Kubernetes v1.12/v1.13 二进制部署集群(HTTPS+RBAC)

时间:2022-11-01 01:36:32

官方提供的几种Kubernetes部署方式

  • minikube

Minikube是一个工具,可以在本地快速运行一个单点的Kubernetes,尝试Kubernetes或日常开发的用户使用。不能用于生产环境。

官方地址:https://kubernetes.io/docs/setup/minikube/

  • kubeadm

Kubeadm也是一个工具,提供kubeadm init和kubeadm join,用于快速部署Kubernetes集群。

官方地址:https://kubernetes.io/docs/reference/setup-tools/kubeadm/kubeadm/

  • 二进制包

从官方下载发行版的二进制包,手动部署每个组件,组成Kubernetes集群。

小结:

生产环境中部署Kubernetes集群,只有Kubeadm和二进制包可选,Kubeadm降低部署门槛,但屏蔽了很多细节,遇到问题很难排查。我们这里使用二进制包部署Kubernetes集群,我也是推荐大家使用这种方式,虽然手动部署麻烦点,但学习很多工作原理,更有利于后期维护。

软件环境

软件 版本
操作系统 CentOS7.5_x64
Docker 18-ce
Kubernetes 1.12

服务器角色

角色 IP 组件
k8s-master 192.168.31.63 kube-apiserver,kube-controller-manager,kube-scheduler,etcd
k8s-node1 192.168.31.65 kubelet,kube-proxy,docker,flannel,etcd
k8s-node2 192.168.31.66 kubelet,kube-proxy,docker,flannel,etcd

Kubernetes v1.12/v1.13 二进制部署集群(HTTPS+RBAC)

​ 架构图

1. 部署Etcd集群

使用cfssl来生成自签证书,先下载cfssl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
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

1.1 生成证书

创建以下三个文件:

# cat ca-config.json
{
"signing": {
"default": {
"expiry": "87600h"
},
"profiles": {
"www": {
"expiry": "87600h",
"usages": [
"signing",
"key encipherment",
"server auth",
"client auth"
]
}
}
}
} # cat ca-csr.json
{
"CN": "etcd CA",
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"L": "Beijing",
"ST": "Beijing"
}
]
} # cat server-csr.json
{
"CN": "etcd",
"hosts": [
"192.168.31.63",
"192.168.31.65",
"192.168.31.66"
],
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"L": "BeiJing",
"ST": "BeiJing"
}
]
}

生成证书:

cfssl gencert -initca ca-csr.json | cfssljson -bare ca -
cfssl gencert -ca=ca.pem -ca-key=ca-key.pem -config=ca-config.json -profile=www server-csr.json | cfssljson -bare server
# ls *pem
ca-key.pem ca.pem server-key.pem server.pem

证书这块知道怎么生成、怎么用即可,建议暂时不必过多研究。

1.2 部署Etcd

二进制包下载地址:https://github.com/coreos/etcd/releases/tag/v3.2.12

以下部署步骤在规划的三个etcd节点操作一样,唯一不同的是etcd配置文件中的服务器IP要写当前的:

解压二进制包:

# mkdir /opt/etcd/{bin,cfg,ssl} -p
# tar zxvf etcd-v3.2.12-linux-amd64.tar.gz
# mv etcd-v3.2.12-linux-amd64/{etcd,etcdctl} /opt/etcd/bin/

创建etcd配置文件:

# cat /opt/etcd/cfg/etcd
#[Member]
ETCD_NAME="etcd01"
ETCD_DATA_DIR="/var/lib/etcd/default.etcd"
ETCD_LISTEN_PEER_URLS="https://192.168.31.63:2380"
ETCD_LISTEN_CLIENT_URLS="https://192.168.31.63:2379" #[Clustering]
ETCD_INITIAL_ADVERTISE_PEER_URLS="https://192.168.31.63:2380"
ETCD_ADVERTISE_CLIENT_URLS="https://192.168.31.63:2379"
ETCD_INITIAL_CLUSTER="etcd01=https://192.168.31.63:2380,etcd02=https://192.168.31.65:2380,etcd03=https://192.168.31.66:2380"
ETCD_INITIAL_CLUSTER_TOKEN="etcd-cluster"
ETCD_INITIAL_CLUSTER_STATE="new"
  • ETCD_NAME 节点名称
  • 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

systemd管理etcd:

# cat /usr/lib/systemd/system/etcd.service
[Unit]
Description=Etcd Server
After=network.target
After=network-online.target
Wants=network-online.target [Service]
Type=notify
EnvironmentFile=/opt/etcd/cfg/etcd
ExecStart=/opt/etcd/bin/etcd \
--name=${ETCD_NAME} \
--data-dir=${ETCD_DATA_DIR} \
--listen-peer-urls=${ETCD_LISTEN_PEER_URLS} \
--listen-client-urls=${ETCD_LISTEN_CLIENT_URLS},http://127.0.0.1:2379 \
--advertise-client-urls=${ETCD_ADVERTISE_CLIENT_URLS} \
--initial-advertise-peer-urls=${ETCD_INITIAL_ADVERTISE_PEER_URLS} \
--initial-cluster=${ETCD_INITIAL_CLUSTER} \
--initial-cluster-token=${ETCD_INITIAL_CLUSTER_TOKEN} \
--initial-cluster-state=new \
--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
Restart=on-failure
LimitNOFILE=65536 [Install]
WantedBy=multi-user.target

把刚才生成的证书拷贝到配置文件中的位置:

# cp ca*pem server*pem /opt/etcd/ssl

启动并设置开启启动:

# systemctl start etcd
# systemctl enable etcd

都部署完成后,检查etcd集群状态:

# /opt/etcd/bin/etcdctl \
--ca-file=ca.pem --cert-file=server.pem --key-file=server-key.pem \
--endpoints="https://192.168.31.63:2379,https://192.168.31.65:2379,https://192.168.31.66:2379" \
cluster-health
member 18218cfabd4e0dea is healthy: got healthy result from https://192.168.31.63:2379
member 541c1c40994c939b is healthy: got healthy result from https://192.168.31.65:2379
member a342ea2798d20705 is healthy: got healthy result from https://192.168.31.66:2379
cluster is healthy

如果输出上面信息,就说明集群部署成功。如果有问题第一步先看日志:/var/log/message 或 journalctl -u etcd

2. 在Node安装Docker

# yum install -y yum-utils device-mapper-persistent-data lvm2
# yum-config-manager \
--add-repo \
https://download.docker.com/linux/centos/docker-ce.repo
# yum install docker-ce -y
# curl -sSL https://get.daocloud.io/daotools/set_mirror.sh | sh -s http://bc437cce.m.daocloud.io
# systemctl start docker
# systemctl enable docker

3. 部署Flannel网络

工作原理:

Kubernetes v1.12/v1.13 二进制部署集群(HTTPS+RBAC)

Falnnel要用etcd存储自身一个子网信息,所以要保证能成功连接Etcd,写入预定义子网段:

# /opt/etcd/bin/etcdctl \
--ca-file=ca.pem --cert-file=server.pem --key-file=server-key.pem \
--endpoints="https://192.168.31.63:2379,https://192.168.31.65:2379,https://192.168.31.66:2379" \
set /coreos.com/network/config '{ "Network": "172.17.0.0/16", "Backend": {"Type": "vxlan"}}'

以下部署步骤在规划的每个node节点都操作。

下载二进制包:

# wget https://github.com/coreos/flannel/releases/download/v0.10.0/flannel-v0.10.0-linux-amd64.tar.gz
# tar zxvf flannel-v0.9.1-linux-amd64.tar.gz
# mv flanneld mk-docker-opts.sh /opt/kubernetes/bin

配置Flannel:

# cat /opt/kubernetes/cfg/flanneld
FLANNEL_OPTIONS="--etcd-endpoints=https://192.168.31.63:2379,https://192.168.31.65:2379,https://192.168.31.66:2379 -etcd-cafile=/opt/etcd/ssl/ca.pem -etcd-certfile=/opt/etcd/ssl/server.pem -etcd-keyfile=/opt/etcd/ssl/server-key.pem"

systemd管理Flannel:

# cat /usr/lib/systemd/system/flanneld.service
[Unit]
Description=Flanneld overlay address etcd agent
After=network-online.target network.target
Before=docker.service [Service]
Type=notify
EnvironmentFile=/opt/kubernetes/cfg/flanneld
ExecStart=/opt/kubernetes/bin/flanneld --ip-masq $FLANNEL_OPTIONS
ExecStartPost=/opt/kubernetes/bin/mk-docker-opts.sh -k DOCKER_NETWORK_OPTIONS -d /run/flannel/subnet.env
Restart=on-failure [Install]
WantedBy=multi-user.target

配置Docker启动指定子网段:

# cat /usr/lib/systemd/system/docker.service 

[Unit]
Description=Docker Application Container Engine
Documentation=https://docs.docker.com
After=network-online.target firewalld.service
Wants=network-online.target [Service]
Type=notify
EnvironmentFile=/run/flannel/subnet.env
ExecStart=/usr/bin/dockerd $DOCKER_NETWORK_OPTIONS
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

重启flannel和docker:

# systemctl daemon-reload
# systemctl start flanneld
# systemctl enable flanneld
# systemctl restart docker

检查是否生效:

# ps -ef |grep docker
root 20941 1 1 Jun28 ? 09:15:34 /usr/bin/dockerd --bip=172.17.34.1/24 --ip-masq=false --mtu=1450
# ip addr
3607: flannel.1: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1450 qdisc noqueue state UNKNOWN
link/ether 8a:2e:3d:09:dd:82 brd ff:ff:ff:ff:ff:ff
inet 172.17.34.0/32 scope global flannel.1
valid_lft forever preferred_lft forever
3608: docker0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1450 qdisc noqueue state UP
link/ether 02:42:31:8f:d3:02 brd ff:ff:ff:ff:ff:ff
inet 172.17.34.1/24 brd 172.17.34.255 scope global docker0
valid_lft forever preferred_lft forever
inet6 fe80::42:31ff:fe8f:d302/64 scope link
valid_lft forever preferred_lft forever

确保docker0与flannel.1在同一网段。

测试不同节点互通,在当前节点访问另一个Node节点docker0 IP:

# ping 172.17.58.1
PING 172.17.58.1 (172.17.58.1) 56(84) bytes of data.
64 bytes from 172.17.58.1: icmp_seq=1 ttl=64 time=0.263 ms
64 bytes from 172.17.58.1: icmp_seq=2 ttl=64 time=0.204 ms

如果能通说明Flannel部署成功。如果不通检查下日志:journalctl -u flannel

4. 在Master节点部署组件

在部署Kubernetes之前一定要确保etcd、flannel、docker是正常工作的,否则先解决问题再继续。

4.1 生成证书

创建CA证书:

# cat ca-config.json
{
"signing": {
"default": {
"expiry": "87600h"
},
"profiles": {
"kubernetes": {
"expiry": "87600h",
"usages": [
"signing",
"key encipherment",
"server auth",
"client auth"
]
}
}
}
} # cat ca-csr.json
{
"CN": "kubernetes",
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"L": "Beijing",
"ST": "Beijing",
"O": "k8s",
"OU": "System"
}
]
} # cfssl gencert -initca ca-csr.json | cfssljson -bare ca -

生成apiserver证书:

# cat server-csr.json
{
"CN": "kubernetes",
"hosts": [
"10.0.0.1",
"127.0.0.1",
"192.168.31.63",
"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"
}
]
}
cfssl gencert -ca=ca.pem -ca-key=ca-key.pem -config=ca-config.json -profile=kubernetes server-csr.json | cfssljson -bare server

生成kube-proxy证书:

# cat kube-proxy-csr.json
{
"CN": "system:kube-proxy",
"hosts": [],
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"L": "BeiJing",
"ST": "BeiJing",
"O": "k8s",
"OU": "System"
}
]
} # cfssl gencert -ca=ca.pem -ca-key=ca-key.pem -config=ca-config.json -profile=kubernetes kube-proxy-csr.json | cfssljson -bare kube-proxy

最终生成以下证书文件:

# ls *pem
ca-key.pem ca.pem kube-proxy-key.pem kube-proxy.pem server-key.pem server.pem

4.2 部署apiserver组件

下载二进制包:https://github.com/kubernetes/kubernetes/blob/master/CHANGELOG-1.12.md

下载这个包(kubernetes-server-linux-amd64.tar.gz)就够了,包含了所需的所有组件。

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

创建token文件,用途后面会讲到:

# cat /opt/kubernetes/cfg/token.csv
674c457d4dcf2eefe4920d7dbb6b0ddc,kubelet-bootstrap,10001,"system:kubelet-bootstrap"

第一列:随机字符串,自己可生成

第二列:用户名

第三列:UID

第四列:用户组

创建apiserver配置文件:

# cat /opt/kubernetes/cfg/kube-apiserver 

KUBE_APISERVER_OPTS="--logtostderr=true \
--v=4 \
--etcd-servers=https://192.168.31.63:2379,https://192.168.31.65:2379,https://192.168.31.66:2379 \
--bind-address=192.168.31.63 \
--secure-port=6443 \
--advertise-address=192.168.31.63 \
--allow-privileged=true \
--service-cluster-ip-range=10.0.0.0/24 \
--enable-admission-plugins=NamespaceLifecycle,LimitRanger,SecurityContextDeny,ServiceAccount,ResourceQuota,NodeRestriction \
--authorization-mode=RBAC,Node \
--enable-bootstrap-token-auth \
--token-auth-file=/opt/kubernetes/cfg/token.csv \
--service-node-port-range=30000-50000 \
--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"

配置好前面生成的证书,确保能连接etcd。

参数说明:

  • --logtostderr 启用日志
  • ---v 日志等级
  • --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功能,后面会讲到
  • --token-auth-file token文件
  • --service-node-port-range Service Node类型默认分配端口范围

systemd管理apiserver:

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

启动:

# systemctl daemon-reload
# systemctl enable kube-apiserver
# systemctl restart kube-apiserver

4.3 部署scheduler组件

创建schduler配置文件:

# cat /opt/kubernetes/cfg/kube-scheduler 

KUBE_SCHEDULER_OPTS="--logtostderr=true \
--v=4 \
--master=127.0.0.1:8080 \
--leader-elect"

参数说明:

  • --master 连接本地apiserver
  • --leader-elect 当该组件启动多个时,自动选举(HA)

systemd管理schduler组件:

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

启动:

# systemctl daemon-reload
# systemctl enable kube-scheduler
# systemctl restart kube-scheduler

4.4 部署controller-manager组件

创建controller-manager配置文件:

# cat /opt/kubernetes/cfg/kube-controller-manager
KUBE_CONTROLLER_MANAGER_OPTS="--logtostderr=true \
--v=4 \
--master=127.0.0.1:8080 \
--leader-elect=true \
--address=127.0.0.1 \
--service-cluster-ip-range=10.0.0.0/24 \
--cluster-name=kubernetes \
--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"

systemd管理controller-manager组件:

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

启动:

# systemctl daemon-reload
# systemctl enable kube-controller-manager
# systemctl restart kube-controller-manager

所有组件都已经启动成功,通过kubectl工具查看当前集群组件状态:

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

如上输出说明组件都正常。

5. 在Node节点部署组件

Master apiserver启用TLS认证后,Node节点kubelet组件想要加入集群,必须使用CA签发的有效证书才能与apiserver通信,当Node节点很多时,签署证书是一件很繁琐的事情,因此有了TLS Bootstrapping机制,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。

认证大致工作流程如图所示:

Kubernetes v1.12/v1.13 二进制部署集群(HTTPS+RBAC)

5.1 将kubelet-bootstrap用户绑定到系统集群角色

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

5.2 创建kubeconfig文件

在生成kubernetes证书的目录下执行以下命令生成kubeconfig文件:

# 创建kubelet bootstrapping kubeconfig
BOOTSTRAP_TOKEN=674c457d4dcf2eefe4920d7dbb6b0ddc
KUBE_APISERVER="https://192.168.31.63:6443" # 设置集群参数
kubectl config set-cluster kubernetes \
--certificate-authority=./ca.pem \
--embed-certs=true \
--server=${KUBE_APISERVER} \
--kubeconfig=bootstrap.kubeconfig # 设置客户端认证参数
kubectl config set-credentials kubelet-bootstrap \
--token=${BOOTSTRAP_TOKEN} \
--kubeconfig=bootstrap.kubeconfig # 设置上下文参数
kubectl config set-context default \
--cluster=kubernetes \
--user=kubelet-bootstrap \
--kubeconfig=bootstrap.kubeconfig # 设置默认上下文
kubectl config use-context default --kubeconfig=bootstrap.kubeconfig #---------------------- # 创建kube-proxy kubeconfig文件 kubectl config set-cluster kubernetes \
--certificate-authority=./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
# ls
bootstrap.kubeconfig kube-proxy.kubeconfig

将这两个文件拷贝到Node节点/opt/kubernetes/cfg目录下。

5.2 部署kubelet组件

将前面下载的二进制包中的kubelet和kube-proxy拷贝到/opt/kubernetes/bin目录下。

创建kubelet配置文件:

# cat /opt/kubernetes/cfg/kubelet
KUBELET_OPTS="--logtostderr=true \
--v=4 \
--hostname-override=192.168.31.65 \
--kubeconfig=/opt/kubernetes/cfg/kubelet.kubeconfig \
--bootstrap-kubeconfig=/opt/kubernetes/cfg/bootstrap.kubeconfig \
--config=/opt/kubernetes/cfg/kubelet.config \
--cert-dir=/opt/kubernetes/ssl \
--pod-infra-container-image=registry.cn-hangzhou.aliyuncs.com/google-containers/pause-amd64:3.0"

参数说明:

  • --hostname-override 在集群中显示的主机名
  • --kubeconfig 指定kubeconfig文件位置,会自动生成
  • --bootstrap-kubeconfig 指定刚才生成的bootstrap.kubeconfig文件
  • --cert-dir 颁发证书存放位置
  • --pod-infra-container-image 管理Pod网络的镜像

其中/opt/kubernetes/cfg/kubelet.config配置文件如下:

kind: KubeletConfiguration
apiVersion: kubelet.config.k8s.io/v1beta1
address: 192.168.31.65
port: 10250
readOnlyPort: 10255
cgroupDriver: cgroupfs
clusterDNS: ["10.0.0.2"]
clusterDomain: cluster.local.
failSwapOn: false
authentication:
anonymous:
enabled: true

systemd管理kubelet组件:

# cat /usr/lib/systemd/system/kubelet.service
[Unit]
Description=Kubernetes Kubelet
After=docker.service
Requires=docker.service [Service]
EnvironmentFile=/opt/kubernetes/cfg/kubelet
ExecStart=/opt/kubernetes/bin/kubelet $KUBELET_OPTS
Restart=on-failure
KillMode=process [Install]
WantedBy=multi-user.target

启动:

# systemctl daemon-reload
# systemctl enable kubelet
# systemctl restart kubelet

在Master审批Node加入集群:

启动后还没加入到集群中,需要手动允许该节点才可以。

在Master节点查看请求签名的Node:

# kubectl get csr
# kubectl certificate approve XXXXID
# kubectl get node

5.3 部署kube-proxy组件

创建kube-proxy配置文件:

# cat /opt/kubernetes/cfg/kube-proxy
KUBE_PROXY_OPTS="--logtostderr=true \
--v=4 \
--hostname-override=192.168.31.65 \
--cluster-cidr=10.0.0.0/24 \
--kubeconfig=/opt/kubernetes/cfg/kube-proxy.kubeconfig"

systemd管理kube-proxy组件:

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

启动:

# systemctl daemon-reload
# systemctl enable kube-proxy
# systemctl restart kube-proxy

Node2部署方式一样。

6. 查看集群状态

# kubectl get node
NAME STATUS ROLES AGE VERSION
192.168.31.65 Ready <none> 1d v1.12.0
192.168.31.66 Ready <none> 1d v1.12.0
# kubectl get cs
NAME STATUS MESSAGE ERROR
controller-manager Healthy ok
scheduler Healthy ok
etcd-2 Healthy {"health":"true"}
etcd-1 Healthy {"health":"true"}
etcd-0 Healthy {"health":"true"}

7. 运行一个测试示例

创建一个Nginx Web,测试集群是否正常工作:

# kubectl run nginx --image=nginx --replicas=3
# kubectl expose deployment nginx --port=88 --target-port=80 --type=NodePort

查看Pod,Service:

# kubectl get pods
NAME READY STATUS RESTARTS AGE
nginx-64f497f8fd-fjgt2 1/1 Running 3 1d
nginx-64f497f8fd-gmstq 1/1 Running 3 1d
nginx-64f497f8fd-q6wk9 1/1 Running 3 1d
# kubectl get svc
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
kubernetes ClusterIP 10.0.0.1 <none> 443/TCP 28d
nginx NodePort 10.0.0.175 <none> 88:38696/TCP 28d

访问集群中部署的Nginx,打开浏览器输入:http://192.168.31.66:38696

Kubernetes v1.12/v1.13 二进制部署集群(HTTPS+RBAC)

免费视频版:https://ke.qq.com/course/366778

小结

  • 有问题先查日志,再谷歌
  • 多思考,多梳理逻辑
  • 配置文件较多,有很多字段你可能都不知道干啥,不要着急,随着一步步使用,慢慢就熟悉了

若你在容器运维中,遇到容器方面的问题,可以给我微信↓。同样,若发现有任何纰漏,还请随时指正,相互学习,共同进步!

Kubernetes v1.12/v1.13 二进制部署集群(HTTPS+RBAC)

Kubernetes v1.12/v1.13 二进制部署集群(HTTPS+RBAC)