
LimitCORE=infinity
TimeoutStartSec=0
Delegate=yes
KillMode=process
Restart=on-failure
StartLimitBurst=3
StartLimitInterval=60s
[Install]
WantedBy=multi-user.target
EOF

3.4配置docker加速器

mkdir /etc/docker
cat > /etc/docker/daemon.json << EOF
 {
"registry-mirrors": ["https://jo6348gu.mirror.aliyuncs.com"]
 }
EOF

3.5启动docker并加入开机自启

systemctl daemon-reload 
systemctl start docker
systemctl enable docker

4.部署master

以下操作在master上

4.1 生成kube-apiserver证书

1. 自签证书颁发机构(CA)

cd TLS/k8s
cat > ca-config.json << EOF
{
  "signing": {
    "default": {
      "expiry": "87600h"
    },
    "profiles": {
      "kubernetes": {
         "expiry": "87600h",
         "usages": [
            "signing",
            "key encipherment",
            "server auth",
            "client auth"
        ]
      }
    }
  }
}
EOF
cat > ca-csr.json << EOF
{
    "CN": "kubernetes",
    "key": {
        "algo": "rsa",
        "size": 2048
    },
    "names": [
        {
            "C": "CN",
            "L": "Beijing",
            "ST": "Beijing",
            "O": "k8s",
            "OU": "System"
        }
    ]
}
EOF

生成证书:

cfssl gencert -initca ca-csr.json | cfssljson -bare ca -
ls *pem
ca-key.pem  ca.pem  ##可以看到生成了两个证书

2. 使用自签CA签发kube-apiserver HTTPS证书

创建证书申请文件:

cat > server-csr.json << EOF
{
    "CN": "kubernetes",
    "hosts": [
      "10.0.0.1",
      "127.0.0.1",
      "172.16.210.53",
      "172.16.210.54",
      "172.16.210.55",
      "kubernetes",
      "kubernetes.default",
      "kubernetes.default.svc",
      "kubernetes.default.svc.cluster",
      "kubernetes.default.svc.cluster.local"
    ],
    "key": {
        "algo": "rsa",
        "size": 2048
    },
    "names": [
        {
            "C": "CN",
            "L": "BeiJing",
            "ST": "BeiJing",
            "O": "k8s",
            "OU": "System"
        }
    ]
}
EOF

生成证书:

cfssl gencert -ca=ca.pem -ca-key=ca-key.pem -config=ca-config.json -profile=kubernetes server-csr.json | cfssljson -bare server
ls server*pem
server-key.pem  server.pem ##可以看到又生成两个server证书

4.2 从Github下载k8s二进制文件并解压

1.获取二进制包

wget  https://dl.k8s.io/v1.18.3/kubernetes-server-linux-amd64.tar.gz

2.解压二进制包

mkdir -p /opt/kubernetes/{bin,cfg,ssl,logs} 
tar zxvf kubernetes-server-linux-amd64.tar.gz
cd kubernetes/server/bin
cp kube-apiserver kube-scheduler kube-controller-manager /opt/kubernetes/bin
cp kubectl /usr/bin/

4.3部署kube-apiserver

1. 创建配置文件

cat > /opt/kubernetes/cfg/kube-apiserver.conf << EOF
KUBE_APISERVER_OPTS="--logtostderr=false \\
--v=4 \\
--log-dir=/opt/kubernetes/logs \\
--etcd-servers=https://172.16.210.53:2379,https://172.16.210.54:2379,https://172.16.210.55:2379 \\
--bind-address=172.16.210.53 \\
--secure-port=6443 \\
--advertise-address=172.16.210.53 \\
--allow-privileged=true \\
--service-cluster-ip-range=10.0.0.0/24 \\
--enable-admission-plugins=NamespaceLifecycle,LimitRanger,ServiceAccount,ResourceQuota,NodeRestriction \\
--authorization-mode=RBAC,Node \\
--enable-bootstrap-token-auth=true \\
--token-auth-file=/opt/kubernetes/cfg/token.csv \\
--service-node-port-range=30000-32767 \\
--kubelet-client-certificate=/opt/kubernetes/ssl/server.pem \\
--kubelet-client-key=/opt/kubernetes/ssl/server-key.pem \\
--tls-cert-file=/opt/kubernetes/ssl/server.pem  \\
--tls-private-key-file=/opt/kubernetes/ssl/server-key.pem \\
--client-ca-file=/opt/kubernetes/ssl/ca.pem \\
--service-account-key-file=/opt/kubernetes/ssl/ca-key.pem \\
--etcd-cafile=/opt/etcd/ssl/ca.pem \\
--etcd-certfile=/opt/etcd/ssl/server.pem \\
--etcd-keyfile=/opt/etcd/ssl/server-key.pem \\
--audit-log-maxage=30 \\
--audit-log-maxbackup=3 \\
--audit-log-maxsize=100 \\
--audit-log-path=/opt/kubernetes/logs/k8s-audit.log"
EOF
  • 参数详解:
  • –logtostderr:启用日志
  • —v:日志等级
  • –log-dir:日志目录
  • –etcd-servers:etcd集群地址
  • –bind-address:监听地址
  • –secure-port:https安全端口
  • –advertise-address:集群通告地址
  • –allow-privileged:启用授权
  • –service-cluster-ip-range:Service虚拟IP地址段
  • –enable-admission-plugins:准入控制模块
  • –authorization-mode:认证授权,启用RBAC授权和节点自管理
  • –enable-bootstrap-token-auth:启用TLS bootstrap机制
  • –token-auth-file:bootstrap token文件
  • –service-node-port-range:Service nodeport类型默认分配端口范围
  • –kubelet-client-xxx:apiserver访问kubelet客户端证书
  • –tls-xxx-file:apiserver https证书
  • –etcd-xxxfile:连接Etcd集群证书
  • –audit-log-xxx:审计日志

2. 拷贝刚才生成的证书

把刚才生成的证书拷贝到配置文件中的路径:

cp ~/TLS/k8s/ca*pem ~/TLS/k8s/server*pem /opt/kubernetes/ssl/

3. 启用 TLS Bootstrapping 机制

TLS Bootstraping:Master apiserver启用TLS认证后,Node节点kubelet和kube-proxy要与kube-apiserver进行通信,必须使用CA签发的有效证书才可以,当Node节点很多时,这种客户端证书颁发需要大量工作,同样也会增加集群扩展复杂度。为了简化流程,Kubernetes引入了TLS bootstraping机制来自动颁发客户端证书,kubelet会以一个低权限用户自动向apiserver申请证书,kubelet的证书由apiserver动态签署。所以强烈建议在Node上使用这种方式,目前主要用于kubelet,kube-proxy还是由我们统一颁发一个证书。

TLS bootstraping 工作流程:


image.png

创建上述配置文件中token文件:

cat > /opt/kubernetes/cfg/token.csv << EOF
b1dc586d69159ff4e3ef7efa9db60e48,10001,"system:node-bootstrapper"
EOF

格式:token,用户名,UID,用户组
token也可自行生成替换:

head -c 16 /dev/urandom | od -An -t x | tr -d ' '

4. systemd管理apiserver

cat > /usr/lib/systemd/system/kube-apiserver.service << EOF
[Unit]
Description=Kubernetes API Server
Documentation=https://github.com/kubernetes/kubernetes
[Service]
EnvironmentFile=/opt/kubernetes/cfg/kube-apiserver.conf
ExecStart=/opt/kubernetes/bin/kube-apiserver \$KUBE_APISERVER_OPTS
Restart=on-failure
[Install]
WantedBy=multi-user.target
EOF

5. 启动并设置开机启动

systemctl daemon-reload
systemctl start kube-apiserver
systemctl enable kube-apiserver

6. 授权kubelet-bootstrap用户允许请求证书

kubectl create clusterrolebinding kubelet-bootstrap \
--clusterrole=system:node-bootstrapper \
--user=kubelet-bootstrap

4.4 部署kube-controller-manager

  1. 创建配置文件
cat > /opt/kubernetes/cfg/kube-controller-manager.conf << EOF
KUBE_CONTROLLER_MANAGER_OPTS="--logtostderr=false \\
--v=4 \\
--log-dir=/opt/kubernetes/logs \\
--leader-elect=true \\
--master=127.0.0.1:8080 \\
--bind-address=127.0.0.1 \\
--allocate-node-cidrs=true \\
--cluster-cidr=10.244.0.0/16 \\
--service-cluster-ip-range=10.0.0.0/24 \\
--cluster-signing-cert-file=/opt/kubernetes/ssl/ca.pem \\
--cluster-signing-key-file=/opt/kubernetes/ssl/ca-key.pem  \\
--root-ca-file=/opt/kubernetes/ssl/ca.pem \\
--service-account-private-key-file=/opt/kubernetes/ssl/ca-key.pem \\
--experimental-cluster-signing-duration=87600h0m0s"
EOF
  • –master:通过本地非安全本地端口8080连接apiserver。
  • –leader-elect:当该组件启动多个时,自动选举(HA)
  • –cluster-signing-cert-file/–cluster-signing-key-file:自动为kubelet颁发证书的CA,与apiserver保持一致

2. systemd管理controller-manager

cat > /usr/lib/systemd/system/kube-controller-manager.service << EOF
[Unit]
Description=Kubernetes Controller Manager
Documentation=https://github.com/kubernetes/kubernetes
[Service]
EnvironmentFile=/opt/kubernetes/cfg/kube-controller-manager.conf
ExecStart=/opt/kubernetes/bin/kube-controller-manager \$KUBE_CONTROLLER_MANAGER_OPTS
Restart=on-failure
[Install]
WantedBy=multi-user.target
EOF

3.启动并设置开机启动

systemctl daemon-reload
systemctl start kube-controller-manager
systemctl enable kube-controller-manager

4.6 部署kube-scheduler

1. 创建配置文件

cat > /opt/kubernetes/cfg/kube-scheduler.conf << EOF
KUBE_SCHEDULER_OPTS="--logtostderr=false \
--v=2 \
--log-dir=/opt/kubernetes/logs \
--leader-elect \
--master=127.0.0.1:8080 \
--bind-address=127.0.0.1"
EOF
  • –master:通过本地非安全本地端口8080连接apiserver。
  • –leader-elect:当该组件启动多个时,自动选举(HA)

2. systemd管理scheduler

cat > /usr/lib/systemd/system/kube-scheduler.service << EOF
[Unit]
Description=Kubernetes Scheduler
Documentation=https://github.com/kubernetes/kubernetes
[Service]
EnvironmentFile=/opt/kubernetes/cfg/kube-scheduler.conf
ExecStart=/opt/kubernetes/bin/kube-scheduler \$KUBE_SCHEDULER_OPTS
Restart=on-failure
[Install]
WantedBy=multi-user.target
EOF

3.启动并设置开机启动

systemctl daemon-reload
systemctl start kube-scheduler
systemctl enable kube-scheduler

4. 查看集群状态

所有组件都已经启动成功,通过kubectl get cs命令查看当前集群组件状态:

kubectl get cs
NAME                 STATUS    MESSAGE             ERROR
controller-manager   Healthy   ok                  
scheduler            Healthy   ok                  
etcd-0               Healthy   {"health":"true"}   
etcd-1               Healthy   {"health":"true"}   
etcd-2               Healthy   {"health":"true"}   

五、部署Worker Node

下面还是在master节点上操作,即同时作为Worker Node

5.1 拷贝二进制文件

cd ~/kubernetes/server/bin
cp kubelet kube-proxy /opt/kubernetes/bin  

5.2 部署kubelet

1. 创建配置文件

cat > /opt/kubernetes/cfg/kubelet.conf << EOF
KUBELET_OPTS="--logtostderr=false \\
--v=4 \\
--log-dir=/opt/kubernetes/logs \\
--hostname-override=k8s-master \\
--network-plugin=cni \\
--kubeconfig=/opt/kubernetes/cfg/kubelet.kubeconfig \\
--bootstrap-kubeconfig=/opt/kubernetes/cfg/bootstrap.kubeconfig \\
--config=/opt/kubernetes/cfg/kubelet-config.yml \\
--cert-dir=/opt/kubernetes/ssl \\
--pod-infra-container-image=lizhenliang/pause-amd64:3.0"
EOF

参数详解:

  • –hostname-override:显示名称,集群中唯一
  • –network-plugin:启用CNI
  • –kubeconfig:空路径,会自动生成,后面用于连接apiserver
  • –bootstrap-kubeconfig:首次启动向apiserver申请证书
  • –config:配置参数文件
  • –cert-dir:kubelet证书生成目录
  • –pod-infra-container-image:管理Pod网络容器的镜像

2. 创建配置参数yaml文件

cat > /opt/kubernetes/cfg/kubelet-config.yml << EOF
kind: KubeletConfiguration
apiVersion: kubelet.config.k8s.io/v1beta1
address: 0.0.0.0
port: 10250
readOnlyPort: 10255
cgroupDriver: cgroupfs
clusterDNS:
- 10.0.0.2
clusterDomain: cluster.local 
failSwapOn: false
authentication:
  anonymous:
    enabled: false
  webhook:
    cacheTTL: 2m0s
    enabled: true
  x509:
    clientCAFile: /opt/kubernetes/ssl/ca.pem 
authorization:
  mode: Webhook
  webhook:
    cacheAuthorizedTTL: 5m0s
    cacheUnauthorizedTTL: 30s
evictionHard:
  imagefs.available: 15%
  memory.available: 100Mi
  nodefs.available: 10%
  nodefs.inodesFree: 5%
maxOpenFiles: 1000000
maxPods: 110
EOF

3. 生成bootstrap.kubeconfig文件

##设置环境变量
KUBE_APISERVER="https://172.16.210.53:6443" # apiserver IP:PORT
TOKEN="b1dc586d69159ff4e3ef7efa9db60e48" # 与token.csv里保持一致

# 生成 kubelet bootstrap kubeconfig 配置文件
kubectl config set-cluster kubernetes \
  --certificate-authority=/opt/kubernetes/ssl/ca.pem \
  --embed-certs=true \
  --server=${KUBE_APISERVER} \
  --kubeconfig=bootstrap.kubeconfig
kubectl config set-credentials "kubelet-bootstrap" \
  --token=${TOKEN} \
  --kubeconfig=bootstrap.kubeconfig
kubectl config set-context default \
  --cluster=kubernetes \
  --user="kubelet-bootstrap" \
  --kubeconfig=bootstrap.kubeconfig
kubectl config use-context default --kubeconfig=bootstrap.kubeconfig

拷贝到配置文件路径:

cp bootstrap.kubeconfig /opt/kubernetes/cfg

4. systemd管理kubelet

cat > /usr/lib/systemd/system/kubelet.service << EOF
[Unit]
Description=Kubernetes Kubelet
After=docker.service
[Service]
EnvironmentFile=/opt/kubernetes/cfg/kubelet.conf
ExecStart=/opt/kubernetes/bin/kubelet \$KUBELET_OPTS
Restart=on-failure
LimitNOFILE=65536
[Install]
WantedBy=multi-user.target
EOF

5. 启动并设置开机启动

systemctl daemon-reload
systemctl start kubelet
systemctl enable kubelet

5.3 批准kubelet证书申请并加入集群

# 查看kubelet证书请求
kubectl get csr
NAME                                                   AGE   SIGNERNAME                                    REQUESTOR           CONDITION
node-csr-d-UyqVObT-tnWdXd881Ppc3oNVr6xkCBXV7VRlWyhf8   30s   kubernetes.io/kube-apiserver-client-kubelet   kubelet-bootstrap   Pending
# 批准申请
kubectl certificate approve node-csr-d-UyqVObT-tnWdXd881Ppc3oNVr6xkCBXV7VRlWyhf8
# 查看节点
kubectl get node
NAME         STATUS     ROLES    AGE   VERSION
k8s-master   NotReady   <none>   15s   v1.18.3  ##由于没有部署网络插件,所以节点是NotReady

5.4 部署kube-proxy

1. 创建配置文件

cat > /opt/kubernetes/cfg/kube-proxy.conf << EOF
KUBE_PROXY_OPTS="--logtostderr=false \\
--v=4 \\
--log-dir=/opt/kubernetes/logs \\
--config=/opt/kubernetes/cfg/kube-proxy-config.yml"
EOF

2. 配置参数文件

cat > /opt/kubernetes/cfg/kube-proxy-config.yml << EOF
kind: KubeProxyConfiguration
apiVersion: kubeproxy.config.k8s.io/v1alpha1
bindAddress: 0.0.0.0
metricsBindAddress: 0.0.0.0:10249
clientConnection:
  kubeconfig: /opt/kubernetes/cfg/kube-proxy.kubeconfig
hostnameOverride: k8s-master
clusterCIDR: 10.0.0.0/24
EOF

3. 生成kube-proxy.kubeconfig文件

生成kube-proxy证书:

# 切换工作目录
cd ~/TLS/k8s
# 创建证书请求文件
cat > kube-proxy-csr.json << EOF
{
  "CN": "system:kube-proxy",
  "hosts": [],
  "key": {
    "algo": "rsa",
    "size": 2048
  },
  "names": [
    {
      "C": "CN",
      "L": "BeiJing",
      "ST": "BeiJing",
      "O": "k8s",
      "OU": "System"
    }
  ]
}
EOF
# 生成证书
cfssl gencert -ca=ca.pem -ca-key=ca-key.pem -config=ca-config.json -profile=kubernetes kube-proxy-csr.json | cfssljson -bare kube-proxy

ls kube-proxy*pem
kube-proxy-key.pem  kube-proxy.pem  ##可以看到生成了两个kube-proxy的证书文件

生成kubeconfig文件

#创建环境变量
KUBE_APISERVER="https://172.16.210.53:6443"

kubectl config set-cluster kubernetes \
  --certificate-authority=/opt/kubernetes/ssl/ca.pem \
  --embed-certs=true \
  --server=${KUBE_APISERVER} \
  --kubeconfig=kube-proxy.kubeconfig
kubectl config set-credentials kube-proxy \
  --client-certificate=./kube-proxy.pem \
  --client-key=./kube-proxy-key.pem \
  --embed-certs=true \
  --kubeconfig=kube-proxy.kubeconfig
kubectl config set-context default \
  --cluster=kubernetes \
  --user=kube-proxy \
  --kubeconfig=kube-proxy.kubeconfig
kubectl config use-context default --kubeconfig=kube-proxy.kubeconfig

拷贝到配置文件指定路径:

cp kube-proxy.kubeconfig /opt/kubernetes/cfg/

4. systemd管理kube-proxy

cat > /usr/lib/systemd/system/kube-proxy.service << EOF
[Unit]
Description=Kubernetes Proxy
After=network.target
[Service]
EnvironmentFile=/opt/kubernetes/cfg/kube-proxy.conf
ExecStart=/opt/kubernetes/bin/kube-proxy \$KUBE_PROXY_OPTS
Restart=on-failure
LimitNOFILE=65536
[Install]
WantedBy=multi-user.target
EOF

5. 启动并设置开机启动

systemctl daemon-reload
systemctl start kube-proxy
systemctl enable kube-proxy

5.5 部署CNI网络

1.先下载CNI二进制文件:

wget https://github.com/containernetworking/plugins/releases/download/v0.8.6/cni-plugins-linux-amd64-v0.8.6.tgz

2.解压二进制包并移动到默认工作目录

mkdir -p /opt/cni/bin
tar zxvf cni-plugins-linux-amd64-v0.8.6.tgz -C /opt/cni/bin

5.5部署CNI网络

获取flanel网络yaml文件,并修改镜像地址

echo "151.101.76.133 raw.githubusercontent.com" >>/etc/hosts
wget https://raw.githubusercontent.com/coreos/flannel/master/Documentation/kube-flannel.yml
sed -i -r "s#quay.io/coreos/flannel:.*-amd64#lizhenliang/flannel:v0.12.0-amd64#g" kube-flannel.yml  ##默认镜像地址无法访问,修改为docker hub镜像仓库。

开始部署CNI网络:

kubectl apply -f kube-flannel.yml
##查看pod是否运行成功
kubectl get pods -n kube-system
NAME                          READY   STATUS    RESTARTS   AGE
kube-flannel-ds-amd64-p9tdp   1/1     Running   0  
##运行成功后,再查看节点是否运行正常
kubectl get nodes
NAME         STATUS   ROLES    AGE   VERSION
k8s-master   Ready    <none>   19m   v1.18.3

5.6 授权apiserver访问kubelet

cat > apiserver-to-kubelet-rbac.yaml << EOF
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRole
metadata:
  annotations:
    rbac.authorization.kubernetes.io/autoupdate: "true"
  labels:
    kubernetes.io/bootstrapping: rbac-defaults
  name: system:kube-apiserver-to-kubelet
rules:
  - apiGroups:
      - ""
    resources:
      - nodes/proxy
      - nodes/stats
      - nodes/log
      - nodes/spec
      - nodes/metrics
      - pods/log
    verbs:
      - "*"
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
  name: system:kube-apiserver
  namespace: ""
roleRef:
  apiGroup: rbac.authorization.k8s.io
  kind: ClusterRole
  name: system:kube-apiserver-to-kubelet
subjects:
  - apiGroup: rbac.authorization.k8s.io
    kind: User
    name: kubernetes
EOF

kubectl apply -f apiserver-to-kubelet-rbac.yaml

5.7增加worke 节点

1. 拷贝已部署好的Node相关文件到新节点

在master节点将Worker Node涉及文件拷贝到节点172.16.210..54/55

scp -r /opt/kubernetes root@172.16.210.54:/opt/
scp -r /usr/lib/systemd/system/{kubelet,kube-proxy}.service root@172.16.210.54:/usr/lib/systemd/system
scp -r /opt/cni/ root@172.16.210.54:/opt/
scp /opt/kubernetes/ssl/ca.pem root@172.16.210.54:/opt/kubernetes/ssl

2. 删除kubelet证书和kubeconfig文件

rm -f /opt/kubernetes/cfg/kubelet.kubeconfig 
rm -f /opt/kubernetes/ssl/kubelet*

3. 修改主机名

sed -i 's/k8s-master/k8s-node1/g' /opt/kubernetes/cfg/kubelet.conf /opt/kubernetes/cfg/kube-proxy-config.yml   ##加入node2的主机只需要把这条命令的k8s-node1改成k8s-node2即可

4. 启动并设置开机启动

systemctl daemon-reload
systemctl start kubelet
systemctl enable kubelet
systemctl start kube-proxy
systemctl enable kube-proxy

5.在Master上批准新Node kubelet证书申请

kubectl get csr
NAME                                                   AGE   SIGNERNAME                                    REQUESTOR           CONDITION
node-csr--t2cjSYX0z7ba4Tyh4GCnngZaGBUwmAHyY1xuxU40j0   28s   kubernetes.io/kube-apiserver-client-kubelet   kubelet-bootstrap   Pending

kubectl certificate approve node-csr--t2cjSYX0z7ba4Tyh4GCnngZaGBUwmAHyY1xuxU40j0 

6. 查看Node状态

kubectl get nodes
NAME         STATUS   ROLES    AGE     VERSION
k8s-master   Ready    <none>   46m     v1.18.3
k8s-node1    Ready    <none>   8m57s   v1.18.3
k8s-node2    Ready    <none>   3m59s   v1.18.3

Node2(172.16.210.55 )节点同上。记得修改主机名

六、部署Dashboard和CoreDNS

Dashboard的部署可以看我另一篇文档,这里就不部署了
//www.greatytc.com/p/6bafe568f103

部署CoreDNS

CoreDNS用于集群内部Service名称解析

kubectl apply -f coredns.yaml 

kubectl get pods -n kube-system ##查看coredns的pod是否运行正常
NAME                          READY   STATUS    RESTARTS   AGE
coredns-5ffbfd976d-rkcmt      1/1     Running   0          23s
kube-flannel-ds-amd64-2kmcm   1/1     Running   0          14m
kube-flannel-ds-amd64-p9tdp   1/1     Running   0          39m
kube-flannel-ds-amd64-zg7xz   1/1     Running   0          19m

测试

kubectl run -it --rm dns-test --image=busybox:1.28.4 sh
If you don't see a command prompt, try pressing enter.
/ # nslookup kubernetes
Server:    10.0.0.2
Address 1: 10.0.0.2 kube-dns.kube-system.svc.cluster.local

Name:      kubernetes
Address 1: 10.0.0.1 kubernetes.default.svc.cluster.local 

能正常解析,说明没问题

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