本文以华为云为例,低成本二进制方式测试部署K8S集群(V1.26.1)。
温馨提示:首次使用公有云一定要注意新用户优惠,最好用于购买云服务器,长期持有的服务器资源可支持域名备案
1 基本环境配置
1.1 高可用架构
采用虚拟IP+keepalived+Haproxy实现kube-apiserver的高可用
1.2 集群规划
k8s节点使用华为云竞价计费实例,k8s-master-lb通过华为云虚拟vip实现。
| 主机 | IP地址 | 说明 | 组件 |
|---|---|---|---|
| master-lb | 10.0.10.10 | vip | |
| master01 | 10.0.10.11 | master01 | etcd, kube-apiserver, controller manager, scheduler; kube-proxy, kubelet; keepalived+haproxy; kubectl |
| master02 | 10.0.10.12 | master02 | etcd, kube-apiserver, controller manager, scheduler; kube-proxy, kubelet; keepalived+haproxy |
| master03 | 10.0.10.13 | master03 | etcd, kube-apiserver, controller manager, scheduler; kube-proxy, kubelet |
| node01 | 10.0.10.101 | node01 | kube-proxy, kubelet |
1.3 网段及版本信息
K8S与Docker等的版本参考依赖关系
| 配置信息 | 说明 |
|---|---|
| 系统版本 | CentOS7.9 |
| 内核 | kernel-ml-4.19.12 |
| K8S版本 | 1.26.1 |
| Docker版本 | 20.10.* |
| etcd版本 | 3.5.6 |
| 主机网段 | 10.0.10.0/24 |
| Pod网段 | 172.16.0.0/12 |
| Service网段 | 192.168.0.0/16 |
| coredns | 1.9.4 |
2 创建私有云+服务器
2.1 创建vpc及子网
在华为云–私有云控制台点击创建“虚拟私有云”,同时创建vpc及subnets,网段见上节规划信息。
2.2 创建虚拟IP
在虚拟私有云控制台,导航栏选择“子网”。点击子网名称后,在“IP地址管理”页签中,单击“申请虚拟IP地址”,IP地址与集群规划信息保持一致。
2.3 购买ECS服务器
再次提醒:首次使用公有云一定要注意新用户优惠,最好用于购买云服务器,长期持有的服务器资源可支持域名备案
在ECS控制台,购买竞价计费模式的弹性云服务器,仅用于测试部署集群,随开随用,停机时仅需支付磁盘费用。
- 数量:4台,3台master+1台node节点
- 区域:北京四
- 计费模式:竞价计费,如图所示,开机费用¥0.13/h,停机¥0.02/h
- 规格:1C4G或2C4G,选最便宜的类型
- 磁盘:高IO型
- 镜像:CentOS7.9
- 弹性公网IP:静态BGP,按流量计费,带宽10,随实例释放
- 最终购买配置(4台):
- 创建完毕后,修改服务器IP和主机名等,与上节集群规划信息保持一致
- 修改主机名
# 分别设置主机名
hostnamectl set-hostname master01
#重启
reboot
3 服务器配置
3.1 配置hosts
cat >> /etc/hosts << EOF
10.0.10.10 master-lb
10.0.10.11 master01
10.0.10.12 master02
10.0.10.13 master03
10.0.10.101 node01
EOF
3.2 配置阿里源
- docker源
# 安装所需的软件包: yum-utils提供了yum-config-manager,用于管理yum仓库
yum install -y yum-utils
# 添加阿里源仓库
yum-config-manager --add-repo https://mirrors.aliyun.com/docker-ce/linux/centos/docker-ce.repo
3.3 必备工具安装
yum install wget jq psmisc vim net-tools telnet yum-utils device-mapper-persistent-data lvm2 git -y
3.4 免密登录(仅在master01执行)
# 返回home
cd ~
# 生成密钥文件(一路回车即可)
ssh-keygen -t rsa
# 传输到免密机器上
for i in master01 master02 master03 node01;do ssh-copy-id -i ~/.ssh/id_rsa.pub $i;done
4 Runtime安装(Containerd)
如果安装的版本低于1.24,选择Docker和Containerd均可,高于1.24选择Containerd作为Runtime。本文选择Containerd。
K8S官方容器运行时:安装指南
K8S与Docker等的版本:依赖关系
Docker离线安装包:下载地址
- 安装docker-ce-20.10:
yum install docker-ce-20.10.* docker-ce-cli-20.10.* containerd -y
- 无需启动Docker,只需要配置和启动Containerd即可
- 配置Containerd所需的模块(安装和配置的先决条件)
cat <<EOF | sudo tee /etc/modules-load.d/containerd.conf
overlay
br_netfilter
EOF
- 加载模块
modprobe -- overlay &&
modprobe -- br_netfilter
- 配置Containerd所需内核
cat <<EOF | sudo tee /etc/sysctl.d/99-kubernetes-cri.conf
net.bridge.bridge-nf-call-iptables = 1
net.ipv4.ip_forward = 1
net.bridge.bridge-nf-call-ip6tables = 1
EOF
- 加载内核
sysctl --system
- 配置Containerd的配置文件
mkdir -p /etc/containerd
containerd config default | tee /etc/containerd/config.toml
- 修改配置文件(使用 systemd cgroup 驱动程序)
vim /etc/containerd/config.toml
---------------------------------------
# 将Containerd的Cgroup改为Systemd:搜索SystemdCgroup,改为true
[plugins."io.containerd.grpc.v1.cri".containerd.runtimes.runc]
...
[plugins."io.containerd.grpc.v1.cri".containerd.runtimes.runc.options]
SystemdCgroup = true
---------------------------------------
# 同时将sandbox_image的Pause镜像改成符合自己版本的地址:
registry.cn-hangzhou.aliyuncs.com/google_containers/pause:3.6
- 启动Containerd,并配置开机自启动
systemctl daemon-reload && systemctl enable --now containerd
- 配置crictl客户端连接的运行时位置
cat > /etc/crictl.yaml <<EOF
runtime-endpoint: unix:///run/containerd/containerd.sock
image-endpoint: unix:///run/containerd/containerd.sock
timeout: 10
debug: false
EOF
- 测试
systemctl status containerd.service
# 查看镜像
ctr images ls
# 查看容器
ctr container ls
5 kube-apiserver高可用实现
考虑到公有云负载均衡器的成本,本文采用虚拟IP+keepalived+Haproxy实现kube-apiserver的高可用。
高可用架构如下图所示,为节省机器,将Haproxy复用到master节点
- 上文中已创建虚拟IP,接着在虚拟IP控制台绑定后端机器(master01,master02,master03)
- Master节点通过yum安装HAProxy和KeepAlived
yum install keepalived haproxy -y
- 配置HAProxy(所有机器配置相同)
删除默认配置,使用以下配置,注意按需修改监听端口16443和后端负载masterIP:6443
vim /etc/haproxy/haproxy.cfg
global
maxconn 2000
ulimit-n 16384
log 127.0.0.1 local0 err
stats timeout 30s
defaults
log global
mode http
option httplog
timeout connect 5000
timeout client 50000
timeout server 50000
timeout http-request 15s
timeout http-keep-alive 15s
frontend monitor-in
bind *:33305
mode http
option httplog
monitor-uri /monitor
frontend k8s-master
bind 0.0.0.0:16443
bind 127.0.0.1:16443
mode tcp
option tcplog
tcp-request inspect-delay 5s
default_backend k8s-master
backend k8s-master
mode tcp
option tcplog
option tcp-check
balance roundrobin
default-server inter 10s downinter 5s rise 2 fall 2 slowstart 60s maxconn 250 maxqueue 256 weight 100
server master01 10.0.10.11:6443 check
server master02 10.0.10.12:6443 check
server master03 10.0.10.13:6443 check
- 配置keepalived
删除默认配置,使用以下配置,注意区分每个节点的state、unicast_src_ip、priority、unicast_peer配置
vim /etc/keepalived/keepalived.conf
global_defs {
router_id LVS_DEVEL
script_user root
enable_script_security
}
vrrp_script chk_apiserver {
script "/etc/keepalived/check_apiserver.sh"
interval 5
weight -5
fall 2
rise 1
}
vrrp_instance VI_1 {
state MASTER # 主=MASTER,从=BACKUP
interface eth0
unicast_src_ip 10.0.0.11
virtual_router_id 52 # 唯一ID
priority 100 # 主=100,从<100
advert_int 1
authentication {
auth_type PASS
auth_pass K8SHA_KA_AUTH
}
unicast_peer {
10.0.10.12 # 对端节点
10.0.10.13
}
virtual_ipaddress {
10.0.10.10 # 高可用虚拟IP
}
track_script {
chk_apiserver
}
}
- 配置KeepAlived健康检查
vim /etc/keepalived/check_apiserver.sh
#!/bin/bash
err=0
for k in $(seq 1 3)
do
check_code=$(pgrep haproxy)
if [[ $check_code == "" ]]; then
err=$(expr $err + 1)
sleep 1
continue
else
err=0
break
fi
done
if [[ $err != "0" ]]; then
echo "systemctl stop keepalived"
/usr/bin/systemctl stop keepalived
exit 1
else
exit 0
fi
# 执行权限
chmod +x /etc/keepalived/check_apiserver.sh
- 启动haproxy和keepalived
systemctl daemon-reload &&
systemctl enable --now haproxy &&
systemctl enable --now keepalived
# 查看状态
systemctl status haproxy
systemctl status keepalived
# systemctl restart keepalived && systemctl status keepalived
- 测试keepalived是否正常
ping 10.0.10.10 -c 4
telnet 10.0.0.10 16443(安装apiserver后再测试)
---
ip addr show
# 在master01机器上查看是否绑定了虚拟IP
# 关闭master01,会发现虚拟IP被master02绑定
# 再开机master01,虚拟IP会被master01重新绑定
6 K8S&ETCD安装包下载
6.1 kubernetes
- 下载kubernetes安装包,选择v1.26.1,官方发布地址:
提示:kubernetes安装包已同时打包上传至文库,传送地址:k8s-1.26.1版本二进制部署文件(含插件)
https://github.com/kubernetes/kubernetes/tree/master/CHANGELOG
# server版包括了所有组件
wget https://dl.k8s.io/v1.26.1/kubernetes-server-linux-amd64.tar.gz
6.2 etcd
etcd是CoreOS团队于2013年6月发起的开源项目,它的目标是构建一个高可用的分布式键值(key-value)数据库。etcd内部采用raft协议作为一致性算法,etcd基于Go语言实现。
- 下载etcd安装包,选择v3.5.6,官方发布地址:
提示:etcd安装包已同时打包上传至文库,传送地址:k8s-1.26.1版本二进制部署文件(含插件)
https://github.com/etcd-io/etcd/releases
wget https://github.com/etcd-io/etcd/releases/download/v3.5.6/etcd-v3.5.6-linux-amd64.tar.gz
6.3 解压并分发
- 分别解压
# 解压kubernetes安装文件
tar -xf kubernetes-server-linux-amd64.tar.gz --strip-components=3 -C /usr/local/bin kubernetes/server/bin/kube{
let,ctl,-apiserver,-controller-manager,-scheduler,-proxy}
# 解压etcd安装文件
tar -zxvf etcd-v3.5.6-linux-amd64.tar.gz --strip-components=1 -C /usr/local/bin etcd-v3.5.6-linux-amd64/etcd{
,ctl}
- 将组件发送到其他节点
MasterNodes='master02 master03'
WorkNodes='node01'
for NODE in $MasterNodes; do echo $NODE; scp /usr/local/bin/kube{
let,ctl,-apiserver,-controller-manager,-scheduler,-proxy} $NODE:/usr/local/bin/; scp /usr/local/bin/etcd* $NODE:/usr/local/bin/; done
for NODE in $WorkNodes; do scp /usr/local/bin/kube{
let,-proxy} $NODE:/usr/local/bin/; done
7 制作证书
Kubernetes 系统各组件需要使用 TLS 证书对通信进行加密。
7.1 下载生成证书工具CFSSL
CFSSL是CloudFlare开源的一款PKI/TLS工具,CFSSL包含一个命令行工具和一个用于签名,验证并且捆绑TLS证书的HTTP API服务,使用Go语言编写。在使用etcd,kubernetes等组件的过程中会大量接触到证书的生成和使用。
提示:CFSSL安装包已同时打包上传至文库,传送地址:k8s-1.26.1版本二进制部署文件(含插件)
wget "https://github.com/cloudflare/cfssl/releases/download/v1.6.1/cfssl_1.6.1_linux_amd64" -O /usr/local/bin/cfssl
wget "https://github.com/cloudflare/cfssl/releases/download/v1.6.1/cfssljson_1.6.1_linux_amd64" -O /usr/local/bin/cfssljson
# 离线下载
mv cfssl cfssljson /usr/local/bin/
chmod +x /usr/local/bin/cfssl*
7.2 ETCD证书
- 创建etcd证书目录
mkdir -p /etc/etcd/ssl
cd /etc/etcd/ssl
- 创建etcd-ca-csr.json,修改年限为100年
CN(Common Name): etcd/kube-apiserver从证书中提取该字段作为请求的用户名 (User Name);浏览器使用该字段验证网站是否合法,一般写的是域名。
O(Organization): etcd/kube-apiserver 从证书中提取该字段作为请求用户所属的组 (Group);
这两个参数在后面的kubernetes启用RBAC模式中很重要,因为需要设置kubelet、admin等角色权限
C(Country): 国家
ST(State): 州,省
L(Locality): 地区,城市
O(Organization Name): 组织名称,公司名称
OU(Organization Unit Name): 组织单位名称,公司部门
cat > etcd-ca-csr.json << EOF
{
"CN": "etcd",
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "Beijing",
"L": "Beijing",
"O": "etcd",
"OU": "Etcd Security"
}
],
"ca": {
"expiry": "876000h"
}
}
EOF
- 生成etcd的CA认证中心
# 初始化创建CA认证中心,将会生成 ca-key.pem(私钥) ca.pem(公钥)
cfssl gencert -initca etcd-ca-csr.json | cfssljson -bare /etc/etcd/ssl/etcd-ca
# etcd-ca.csr # 根证书申请文件
# etcd-ca-key.pem # 根证书私钥
# etcd-ca.pem # 根证书公钥
# 查看证书时间
openssl x509 -in etcd-ca.pem -noout -text |grep ' Not '
- 创建ca-config.json
# 知识点:
ca-config.json: 可以定义多个 profiles,分别指定不同的过期时间、使用场景等参数;后续在签名证书时使用某个 profile;此实例只有一个kubernetes模板。
signing: 表示该证书可用于签名其它证书;生成的 ca.pem 证书中 CA=TRUE;
server auth: 表示client可以用该CA对server提供的证书进行验证;
client auth: 表示server可以用该CA对client提供的证书进行验证;
cat > ca-config.json << EOF
{
"signing": {
"default": {
"expiry": "876000h"
},
"profiles": {
"kubernetes": {
"usages": [
"signing",
"key encipherment",
"server auth",
"client auth"
],
"expiry": "876000h"
}
}
}
}
EOF
- etcd-csr.json
cat > etcd-csr.json << EOF
{
"CN": "etcd",
"hosts": [
"127.0.0.1",
"master01",
"master02",
"master03",
"10.0.10.11",
"10.0.10.12",
"10.0.10.13"
],
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "Beijing",
"L": "Beijing",
"O": "etcd",
"OU": "Etcd Security"
}
]
}
EOF
- 签发
cfssl gencert \
-ca=/etc/etcd/ssl/etcd-ca.pem \
-ca-key=/etc/etcd/ssl/etcd-ca-key.pem \
-config=ca-config.json \
-profile=kubernetes \
etcd-csr.json | cfssljson -bare /etc/etcd/ssl/etcd
- 将证书复制到其他节点
MasterNodes='master02 master03'
for NODE in $MasterNodes; do
ssh $NODE "mkdir -p /etc/etcd/ssl"
for FILE in etcd-ca-key.pem etcd-ca.pem etcd-key.pem etcd.pem; do
scp /etc/etcd/ssl/${FILE} $NODE:/etc/etcd/ssl/${FILE}
done
done
7.3 apiserver证书
- 创建k8s证书目录
mkdir -p /etc/kubernetes/pki/
cd /etc/kubernetes/pki/
- 创建ca-csr.json,修改年限为100年
cat > ca-csr.json << EOF
{
"CN": "kubernetes",
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "Beijing",
"L": "Beijing",
"O": "Kubernetes",
"OU": "Kubernetes-manual"
}
],
"ca": {
"expiry": "876000h"
}
}
EOF
- 生成k8s的CA认证中心
# 创建k8s的CA认证中心,将会生成 ca-key.pem(私钥) ca.pem(公钥)
cfssl gencert -initca ca-csr.json | cfssljson -bare /etc/kubernetes/pki/ca
# 查看证书时间
openssl x509 -in ca.pem -noout -text |grep ' Not '
- 创建ca-config.json
cat > ca-config.json << EOF
{
"signing": {
"default": {
"expiry": "876000h"
},
"profiles": {
"kubernetes": {
"usages": [
"signing",
"key encipherment",
"server auth",
"client auth"
],
"expiry": "876000h"
}
}
}
}
EOF
- apiserver-csr.json
service网段第一个IP
所有masterIP
负载均衡IP
cat > apiserver-csr.json << EOF
{
"CN": "kube-apiserver",
"hosts": [
"192.168.0.1",
"127.0.0.1",
"10.0.10.10",
"10.0.10.11",
"10.0.10.12",
"10.0.10.13",
"kubernetes",
"kubernetes.default",
"kubernetes.default.svc",
"kubernetes.default.svc.cluster",
"kubernetes.default.svc.cluster.local"
],
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "Beijing",
"L": "Beijing",
"O": "Kubernetes",
"OU": "Kubernetes-manual"
}
]
}
EOF
- 签发
cfssl gencert \
-ca=/etc/kubernetes/pki/ca.pem \
-ca-key=/etc/kubernetes/pki/ca-key.pem \
-config=ca-config.json \
-profile=kubernetes \
apiserver-csr.json | cfssljson -bare /etc/kubernetes/pki/apiserver
7.4 apiserver聚合证书
- front-proxy-ca-csr.json
cat > front-proxy-ca-csr.json << EOF
{
"CN": "kubernetes",
"key": {
"algo": "rsa",
"size": 2048
},
"ca": {
"expiry": "876000h"
}
}
EOF
- 创建apiserver聚合证书的CA认证中心
cfssl gencert -initca front-proxy-ca-csr.json | cfssljson -bare /etc/kubernetes/pki/front-proxy-ca
cat > front-proxy-client-csr.json << EOF
{
"CN": "front-proxy-client",
"key": {
"algo": "rsa",
"size": 2048
}
}
EOF
- 签发
cfssl gencert \
-ca=/etc/kubernetes/pki/front-proxy-ca.pem \
-ca-key=/etc/kubernetes/pki/front-proxy-ca-key.pem \
-config=ca-config.json \
-profile=kubernetes \
front-proxy-client-csr.json | cfssljson -bare /etc/kubernetes/pki/front-proxy-client
7.5 controller-manage证书
cat > manager-csr.json << EOF
{
"CN": "system:kube-controller-manager",
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "Beijing",
"L": "Beijing",
"O": "system:kube-controller-manager",
"OU": "Kubernetes-manual"
}
]
}
EOF
- 签发
cfssl gencert \
-ca=/etc/kubernetes/pki/ca.pem \
-ca-key=/etc/kubernetes/pki/ca-key.pem \
-config=ca-config.json \
-profile=kubernetes \
manager-csr.json | cfssljson -bare /etc/kubernetes/pki/controller-manager
- 配置controller-manager.kubeconfig(VIP)
kubectl config set-cluster kubernetes \
--certificate-authority=/etc/kubernetes/pki/ca.pem \
--embed-certs=true \
--server=https://10.0.10.10:16443 \
--kubeconfig=/etc/kubernetes/controller-manager.kubeconfig
# 设置一个环境项,一个上下文
kubectl config set-context system:kube-controller-manager@kubernetes \
--cluster=kubernetes \
--user=system:kube-controller-manager \
--kubeconfig=/etc/kubernetes/controller-manager.kubeconfig
# set-credentials 设置一个用户项
kubectl config set-credentials system:kube-controller-manager \
--client-certificate=/etc/kubernetes/pki/controller-manager.pem \
--client-key=/etc/kubernetes/pki/controller-manager-key.pem \
--embed-certs=true \
--kubeconfig=/etc/kubernetes/controller-manager.kubeconfig
# 使用某个环境当做默认环境
kubectl config use-context system:kube-controller-manager@kubernetes \
--kubeconfig=/etc/kubernetes/controller-manager.kubeconfig
7.6 scheduler证书
cat > scheduler-csr.json<< EOF
{
"CN": "system:kube-scheduler",
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "Beijing",
"L": "Beijing",
"O": "system:kube-scheduler",
"OU": "Kubernetes-manual"
}
]
}
EOF
- 签发
cfssl gencert \
-ca=/etc/kubernetes/pki/ca.pem \
-ca-key=/etc/kubernetes/pki/ca-key.pem \
-config=ca-config.json \
-profile=kubernetes \
scheduler-csr.json | cfssljson -bare /etc/kubernetes/pki/scheduler
- 配置scheduler.kubeconfig
kubectl config set-cluster kubernetes \
--certificate-authority=/etc/kubernetes/pki/ca.pem \
--embed-certs=true \
--server=https://10.0.10.10:16443 \
--kubeconfig=/etc/kubernetes/scheduler.kubeconfig
kubectl config set-credentials system:kube-scheduler \
--client-certificate=/etc/kubernetes/pki/scheduler.pem \
--client-key=/etc/kubernetes/pki/scheduler-key.pem \
--embed-certs=true \
--kubeconfig=/etc/kubernetes/scheduler.kubeconfig
kubectl config set-context system:kube-scheduler@kubernetes \
--cluster=kubernetes \
--user=system:kube-scheduler \
--kubeconfig=/etc/kubernetes/scheduler.kubeconfig
kubectl config use-context system:kube-scheduler@kubernetes \
--kubeconfig=/etc/kubernetes/scheduler.kubeconfig
7.7 admin证书
- admin-csr.json
cat > admin-csr.json << EOF
{
"CN": "admin",
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "Beijing",
"L": "Beijing",
"O": "system:masters",
"OU": "Kubernetes-manual"
}
]
}
EOF
- 签发
cfssl gencert \
-ca=/etc/kubernetes/pki/ca.pem \
-ca-key=/etc/kubernetes/pki/ca-key.pem \
-config=ca-config.json \
-profile=kubernetes \
admin-csr.json | cfssljson -bare /etc/kubernetes/pki/admin
- 配置
kubectl config set-cluster kubernetes \
--certificate-authority=/etc/kubernetes/pki/ca.pem \
--embed-certs=true \
--server=https://10.0.10.10:16443 \
--kubeconfig=/etc/kubernetes/admin.kubeconfig
kubectl config set-credentials kubernetes-admin \
--client-certificate=/etc/kubernetes/pki/admin.pem \
--client-key=/etc/kubernetes/pki/admin-key.pem \
--embed-certs=true \
--kubeconfig=/etc/kubernetes/admin.kubeconfig
kubectl config set-context kubernetes-admin@kubernetes \
--cluster=kubernetes \
--user=kubernetes-admin \
--kubeconfig=/etc/kubernetes/admin.kubeconfig
kubectl config use-context kubernetes-admin@kubernetes \
--kubeconfig=/etc/kubernetes/admin.kubeconfig
7.8 ServiceAccount Key
openssl genrsa -out /etc/kubernetes/pki/sa.key 2048
openssl rsa -in /etc/kubernetes/pki/sa.key -pubout -out /etc/kubernetes/pki/sa.pub
7.9 发送证书至其他节点
for NODE in master02 master03; do
for FILE in $(ls /etc/kubernetes/pki | grep -v etcd); do
ssh $NODE "mkdir -p /etc/kubernetes/pki"
scp /etc/kubernetes/pki/${FILE} $NODE:/etc/kubernetes/pki/${FILE};
done;
for FILE in admin.kubeconfig controller-manager.kubeconfig scheduler.kubeconfig; do
scp /etc/kubernetes/${FILE} $NODE:/etc/kubernetes/${FILE};
done;
done
- 查看证书数量(31个)
ls /etc/kubernetes/pki/ |wc -l
8 Kubernetes系统组件配置
8.1 ETCD
- master01
vim /etc/etcd/etcd.config.yml
name: 'master01'
data-dir: /var/lib/etcd
wal-dir: /var/lib/etcd/wal
snapshot-count: 5000
heartbeat-interval: 100
election-timeout: 1000
quota-backend-bytes: 0
listen-peer-urls: 'https://10.0.10.11:2380'
listen-client-urls: 'https://10.0.10.11:2379,http://127.0.0.1:2379'
max-snapshots: 3
max-wals: 5
cors:
initial-advertise-peer-urls: 'https://10.0.10.11:2380'
advertise-client-urls: 'https://10.0.10.11:2379'
discovery:
discovery-fallback: 'proxy'
discovery-proxy:
discovery-srv:
initial-cluster: 'master01=https://10.0.10.11:2380,master02=https://10.0.10.12:2380,master03=https://10.0.10.13:2380'
initial-cluster-token: 'etcd-k8s-cluster'
initial-cluster-state: 'new'
strict-reconfig-check: false
enable-v2: true
enable-pprof: true
proxy: 'off'
proxy-failure-wait: 5000
proxy-refresh-interval: 30000
proxy-dial-timeout: 1000
proxy-write-timeout: 5000
proxy-read-timeout: 0
client-transport-security:
cert-file: '/etc/kubernetes/pki/etcd/etcd.pem'
key-file: '/etc/kubernetes/pki/etcd/etcd-key.pem'
client-cert-auth: true
trusted-ca-file: '/etc/kubernetes/pki/etcd/etcd-ca.pem'
auto-tls: true
peer-transport-security:
cert-file: '/etc/kubernetes/pki/etcd/etcd.pem'
key-file: '/etc/kubernetes/pki/etcd/etcd-key.pem'
peer-client-cert-auth: true
trusted-ca-file: '/etc/kubernetes/pki/etcd/etcd-ca.pem'
auto-tls: true
debug: false
log-package-levels:
log-outputs: [default]
force-new-cluster: false
-
其它master节点注意修改名称和IP即可
-
创建etcd service并启动
cat > /usr/lib/systemd/system/etcd.service << EOF
[Unit]
Description=Etcd Service
Documentation=https://coreos.com/etcd/docs/latest/
After=network.target
[Service]
Type=notify
ExecStart=/usr/local/bin/etcd --config-file=/etc/etcd/etcd.config.yml
Restart=on-failure
RestartSec=10
LimitNOFILE=65536
[Install]
WantedBy=multi-user.target
Alias=etcd3.service
EOF
- 证书目录
mkdir -p /etc/kubernetes/pki/etcd
ln -s /etc/etcd/ssl/* /etc/kubernetes/pki/etcd/
systemctl daemon-reload
systemctl enable --now etcd
- 查看ETCD状态
export ETCDCTL_API=3
etcdctl --endpoints="10.0.10.11:2379,10.0.10.12:2379,10.0.10.13:2379" --cacert=/etc/kubernetes/pki/etcd/etcd-ca.pem --cert=/etc/kubernetes/pki/etcd/etcd.pem --key=/etc/kubernetes/pki/etcd/etcd-key.pem endpoint status --write-out=table
8.2 apiserver
- 所有节点创建相关目录
mkdir -p /etc/kubernetes/manifests/ /etc/systemd/system/kubelet.service.d /var/lib/kubelet /var/log/kubernetes
- master01
vim /usr/lib/systemd/system/kube-apiserver.service
[Unit]
Description=Kubernetes API Server
Documentation=https://github.com/kubernetes/kubernetes
After=network.target
[Service]
ExecStart=/usr/local/bin/kube-apiserver \
--v=2 \
--allow-privileged=true \
--bind-address=0.0.0.0 \
--secure-port=6443 \
--advertise-address=10.0.10.11 \
--service-cluster-ip-range=192.168.0.0/16 \
--service-node-port-range=30000-32767 \
--etcd-servers=https://10.0.10.11:2379,https://10.0.10.12:2379,https://10.0.10.13:2379 \
--etcd-cafile=/etc/etcd/ssl/etcd-ca.pem \
--etcd-certfile=/etc/etcd/ssl/etcd.pem \
--etcd-keyfile=/etc/etcd/ssl/etcd-key.pem \
--client-ca-file=/etc/kubernetes/pki/ca.pem \
--tls-cert-file=/etc/kubernetes/pki/apiserver.pem \
--tls-private-key-file=/etc/kubernetes/pki/apiserver-key.pem \
--kubelet-client-certificate=/etc/kubernetes/pki/apiserver.pem \
--kubelet-client-key=/etc/kubernetes/pki/apiserver-key.pem \
--service-account-key-file=/etc/kubernetes/pki/sa.pub \
--service-account-signing-key-file=/etc/kubernetes/pki/sa.key \
--service-account-issuer=https://kubernetes.default.svc.cluster.local \
--kubelet-preferred-address-types=InternalIP,ExternalIP,Hostname \
--enable-admission-plugins=NamespaceLifecycle,LimitRanger,ServiceAccount,DefaultStorageClass,DefaultTolerationSeconds,NodeRestriction,ResourceQuota \
--authorization-mode=Node,RBAC \
--enable-bootstrap-token-auth=true \
--requestheader-client-ca-file=/etc/kubernetes/pki/front-proxy-ca.pem \
--proxy-client-cert-file=/etc/kubernetes/pki/front-proxy-client.pem \
--proxy-client-key-file=/etc/kubernetes/pki/front-proxy-client-key.pem \
--requestheader-allowed-names=aggregator \
--requestheader-group-headers=X-Remote-Group \
--requestheader-extra-headers-prefix=X-Remote-Extra- \
--requestheader-username-headers=X-Remote-User
# --token-auth-file=/etc/kubernetes/token.csv
Restart=on-failure
RestartSec=10s
LimitNOFILE=65535
[Install]
WantedBy=multi-user.target
-
其它master修改–advertise-address
-
启动
systemctl daemon-reload && systemctl enable --now kube-apiserver
8.3 kube-controller-manager
vim /usr/lib/systemd/system/kube-controller-manager.service
[Unit]
Description=Kubernetes Controller Manager
Documentation=https://github.com/kubernetes/kubernetes
After=network.target
[Service]
ExecStart=/usr/local/bin/kube-controller-manager \
--v=2 \
--root-ca-file=/etc/kubernetes/pki/ca.pem \
--cluster-signing-cert-file=/etc/kubernetes/pki/ca.pem \
--cluster-signing-key-file=/etc/kubernetes/pki/ca-key.pem \
--service-account-private-key-file=/etc/kubernetes/pki/sa.key \
--kubeconfig=/etc/kubernetes/controller-manager.kubeconfig \
--feature-gates=LegacyServiceAccountTokenNoAutoGeneration=false \
--leader-elect=true \
--use-service-account-credentials=true \
--node-monitor-grace-period=40s \
--node-monitor-period=5s \
--pod-eviction-timeout=2m0s \
--controllers=*,bootstrapsigner,tokencleaner \
--allocate-node-cidrs=true \
--cluster-cidr=172.16.0.0/12 \
--requestheader-client-ca-file=/etc/kubernetes/pki/front-proxy-ca.pem \
--node-cidr-mask-size=24
Restart=always
RestartSec=10s
[Install]
WantedBy=multi-user.target
- 启动
systemctl daemon-reload && systemctl enable --now kube-controller-manager
- 查看状态
systemctl status kube-controller-manager
8.4 Scheduler
vim /usr/lib/systemd/system/kube-scheduler.service
[Unit]
Description=Kubernetes Scheduler
Documentation=https://github.com/kubernetes/kubernetes
After=network.target
[Service]
ExecStart=/usr/local/bin/kube-scheduler \
--v=2 \
--leader-elect=true \
--authentication-kubeconfig=/etc/kubernetes/scheduler.kubeconfig \
--authorization-kubeconfig=/etc/kubernetes/scheduler.kubeconfig \
--kubeconfig=/etc/kubernetes/scheduler.kubeconfig
Restart=always
RestartSec=10s
[Install]
WantedBy=multi-user.target
systemctl daemon-reload && systemctl enable --now kube-scheduler
9 TLS Bootstrapping配置
- 在master01创建bootstrap
kubectl config set-cluster kubernetes \
--certificate-authority=/etc/kubernetes/pki/ca.pem \
--embed-certs=true \
--server=https://10.0.10.10:16443 \
--kubeconfig=/etc/kubernetes/bootstrap-kubelet.kubeconfig
kubectl config set-credentials tls-bootstrap-token-user \
--token=c8ad9c.2e4d610cf3e7426e \
--kubeconfig=/etc/kubernetes/bootstrap-kubelet.kubeconfig
kubectl config set-context tls-bootstrap-token-user@kubernetes \
--cluster=kubernetes \
--user=tls-bootstrap-token-user \
--kubeconfig=/etc/kubernetes/bootstrap-kubelet.kubeconfig
kubectl config use-context tls-bootstrap-token-user@kubernetes \
--kubeconfig=/etc/kubernetes/bootstrap-kubelet.kubeconfig
cd /etc/kubernetes/
vim bootstrap.secret.yaml
apiVersion: v1
kind: Secret
metadata:
name: bootstrap-token-c8ad9c
namespace: kube-system
type: bootstrap.kubernetes.io/token
stringData:
description: "The default bootstrap token generated by 'kubelet '."
token-id: c8ad9c
token-secret: 2e4d610cf3e7426e
usage-bootstrap-authentication: "true"
usage-bootstrap-signing: "true"
auth-extra-groups: system:bootstrappers:default-node-token,system:bootstrappers:worker,system:bootstrappers:ingress
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
name: kubelet-bootstrap
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: system:node-bootstrapper
subjects:
- apiGroup: rbac.authorization.k8s.io
kind: Group
name: system:bootstrappers:default-node-token
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
name: node-autoapprove-bootstrap
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: system:certificates.k8s.io:certificatesigningrequests:nodeclient
subjects:
- apiGroup: rbac.authorization.k8s.io
kind: Group
name: system:bootstrappers:default-node-token
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
name: node-autoapprove-certificate-rotation
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: system:certificates.k8s.io:certificatesigningrequests:selfnodeclient
subjects:
- apiGroup: rbac.authorization.k8s.io
kind: Group
name: system:nodes
---
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
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: kube-apiserver
- 配置kubeconfig
mkdir -p /root/.kube ; cp /etc/kubernetes/admin.kubeconfig /root/.kube/config
- 查询集群状态
kubectl get cs
- 创建
kubectl create -f bootstrap.secret.yaml
10 Node节点配置
注:master也看做是node节点,承担负载
10.1 复制证书
cd /etc/kubernetes/
for NODE in master02 master03 node01; do
ssh $NODE mkdir -p /etc/kubernetes/pki /etc/etcd/ssl /etc/etcd/ssl
for FILE in etcd-ca.pem etcd.pem etcd-key.pem; do
scp /etc/etcd/ssl/$FILE $NODE:/etc/etcd/ssl/
done
for FILE in pki/ca.pem pki/ca-key.pem pki/front-proxy-ca.pem bootstrap-kubelet.kubeconfig; do
scp /etc/kubernetes/$FILE $NODE:/etc/kubernetes/${FILE}
done
done
10.2 kubelet配置
- 所有节点创建相关目录
mkdir -p /var/lib/kubelet /var/log/kubernetes /etc/systemd/system/kubelet.service.d /etc/kubernetes/manifests/ /opt/cni/bin
- 配置kubelet service
cat > /usr/lib/systemd/system/kubelet.service << EOF
[Unit]
Description=Kubernetes Kubelet
Documentation=https://github.com/kubernetes/kubernetes
[Service]
ExecStart=/usr/local/bin/kubelet
Restart=always
StartLimitInterval=0
RestartSec=10
[Install]
WantedBy=multi-user.target
EOF
- 10-kubelet.conf【containerd】
vim /etc/systemd/system/kubelet.service.d/10-kubelet.conf
[Service]
Environment="KUBELET_KUBECONFIG_ARGS=--bootstrap-kubeconfig=/etc/kubernetes/bootstrap-kubelet.kubeconfig --kubeconfig=/etc/kubernetes/kubelet.kubeconfig"
Environment="KUBELET_SYSTEM_ARGS=--container-runtime=remote --runtime-request-timeout=15m --container-runtime-endpoint=unix:///run/containerd/containerd.sock --cgroup-driver=systemd"
Environment="KUBELET_CONFIG_ARGS=--config=/etc/kubernetes/kubelet-conf.yml"
Environment="KUBELET_EXTRA_ARGS=--node-labels=node.kubernetes.io/node='' "
ExecStart=
ExecStart=/usr/local/bin/kubelet $KUBELET_KUBECONFIG_ARGS $KUBELET_CONFIG_ARGS $KUBELET_SYSTEM_ARGS $KUBELET_EXTRA_ARGS
vim /etc/kubernetes/kubelet-conf.yml
apiVersion: kubelet.config.k8s.io/v1beta1
kind: KubeletConfiguration
address: 0.0.0.0
port: 10250
readOnlyPort: 10255
authentication:
anonymous:
enabled: false
webhook:
cacheTTL: 2m0s
enabled: true
x509:
clientCAFile: /etc/kubernetes/pki/ca.pem
authorization:
mode: Webhook
webhook:
cacheAuthorizedTTL: 5m0s
cacheUnauthorizedTTL: 30s
cgroupDriver: systemd
cgroupsPerQOS: true
clusterDNS:
- 192.168.0.10
clusterDomain: cluster.local
containerLogMaxFiles: 5
containerLogMaxSize: 10Mi
contentType: application/vnd.kubernetes.protobuf
cpuCFSQuota: true
cpuManagerPolicy: none
cpuManagerReconcilePeriod: 10s
enableControllerAttachDetach: true
enableDebuggingHandlers: true
enforceNodeAllocatable:
- pods
eventBurst: 10
eventRecordQPS: 5
evictionHard:
imagefs.available: 15%
memory.available: 100Mi
nodefs.available: 10%
nodefs.inodesFree: 5%
evictionPressureTransitionPeriod: 5m0s
failSwapOn: true
fileCheckFrequency: 20s
hairpinMode: promiscuous-bridge
healthzBindAddress: 127.0.0.1
healthzPort: 10248
httpCheckFrequency: 20s
imageGCHighThresholdPercent: 85
imageGCLowThresholdPercent: 80
imageMinimumGCAge: 2m0s
iptablesDropBit: 15
iptablesMasqueradeBit: 14
kubeAPIBurst: 10
kubeAPIQPS: 5
makeIPTablesUtilChains: true
maxOpenFiles: 1000000
maxPods: 110
nodeStatusUpdateFrequency: 10s
oomScoreAdj: -999
podPidsLimit: -1
registryBurst: 10
registryPullQPS: 5
resolvConf: /etc/resolv.conf
rotateCertificates: true
runtimeRequestTimeout: 2m0s
serializeImagePulls: true
staticPodPath: /etc/kubernetes/manifests
streamingConnectionIdleTimeout: 4h0m0s
syncFrequency: 1m0s
volumeStatsAggPeriod: 1m0s
systemctl daemon-reload && systemctl enable --now kubelet
10.3 kube-proxy配置
- master01操作
kubectl -n kube-system create serviceaccount kube-proxy
kubectl create clusterrolebinding system:kube-proxy \
--clusterrole system:node-proxier \
--serviceaccount kube-system:kube-proxy
SECRET=$(kubectl -n kube-system get sa/kube-proxy \
--output=jsonpath='{.secrets[0].name}')
JWT_TOKEN=$(kubectl -n kube-system get secret/$SECRET \
--output=jsonpath='{.data.token}' | base64 -d)
PKI_DIR=/etc/kubernetes/pki
K8S_DIR=/etc/kubernetes
kubectl config set-cluster kubernetes \
--certificate-authority=/etc/kubernetes/pki/ca.pem \
--embed-certs=true \
--server=https://10.0.10.10:16443 \
--kubeconfig=${K8S_DIR}/kube-proxy.kubeconfig
kubectl config set-credentials kubernetes \
--token=${JWT_TOKEN} \
--kubeconfig=/etc/kubernetes/kube-proxy.kubeconfig
kubectl config set-context kubernetes \
--cluster=kubernetes \
--user=kubernetes \
--kubeconfig=/etc/kubernetes/kube-proxy.kubeconfig
kubectl config use-context kubernetes --kubeconfig=/etc/kubernetes/kube-proxy.kubeconfig
for NODE in master02 master03; do
scp /etc/kubernetes/kube-proxy.kubeconfig $NODE:/etc/kubernetes/kube-proxy.kubeconfig
done
for NODE in node01; do
scp /etc/kubernetes/kube-proxy.kubeconfig $NODE:/etc/kubernetes/kube-proxy.kubeconfig
done
- 所有节点添加kube-proxy的配置和service文件
cat > /usr/lib/systemd/system/kube-proxy.service << EOF
[Unit]
Description=Kubernetes Kube Proxy
Documentation=https://github.com/kubernetes/kubernetes
After=network.target
[Service]
ExecStart=/usr/local/bin/kube-proxy \
--config=/etc/kubernetes/kube-proxy.yaml \
--v=2
Restart=always
RestartSec=10s
[Install]
WantedBy=multi-user.target
EOF
cat > /etc/kubernetes/kube-proxy.yaml << EOF
apiVersion: kubeproxy.config.k8s.io/v1alpha1
bindAddress: 0.0.0.0
clientConnection:
acceptContentTypes: ""
burst: 10
contentType: application/vnd.kubernetes.protobuf
kubeconfig: /etc/kubernetes/kube-proxy.kubeconfig
qps: 5
clusterCIDR: 172.16.0.0/12
configSyncPeriod: 15m0s
conntrack:
max: null
maxPerCore: 32768
min: 131072
tcpCloseWaitTimeout: 1h0m0s
tcpEstablishedTimeout: 24h0m0s
enableProfiling: false
healthzBindAddress: 0.0.0.0:10256
hostnameOverride: ""
iptables:
masqueradeAll: false
masqueradeBit: 14
minSyncPeriod: 0s
syncPeriod: 30s
ipvs:
masqueradeAll: true
minSyncPeriod: 5s
scheduler: "rr"
syncPeriod: 30s
kind: KubeProxyConfiguration
metricsBindAddress: 127.0.0.1:10249
mode: "ipvs"
nodePortAddresses: null
oomScoreAdj: -999
portRange: ""
udpIdleTimeout: 250ms
EOF
systemctl daemon-reload && systemctl enable --now kube-proxy
11 插件安装
11.1 安装kubectl命令补全工具
master01(即控制机)安装即可
yum install -y bash-completion
source /usr/share/bash-completion/bash_completion
source <(kubectl completion bash)
echo "source <(kubectl completion bash)" >> ~/.bashrc
11.2 安装Calico
官方地址:Calico官方安装方法
- 下载calico部署文件
提示:calico部署文件已同时打包上传至文库,传送地址:k8s-1.26.1版本二进制部署文件(含插件)
curl https://projectcalico.docs.tigera.io/manifests/calico.yaml -o calico.yaml
- 若POD网段不是192.168.0.0/16,需打开注释修改:CALICO_IPV4POOL_CIDR
- name: CALICO_IPV4POOL_CIDR
value: "172.16.0.0/12"
kubectl apply -f calico.yaml
- 查看部署状态
kubectl get pod -A -o wide -w
11.3 安装coreDNS
- 下载官方最新部署文件(官方github地址)
提示:coreDNS部署文件已同时打包上传至文库,传送地址:k8s-1.26.1版本二进制部署文件(含插件)
# git clone
https://github.com/coredns/deployment.git
# 或手动下载deployment/kubernetes文件夹下的deploy.sh和coredns.yaml.sed文件
- 获取clusterDNS IP
CLUSTER_DNS_IP=`kubectl get svc | grep kubernetes | awk '{print $3}'`0
- 填充到官方部署文件
chmod +x deploy.sh
./deploy.sh -s -i ${CLUSTER_DNS_IP} > coredns.yaml
- 修改副本数replicas为2后,部署
kubectl apply -f coredns.yaml
11.4 Metrics部署
在新版的Kubernetes中系统资源的采集均使用Metrics-server,可以通过Metrics采集节点和Pod的内存、磁盘、CPU和网络的使用率
提示:Metrics部署文件已同时打包上传至文库,传送地址:k8s-1.26.1版本二进制部署文件(含插件)
wget https://github.com/kubernetes-sigs/metrics-server/releases/latest/download/components.yaml
- 修改参数及镜像
vim components.yaml
- args:
- --cert-dir=/tmp
- --secure-port=4443
- --kubelet-preferred-address-types=InternalIP,ExternalIP,Hostname
- --kubelet-use-node-status-port
- --metric-resolution=15s
- --kubelet-insecure-tls
- --requestheader-client-ca-file=/etc/kubernetes/pki/front-proxy-ca.pem
- --requestheader-username-headers=X-Remote-User
- --requestheader-group-headers=X-Remote-Group
- --requestheader-extra-headers-prefix=X-Remote-Extra-
image: registry.cn-hangzhou.aliyuncs.com/google_containers/metrics-server:v0.6.2
- 挂载证书
volumeMounts:
- mountPath: /tmp
name: tmp-dir
- name: ca-ssl
mountPath: /etc/kubernetes/pki
nodeSelector:
kubernetes.io/os: linux
priorityClassName: system-cluster-critical
serviceAccountName: metrics-server
volumes:
- emptyDir: {
}
name: tmp-dir
- name: ca-ssl
hostPath:
path: /etc/kubernetes/pki
- 部署
kubectl apply -f components.yaml
- 查看metrics
kubectl top nodes
kubectl top pod -A
11.5 Dashboard部署
Dashboard用于展示集群中的各类资源,同时也可以通过Dashboard实时查看Pod的日志和在容器中执行一些命令等。
官方地址: K8S官方Dashboard最新部署模板
- 下载最新部署模板
提示:Dashboard部署文件已同时打包上传至文库,传送地址:k8s-1.26.1版本二进制部署文件(含插件)
wget https://raw.githubusercontent.com/kubernetes/dashboard/master/charts/recommended.yaml
- 按需修改service,通过nodesport暴露端口
vim recommended.yaml
kind: Service
apiVersion: v1
metadata:
labels:
k8s-app: kubernetes-dashboard
name: kubernetes-dashboard
namespace: kubernetes-dashboard
spec:
type: NodePort
ports:
- port: 443
targetPort: 8443
nodePort: 31443
selector:
k8s-app: kubernetes-dashboard
kubectl apply -f recommended.yaml
- 创建用户
vim admin.yaml
apiVersion: v1
kind: ServiceAccount
metadata:
name: admin-user
namespace: kube-system
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
name: admin-user
annotations:
rbac.authorization.kubernetes.io/autoupdate: "true"
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: cluster-admin
subjects:
- kind: ServiceAccount
name: admin-user
namespace: kube-system
kubectl apply -f admin.yaml
- 查看Token
kubectl -n kube-system describe secret $(kubectl -n kube-system get secret | grep admin-user | awk '{print $1}')
-
在公有云安全组控制台,配置安全组策略,开放该NodePort即可访问
-
访问地址:
https://<node-IP>:31443/,选择token方式,填入获取的token即可
11.6 集群可用性验证
- 部署busybox
cat > busybox-deploy.yaml << EOF
apiVersion: apps/v1
kind: Deployment
metadata:
name: busybox
spec:
selector:
matchLabels:
app: busybox
template:
metadata:
labels:
app: busybox
spec:
containers:
- name: busybox
image: busybox:1.28 # 1.29以上nslookup命令有问题
args:
- /bin/sh
- -c
- sleep 10; touch /tmp/healthy; sleep 30000
readinessProbe: #就绪探针
exec:
command:
- cat
- /tmp/healthy
initialDelaySeconds: 10 #10s之后开始第一次探测
periodSeconds: 5 #第一次探测之后每隔5s探测一次
EOF
kubectl apply -f busybox-deploy.yaml
- 验证
# Pod解析Service
busyboxpod=$(kubectl get pods -l app=busybox -o jsonpath='{.items[0].metadata.name}')
kubectl exec -it $busyboxpod -- nslookup kubernetes
# Pod能解析跨namespace的Service
kubectl exec -it $busyboxpod -- nslookup kube-dns.kube-system
# 每个节点都必须要能访问Kubernetes的kubernetes svc 443和kube-dns的service 53
# 安装telnet
yum install telnet -y
telnet 192.168.0.1 443
telnet 192.168.0.10 53
# Pod和Pod之间跨namespace跨机器都能通信
# 另一种方法是通过dig命令测试coredns解析,其中192.168.0.10为coredns-IP
yum -y install bind-utils
dig -t A kubernetes.default.svc.cluster.local. @192.168.0.10 +short
dig -t A kubernetes-dashboard.kubernetes-dashboard.svc.cluster.local. @192.168.0.10 +short