部署前准备
1) 系统优化
所有机器.
关闭防火墙和selinux
# setenforce 0
# sed -i "s#SELINUX=enforcing#SELINUX=disabled#g" /etc/selinux/config
# systemctl stop firewalld && systemctl disable firewalld
配置阿里云镜像源
mkdir -p /etc/yum.repos.d/bak
mv -t /etc/yum.repos.d/bak/ /etc/yum.repos.d/*
curl -o /etc/yum.repos.d/CentOS-Base.repo http://mirrors.aliyun.com/repo/Centos-7.repo
yum -y remove epel-re*
yum clean all
yum -y install epel-re*
配置ntp时间对时
yum -y install ntpdate
/usr/sbin/ntpdate ntp7.aliyun.com > /dev/null 2>&1
(crontab -l; echo "00 23 * * * /usr/sbin/ntpdate ntp7.aliyun.com > /dev/null 2>&1" ) | crontab
2,检查内核版本,查看是否高于 3.8(Docker 需要)
# uname -
3,安装一些工具
yum install wget net-tools telnet tree nmap sysstat lrzsz dos2unix buind-utils -y
2) 安装DNS服务
安装 bind9 服务,在 11 机器上
[root@zsf7-11 ~]# yum -y install bind9
[root@zsf7-11 ~]# vim /etc/named.conf
listen-on port 53 { 10.4.7.11; };
allow-query { any; }; //允许那些客户端来请求
forwarders { 10.4.7.254; }; //上级 DNS 地址
recursion yes; //当前 DNS采用递归算法提供服务,默认迭代和递归
dnssec-enable no;
dnssec-validation no;
检查 DNS 配置文件语法是否正确:
named-checkconf
配置区域文件:
[root@zsf7-11 ~]# vim /etc/named.rfc1912.zones
//主机域
zone "host.com" IN {
type master;
file "host.com.zone";
allow-update { 10.4.7.11; };
};
zone "zsf.com" IN {
type master;
file "zsf.com.zone";
allow-update { 10.4.7.11; };
};
配置主机域的区域文件
[root@zsf7-11 ~]# vim /var/named/host.com.zone
$ORIGIN host.com.
$TTL 600 ; 10 minutes
@ IN SOA dns.host.com. dnsadmin.host.com. (
2020073001 ; serial
10800 ; refresh (3 hours)
900 ; retry (15 minutes)
604800 ; expire (1 week)
86400 ; minimum (1 day)
)
NS dns.host.com.
$TTL 60 ; 1 minute
dns A 10.4.7.11
zsf7-11 A 10.4.7.11
zsf7-12 A 10.4.7.12
zsf7-21 A 10.4.7.21
zsf7-22 A 10.4.7.22
zsf7-200 A 10.4.7.200
[root@zsf7-11 ~]# /var/named/zsf.com.zone
$ORIGIN zsf.com.
$TTL 600 ; 10 minutes
@ IN SOA dns.zsf.com. dnsadmin.zsf.com. (
2020073001 ; serial
10800 ; refresh (3 hours)
900 ; retry (15 minutes)
604800 ; expire (1 week)
86400 ; minimum (1 day)
)
NS dns.zsf.com.
$TTL 60 ; 1 minute
dns A 10.4.7.11
启动
systemctl start named && systemctl enable named
检查
dig -t A 主机名 @DNS 服务器地址 +short
更改所有机器的 DNS 解析地址
vim /etc/sysconfig/network-scripts/ifcfg-ens33
systemctl restart network
添加短域名解析
vim /etc/resolv.conf
search host.com
3) 安装harbor,docker仓库
在github 上面下载harbor 安装包,我们这边安装的是2.0.0 版本
[root@zsf7-200 opt]# mkdir src
[root@zsf7-200 opt]# cd src/
[root@zsf7-200 src]# tar xf harbor-offline-installer-v2.0.0.tgz -C /opt/
[root@zsf7-200 src]# cd /opt/
[root@zsf7-200 opt]# ls
certs containerd harbor src
[root@zsf7-200 opt]# mv harbor/ harbor-2.0.0
[root@zsf7-200 opt]# ln -s harbor-2.0.0/ harbor
[root@zsf7-200 opt]# cd harbor
[root@zsf7-200 harbor]# yum -y install docker-compose //因为harbor 是通过docker compose单机编排的,所以我们需要安装docker-compose
[root@zsf7-200 harbor]# cp harbor.yml.tmpl harbor.yml
[root@zsf7-200 harbor]# egrep -v "#|^$" harbor.yml
hostname: harbor.zsf.com //harbor访问的域名
http:
port: 180
harbor_admin_password: Ysyhl9t! //登录harbor仓库的密码
database:
password: root123
max_idle_conns: 50
max_open_conns: 100
data_volume: /data/harbor //数据存储目录
clair:
updaters_interval: 12
trivy:
ignore_unfixed: false
skip_update: false
insecure: false
jobservice:
max_job_workers: 10
notification:
webhook_job_max_retry: 10
chart:
absolute_url: disabled
log:
level: info
local:
rotate_count: 50
rotate_size: 200M
location: /var/log/harbor
_version: 2.0.0
proxy:
http_proxy:
https_proxy:
no_proxy:
components:
- core
- jobservice
- clair
- trivy
[root@zsf7-200 harbor]# ./install.sh
[Step 0]: checking if docker is installed ...
Note: docker version: 19.03.12
[Step 1]: checking docker-compose is installed ...
Note: docker-compose version: 1.18.0
[Step 2]: loading Harbor images ...
然后在DNS服务器上添加一个A 记录
[root@zsf7-11 ~]# vim /var/named/zsf.com.zone
$ORIGIN zsf.com.
$TTL 600 ; 10 minutes
@ IN SOA dns.zsf.com. dnsadmin.zsf.com. (
2020073003 ; serial
10800 ; refresh (3 hours)
900 ; retry (15 minutes)
604800 ; expire (1 week)
86400 ; minimum (1 day)
)
NS dns.zsf.com.
$TTL 60 ; 1 minute
dns A 10.4.7.11
harbor A 10.4.7.200
//注意 serial 必须改变
[root@zsf7-11 ~]# systemctl restart named
[root@zsf7-11 ~]# ping harbor.zsf.com
PING harbor.zsf.com (10.4.7.200) 56(84) bytes of data.
64 bytes from 10.4.7.200 (10.4.7.200): icmp_seq=1 ttl=64 time=18.9 ms
安装一个nginx代理harbor仓库
[root@zsf7-200 harbor]# yum -y install nginx
[root@zsf7-200 harbor]# cat /etc/nginx/conf.d/harbor.zsf.com.conf
server {
listen 80;
server_name harbor.zsf.com;
client_max_body_size 1000m; //注意docker分层镜像可能大于这个数值,根据自己情况更改
location / {
proxy_pass http://127.0.0.1:180;
}
}
[root@zsf7-200 harbor]# nginx -t
nginx: the configuration file /etc/nginx/nginx.conf syntax is ok
nginx: configuration file /etc/nginx/nginx.conf test is successful
[root@zsf7-200 harbor]# systemctl start nginx && systemctl enable nginx
Created symlink from /etc/systemd/system/multi-user.target.wants/nginx.service to /usr/lib/systemd/system/nginx.service.
创建一个public的仓库,登录web界面
<img src="https://zhangshoufu-images.oss-cn-hangzhou.aliyuncs.com/imagesimage-20200806112601173.png" alt="image-20200806112601173" style="zoom:50%;" />
然后测试上传镜像是否正常,
[root@zsf7-21 ~]# docker pull nginx
[root@zsf7-21 ~]# docker tag nginx:latest harbor.zsf.com/public/nginx:1.17.0
[root@zsf7-21 ~]# docker login -u admin -p Ysyhl9t! harbor.zsf.com
WARNING! Using --password via the CLI is insecure. Use --password-stdin.
WARNING! Your password will be stored unencrypted in /root/.docker/config.json.
Configure a credential helper to remove this warning. See
https://docs.docker.com/engine/reference/commandline/login/#credentials-store
Login Succeeded
[root@zsf7-21 ~]# docker push harbor.zsf.com/public/nginx:1.17.0
可以在harbor仓库内看到镜像,到此harbor仓库搭建完成
4) 安装Docker
3,安装 docker,
在这些机器上安装Docker :zsf7-21,zsf7-22,zsf7-200
curl -fsSL https://get.docker.com | bash -s docker --mirror Aliyun
更改 Docker 配置文件
certs]# mkdir -p /data/docker
certs]# mkdir -p /etc/docker/
certs]# vim /etc/docker/daemon.json
{
"graph": "/data/docker",
"storage-driver": "overlay2",
"insecure-registries": ["registry.access.redhat.com","quay.io","harbor.zsf.com"],
"registry-mirrors": ["https://q2gr04ke.mirror.aliyuncs.com"],
"bip": "172.7.21.1/24",
"exec-opts": ["native.cgroupdriver=systemd"],
"live-restore": true
}
解释
{
"graph": "/data/docker", //docker放在什么位置
"storage-driver": "overlay2", //存储引擎
"insecure-registries": ["registry.access.redhat.com","quay.io","harbor.zsf.com"], //添加http的harbor仓库
"registry-mirrors": ["https://q2gr04ke.mirror.aliyuncs.com"], //配置阿里云镜像加速
"bip": "172.7.21.1/24", //Docker的虚拟IP地址,需要改成每台主机的最后一位
"exec-opts": ["native.cgroupdriver=systemd"], //docker cgroup 驱动
"live-restore": true //当docker daemon down时容器能正常运行
}
启动Docker
systemctl start docker.service && systemctl enable docker.service
准备自签证书
1,安装生产自签证书需要的软件
[root@zsf7-200 ~]# wget https://pkg.cfssl.org/R1.2/cfssl_linux-amd64 -O /usr/bin/cfssl //创建证书,创建出来的证书是声明式的
[root@zsf7-200 ~]# wget https://pkg.cfssl.org/R1.2/cfssljson_linux-amd64 -O /usr/bin/cfssl-json //将声明式的证书转换成 json 格式,变成承载式
[root@zsf7-200 ~]# wget https://pkg.cfssl.org/R1.2/cfssl-certinfo_linux-amd64 -O /usr/bin/cfssl-certinfo //反解析证书
[root@zsf7-200 ~]# chmod +x /usr/bin/cfssl*
2,生成自签证书
[root@zsf7-200 ~]# mkdir /opt/certs
[root@zsf7-200 ~]# cd /opt/certs
1)创建根证书申请文件
[root@zsf7-200 certs]# vim /opt/certs/ca-csr.json
{
"CN": "OldboyEdu",
"hosts": [
],
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "beijing",
"L": "beijing",
"O": "od",
"OU": "ops"
}
],
"ca": {
"expiry": "175200h"
}
}
解释
{
"CN": "公司机构",
"hosts": [
],
"key": {
"algo": "rsa", //加密算法
"size": 2048 //加密长度
},
"names": [
{
"C": "CN", //国家
"ST": "beijing", //省份
"L": "beijing", //城市
"O": "od", //
"OU": "ops" //职位
}
],
"ca": {
"expiry": "175200h" //证书有效时间
}
}
2) 生成证书
[root@zsf7-200 certs]# cfssl gencert -initca ca-csr.json | cfssl-json -bare ca
2020/08/04 15:43:48 [INFO] generating a new CA key and certificate from CSR
2020/08/04 15:43:48 [INFO] generate received request
2020/08/04 15:43:48 [INFO] received CSR
2020/08/04 15:43:48 [INFO] generating key: rsa-2048
2020/08/04 15:43:48 [INFO] encoded CSR
2020/08/04 15:43:48 [INFO] signed certificate with serial number 187642729321576839847461032555167519484416835896
[root@zsf7-200 certs]# ls
ca.csr ca-csr.json ca-key.pem ca.pem
//为根证书私钥ca-key.pem ca.pem
安装 k8s 服务
安装 master 组件
安装 etcd
12,21,22
1) 签发 ETCD 证书
[root@zsf7-200 certs]# vim /opt/certs/ca-config.json
{
"signing": {
"default": {
"expiry": "175200h"
},
"profiles": { //服务端认证
"server": {
"expiry": "175200h",
"usages": [
"signing",
"key encipherment",
"server auth"
]
},
"client": { //客户端认证
"expiry": "175200h",
"usages": [
"signing",
"key encipherment",
"client auth"
]
},
"peer": { //双向认证
"expiry": "175200h",
"usages": [
"signing",
"key encipherment",
"server auth",
"client auth"
]
}
}
}
}
创建etcd 证书请求的文件
[root@zsf7-200 certs]# vi etcd-peer-csr.json
{
"CN": "k8s-etcd",
//可能部署在哪台主机上,不支持网段,如果后期IP地址不在这个里面需要重新签发证书,所以最好多保留几个IP地址
"hosts": [
"10.4.7.11",
"10.4.7.12",
"10.4.7.21",
"10.4.7.22"
],
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "beijing",
"L": "beijing",
"O": "od",
"OU": "ops"
}
]
}
签发证书
[root@zsf7-200 certs]# cfssl gencert -ca=ca.pem -ca-key=ca-key.pem -config=ca-config.json -profile=peer etcd-peer-csr.json |cfssl-json -bare etcd-peer
//-profile=peer 双向认证使用
2020/08/04 16:02:12 [INFO] generate received request
2020/08/04 16:02:12 [INFO] received CSR
2020/08/04 16:02:12 [INFO] generating key: rsa-2048
2020/08/04 16:02:13 [INFO] encoded CSR
2020/08/04 16:02:13 [INFO] signed certificate with serial number 699445385173737942257356343390958864239006335823
2020/08/04 16:02:13 [WARNING] This certificate lacks a "hosts" field. This makes it unsuitable for
websites. For more information see the Baseline Requirements for the Issuance and Management
of Publicly-Trusted Certificates, v.1.1.6, from the CA/Browser Forum (https://cabforum.org);
specifically, section 10.2.3 ("Information Requirements").
[root@zsf7-200 certs]# ls etcd*
etcd-peer.csr etcd-peer-csr.json etcd-peer-key.pem etcd-peer.pem
2) 安装 etcd
下面的操作在三台etcd 主机上分别进行操作,zsf7-12 zsf7-21 zsf7-22
创建etcd 服务启动的用户
[root@zsf7-12 ~]# useradd -s /sbin/nologin -M etcd
[root@zsf7-12 ~]# id etcd
uid=1000(etcd) gid=1000(etcd) groups=1000(etcd)
下载 ectd 我们去github上面下载对应版本的etcd,我们这边使用的是3.1.20版本
上传下载好的软件包到/opt/src
[root@zsf7-12 src]# ls
etcd-v3.1.20-linux-amd64.tar.gz
[root@zsf7-12 src]# tar xvf etcd-v3.1.20-linux-amd64.tar.gz -C /opt/
[root@zsf7-12 opt]# mv etcd-v3.1.20-linux-amd64/ etcd-v3.1.20
[root@zsf7-12 opt]# ln -s etcd-v3.1.20/ etcd
[root@zsf7-12 opt]# mkdir -p /opt/etcd/certs /data/etcd /data/logs/etcd-server /data/etcd/etcd-server
[root@zsf7-12 opt]# cd /opt/etcd/certs
下面的操作我们只在zsf7-12 这个机器上操作,另外两台机器类比操作
上传自签证书到指定位置
在zsf7-200机器上操作
[root@zsf7-12 certs]# scp ca.pem etcd-peer-key.pem etcd-peer.pem root@10.4.7.12:/opt/etcd/certs
[root@zsf7-12 certs]# scp ca.pem etcd-peer-key.pem etcd-peer.pem root@10.4.7.21:/opt/etcd/certs
[root@zsf7-12 certs]# scp ca.pem etcd-peer-key.pem etcd-peer.pem root@10.4.7.22:/opt/etcd/certs
在zsf7-12 上编写启动脚本
[root@zsf7-12 certs]# ls
ca.pem etcd-peer-key.pem etcd-peer.pem
[root@zsf7-12 ~]# vim /opt/etcd/etcd-server-startup.sh
#!/bin/sh
./etcd --name etcd-server-7-12 --data-dir /data/etcd/etcd-server --listen-peer-urls https://10.4.7.12:2380 --listen-client-urls https://10.4.7.12:2379,http://127.0.0.1:2379 --quota-backend-bytes 8000000000 --initial-advertise-peer-urls https://10.4.7.12:2380 --advertise-client-urls https://10.4.7.12:2379,http://127.0.0.1:2379 --initial-cluster etcd-server-7-12=https://10.4.7.12:2380,etcd-server-7-21=https://10.4.7.21:2380,etcd-server-7-22=https://10.4.7.22:2380 --ca-file ./certs/ca.pem --cert-file ./certs/etcd-peer.pem --key-file ./certs/etcd-peer-key.pem --client-cert-auth --trusted-ca-file ./certs/ca.pem --peer-ca-file ./certs/ca.pem --peer-cert-file ./certs/etcd-peer.pem --peer-key-file ./certs/etcd-peer-key.pem --peer-client-cert-auth --peer-trusted-ca-file ./certs/ca.pem --log-output stdout
[root@zsf7-12 ~]# chmod +x /opt/etcd/etcd-server-startup.sh
更改文件权限
[root@zsf7-12 ~]# chown -R etcd.etcd /opt/etcd-v3.1.20/
[root@zsf7-12 ~]# chown -R etcd.etcd /data/etcd/etcd-server
3, 安装配置supervisor
因为etcd 不能自己后台启动,所以我们使用supervisor来管理它
[root@zsf7-12 ~]# yum install supervisor -y
[root@zsf7-12 ~]# systemctl start supervisord && systemctl enable supervisord
[root@zsf7-12 ~]# vim /etc/supervisord.d/etcd-server.ini
[program:etcd-server-7-12]
command=/opt/etcd/etcd-server-startup.sh ; the program (relative uses PATH, can take args)
numprocs=1 ; number of processes copies to start (def 1)
directory=/opt/etcd ; directory to cwd to before exec (def no cwd)
autostart=true ; start at supervisord start (default: true)
autorestart=true ; retstart at unexpected quit (default: true)
startsecs=30 ; number of secs prog must stay running (def. 1)
startretries=3 ; max # of serial start failures (default 3)
exitcodes=0,2 ; ‘expected‘ exit codes for process (default 0,2)
stopsignal=QUIT ; signal used to kill process (default TERM)
stopwaitsecs=10 ; max num secs to wait b4 SIGKILL (default 10)
user=etcd ; setuid to this UNIX account to run the program
redirect_stderr=true ; redirect proc stderr to stdout (default false)
stdout_logfile=/data/logs/etcd-server/etcd.stdout.log ; stdout log path, NONE for none; default AUTO
stdout_logfile_maxbytes=64MB ; max # logfile bytes b4 rotation (default 50MB)
stdout_logfile_backups=4 ; # of stdout logfile backups (default 10)
stdout_capture_maxbytes=1MB ; number of bytes in ‘capturemode‘ (default 0)
stdout_events_enabled=false ; emit events on stdout writes (default false)
[root@zsf7-12 ~]# supervisorctl update
etcd-server-7-12: added process group
剩下的两台主机也安装 etcd
zsf7-21
etcd]# cat /opt/etcd/etcd-server-startup.sh
#!/bin/sh
./etcd --name etcd-server-7-21 --data-dir /data/etcd/etcd-server --listen-peer-urls https://10.4.7.21:2380 --listen-client-urls https://10.4.7.21:2379,http://127.0.0.1:2379 --quota-backend-bytes 8000000000 --initial-advertise-peer-urls https://10.4.7.21:2380 --advertise-client-urls https://10.4.7.21:2379,http://127.0.0.1:2379 --initial-cluster etcd-server-7-12=https://10.4.7.12:2380,etcd-server-7-21=https://10.4.7.21:2380,etcd-server-7-22=https://10.4.7.22:2380 --ca-file ./certs/ca.pem --cert-file ./certs/etcd-peer.pem --key-file ./certs/etcd-peer-key.pem --client-cert-auth --trusted-ca-file ./certs/ca.pem --peer-ca-file ./certs/ca.pem --peer-cert-file ./certs/etcd-peer.pem --peer-key-file ./certs/etcd-peer-key.pem --peer-client-cert-auth --peer-trusted-ca-file ./certs/ca.pem --log-output stdout
zsf7-22
~]# cat /opt/etcd/etcd-server-startup.sh
#!/bin/bash
./etcd --name etcd-server-7-22 --data-dir /data/etcd/etcd-server --listen-peer-urls https://10.4.7.22:2380 --listen-client-urls https://10.4.7.22:2379,http://127.0.0.1:2379 --quota-backend-bytes 8000000000 --initial-advertise-peer-urls https://10.4.7.22:2380 --advertise-client-urls https://10.4.7.22:2379,http://127.0.0.1:2379 --initial-cluster etcd-server-7-12=https://10.4.7.12:2380,etcd-server-7-21=https://10.4.7.21:2380,etcd-server-7-22=https://10.4.7.22:2380 --ca-file ./certs/ca.pem --cert-file ./certs/etcd-peer.pem --key-file ./certs/etcd-peer-key.pem --client-cert-auth --trusted-ca-file ./certs/ca.pem --peer-ca-file ./certs/ca.pem --peer-cert-file ./certs/etcd-peer.pem --peer-key-file ./certs/etcd-peer-key.pem --peer-client-cert-auth --peer-trusted-ca-file ./certs/ca.pem --log-output stdout
3) 检查etcd集群状态
[root@zsf7-12 etcd]# ./etcdctl cluster-health
member 988139385f78284 is healthy: got healthy result from http://127.0.0.1:2379
member 5a0ef2a004fc4349 is healthy: got healthy result from http://127.0.0.1:2379
member f4a0cb0a765574a8 is healthy: got healthy result from http://127.0.0.1:2379
cluster is healthy
[root@zsf7-12 etcd]# ./etcdctl member list
988139385f78284: name=etcd-server-7-22 peerURLs=https://10.4.7.22:2380 clientURLs=http://127.0.0.1:2379,https://10.4.7.22:2379 isLeader=false
5a0ef2a004fc4349: name=etcd-server-7-21 peerURLs=https://10.4.7.21:2380 clientURLs=http://127.0.0.1:2379,https://10.4.7.21:2379 isLeader=false
f4a0cb0a765574a8: name=etcd-server-7-12 peerURLs=https://10.4.7.12:2380 clientURLs=http://127.0.0.1:2379,https://10.4.7.12:2379 isLeader=true
安装 APiserver
1) 在 github 上下载安装包
我们这边安装 1.15.4,然后我们在 github 上找到对应的 tag: https://github.com/kubernetes/kubernetes/releases/tag/v1.15.4
如果上面链接失效,可以点击下方这个连接来进行下载:https://github.com/kubernetes/kubernetes/blob/master/CHANGELOG/CHANGELOG-1.15.md#downloads-for-v1154
2) 创建证书
签发 clinet 证书,Apiserver(client) 和 etcd(service) 进行通信需要的证书,
[root@zsf7-200 certs]# vim client-csr.json
{
"CN": "k8s-client",
"hosts": [
],
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "jiangsu",
"L": "nanjing",
"O": "od",
"OU": "ops"
}
]
}
[root@zsf7-200 certs]# cfssl gencert -ca=ca.pem -ca-key=ca-key.pem -config=ca-config.json -profile=client client-csr.json |cfssl-json -bare client
[root@zsf7-200 certs]# ll client*
-rw-r--r-- 1 root root 997 Aug 5 15:31 client.csr
-rw-r--r-- 1 root root 283 Aug 5 15:30 client-csr.json
-rw------- 1 root root 1675 Aug 5 15:31 client-key.pem
-rw-r--r-- 1 root root 1363 Aug 5 15:31 client.pem
签发 Apiserver 证书,这个是 Apiserver 作为服务端需要的证书,别人请求 Apiserver 需要证书认证
# vi apiserver-csr.json
{
"CN": "k8s-apiserver",
"hosts": [
"127.0.0.1",
"192.168.0.1",
"kubernetes.default",
"kubernetes.default.svc",
"kubernetes.default.svc.cluster",
"kubernetes.default.svc.cluster.local",
//Apiserver 可能存在哪些机器上,需要注意 VIP 也需要写到里面
"10.4.7.10",
"10.4.7.21",
"10.4.7.22",
"10.4.7.23"
],
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "jiangsu",
"L": "nanjing",
"O": "od",
"OU": "ops"
}
]
}
[root@zsf7-200 certs]# cfssl gencert -ca=ca.pem -ca-key=ca-key.pem -config=ca-config.json -profile=server apiserver-csr.json |cfssl-json -bare apiserver
[root@zsf7-200 certs]# ll apiserver*
-rw-r--r-- 1 root root 1249 Aug 5 15:33 apiserver.csr
-rw-r--r-- 1 root root 566 Aug 5 15:32 apiserver-csr.json
-rw------- 1 root root 1679 Aug 5 15:33 apiserver-key.pem
-rw-r--r-- 1 root root 1594 Aug 5 15:33 apiserver.pem
3) 安装 apiserver
[root@zsf7-21 /]# cd /opt/src
[root@zsf7-21 src]# ll
total 443192
-rw-r--r-- 1 root root 9850227 Aug 4 15:24 etcd-v3.1.20-linux-amd64.tar.gz
-rw-r--r-- 1 root root 443976803 Aug 5 14:11 kubernetes-server-linux-amd64.tar.gz
[root@zsf7-21 src]# tar xf kubernetes-server-linux-amd64.tar.gz -C /opt/
[root@zsf7-21 src]# cd /opt/
[root@zsf7-21 opt]# mv kubernetes/ kubernetes-1.15.4
[root@zsf7-21 opt]# ln -s kubernetes-1.15.4/ kubernetes
[root@zsf7-21 opt]# cd /opt/kubernetes/server/bin
[root@zsf7-21 bin]# rm -rf *.tar *_tag //.tar 为软件的docker包,我们不需要就删除掉
[root@zsf7-21 bin]# mkdir -p mkdir /opt/kubernetes/bin/certs //存放证书的目录
在 zsf7-200上面拷贝证书到 apiserver 上
[root@zsf7-200 certs]# scp ca.pem ca-key.pem client-key.pem client.pem apiserver.pem apiserver-key.pem root@10.4.7.21:/opt/kubernetes/server/bin/certs/
[root@zsf7-21 bin]# ll /opt/kubernetes/server/bin/certs/
total 24
-rw------- 1 root root 1679 Aug 5 15:41 apiserver-key.pem
-rw-r--r-- 1 root root 1594 Aug 5 15:41 apiserver.pem
-rw------- 1 root root 1675 Aug 5 15:41 ca-key.pem
-rw-r--r-- 1 root root 1338 Aug 5 15:41 ca.pem
-rw------- 1 root root 1675 Aug 5 15:41 client-key.pem
-rw-r--r-- 1 root root 1363 Aug 5 15:41 client.pem
创建Apiserver 启动的配置文件
[root@zsf7-21 bin]# mkdir -p /opt/kubernetes/server/bin/conf
[root@zsf7-21 bin]# cd /opt/kubernetes/server/bin/conf
[root@zsf7-21 conf]# vi audit.yaml
//日志审计
apiVersion: audit.k8s.io/v1beta1 # This is required.
kind: Policy
# Don‘t generate audit events for all requests in RequestReceived stage.
omitStages:
- "RequestReceived"
rules:
# Log pod changes at RequestResponse level
- level: RequestResponse
resources:
- group: ""
# Resource "pods" doesn‘t match requests to any subresource of pods,
# which is consistent with the RBAC policy.
resources: ["pods"]
# Log "pods/log", "pods/status" at Metadata level
- level: Metadata
resources:
- group: ""
resources: ["pods/log", "pods/status"]
# Don‘t log requests to a configmap called "controller-leader"
- level: None
resources:
- group: ""
resources: ["configmaps"]
resourceNames: ["controller-leader"]
# Don‘t log watch requests by the "system:kube-proxy" on endpoints or services
- level: None
users: ["system:kube-proxy"]
verbs: ["watch"]
resources:
- group: "" # core API group
resources: ["endpoints", "services"]
# Don‘t log authenticated requests to certain non-resource URL paths.
- level: None
userGroups: ["system:authenticated"]
nonResourceURLs:
- "/api*" # Wildcard matching.
- "/version"
# Log the request body of configmap changes in kube-system.
- level: Request
resources:
- group: "" # core API group
resources: ["configmaps"]
# This rule only applies to resources in the "kube-system" namespace.
# The empty string "" can be used to select non-namespaced resources.
namespaces: ["kube-system"]
# Log configmap and secret changes in all other namespaces at the Metadata level.
- level: Metadata
resources:
- group: "" # core API group
resources: ["secrets", "configmaps"]
# Log all other resources in core and extensions at the Request level.
- level: Request
resources:
- group: "" # core API group
- group: "extensions" # Version of group should NOT be included.
# A catch-all rule to log all other requests at the Metadata level.
- level: Metadata
# Long-running requests like watches that fall under this rule will not
# generate an audit event in RequestReceived.
omitStages:
- "RequestReceived"
创建启动脚本
[root@zsf7-21 bin]# vi /opt/kubernetes/server/bin/kube-apiserver.sh
#!/bin/bash
./kube-apiserver --apiserver-count 2 --audit-log-path /data/logs/kubernetes/kube-apiserver/audit-log --audit-policy-file ./conf/audit.yaml --authorization-mode RBAC --client-ca-file ./certs/ca.pem --requestheader-client-ca-file ./certs/ca.pem --enable-admission-plugins NamespaceLifecycle,LimitRanger,ServiceAccount,DefaultStorageClass,DefaultTolerationSeconds,MutatingAdmissionWebhook,ValidatingAdmissionWebhook,ResourceQuota --etcd-cafile ./certs/ca.pem --etcd-certfile ./certs/client.pem --etcd-keyfile ./certs/client-key.pem --etcd-servers https://10.4.7.12:2379,https://10.4.7.21:2379,https://10.4.7.22:2379 --service-account-key-file ./certs/ca-key.pem --service-cluster-ip-range 192.168.0.0/16 --service-node-port-range 3000-29999 --target-ram-mb=1024 --kubelet-client-certificate ./certs/client.pem --kubelet-client-key ./certs/client-key.pem --log-dir /data/logs/kubernetes/kube-apiserver --tls-cert-file ./certs/apiserver.pem --tls-private-key-file ./certs/apiserver-key.pem --v 2
[root@zsf7-21 bin]# chmod +x /opt/kubernetes/server/bin/kube-apiserver.sh
[root@zsf7-21 bin]# mkdir -p /data/logs/kubernetes/kube-apiserver/audit-log
解释:
- apiserver-count: apiserver的数量,根据自己实际情况来更改
- audit-log-path:日志审计的日志目录存放地方
- audit-policy-file: 日志审计规则的配置文件
- authorization-mode: 认证的模式,目前使用基于角色的访问控制
- client-ca-file: 根证书存放的位置
- requestheader-client-ca-file:验证传入请求中的客户证书
- enable-admission-plugins:除了默认插件外启用的插件,顺序没关系
- etcd-cafile: etcd的根证书
- etcd-certfile: 请求etcd验证的证书
- etcd-keyfile: 请求etcd验证的私钥
- etcd-servers: etcd 服务的地址
- service-account-key-file: 服务的证书私钥
- service-cluster-ip-range: 用于分配服务集群IP。此范围不得与为 pods 分配给节点的任何 IP 范围重叠。(默认为10.0.0.0/24) clusterIP
- service-node-port-range: nodeport的端口范围,默认是30000-32767
- target-ram-mb:apiserver的内存限制,单位为MB(用于配置缓存大小等)
4) 创建supervisor 启动脚本
[root@zsf7-21 bin]# vi /etc/supervisord.d/kube-apiserver.ini
[program:kube-apiserver-7-21]
command=/opt/kubernetes/server/bin/kube-apiserver.sh ; the program (relative uses PATH, can take args)
numprocs=1 ; number of processes copies to start (def 1)
directory=/opt/kubernetes/server/bin ; directory to cwd to before exec (def no cwd)
autostart=true ; start at supervisord start (default: true)
autorestart=true ; retstart at unexpected quit (default: true)
startsecs=30 ; number of secs prog must stay running (def. 1)
startretries=3 ; max # of serial start failures (default 3)
exitcodes=0,2 ; ‘expected‘ exit codes for process (default 0,2)
stopsignal=QUIT ; signal used to kill process (default TERM)
stopwaitsecs=10 ; max num secs to wait b4 SIGKILL (default 10)
user=root ; setuid to this UNIX account to run the program
redirect_stderr=true ; redirect proc stderr to stdout (default false)
stdout_logfile=/data/logs/kubernetes/kube-apiserver/apiserver.stdout.log ; stderr log path, NONE for none; default AUTO
stdout_logfile_maxbytes=64MB ; max # logfile bytes b4 rotation (default 50MB)
stdout_logfile_backups=4 ; # of stdout logfile backups (default 10)
stdout_capture_maxbytes=1MB ; number of bytes in ‘capturemode‘ (default 0)
stdout_events_enabled=false ; emit events on stdout writes (default false)
[root@zsf7-21 bin]# mkdir -p /data/logs/kubernetes/kube-apiserver/
[root@zsf7-21 bin]# supervisorctl update
kube-apiserver-7-21: added process group
zsf7-22类比上面进行这边不分开写
[root@zsf7-22 src]# tar xvf kubernetes-server-linux-amd64.tar.gz -C /opt/
[root@zsf7-22 src]# cd /opt/
[root@zsf7-22 opt]# mv kubernetes/ kubernetes-1.15.4
[root@zsf7-22 opt]# ln -s kubernetes-1.15.4/ kubernetes
[root@zsf7-22 opt]# cd /opt/kubernetes/server/bin
[root@zsf7-22 bin]# rm -f *.tar *_tar
[root@zsf7-22 bin]# mkdir /opt/kubernetes/server/bin/certs/
[root@zsf7-200 certs]# scp ca.pem ca-key.pem client-key.pem client.pem apiserver.pem apiserver-key.pem root@10.4.7.22:/opt/kubernetes/server/bin/certs/
[root@zsf7-22 bin]# ll certs/
total 24
-rw------- 1 root root 1679 Aug 5 16:31 apiserver-key.pem
-rw-r--r-- 1 root root 1594 Aug 5 16:31 apiserver.pem
-rw------- 1 root root 1675 Aug 5 16:31 ca-key.pem
-rw-r--r-- 1 root root 1338 Aug 5 16:31 ca.pem
-rw------- 1 root root 1675 Aug 5 16:31 client-key.pem
-rw-r--r-- 1 root root 1363 Aug 5 16:31 client.pem
[root@zsf7-22 bin]# mkdir conf
[root@zsf7-22 bin]# vi conf/audit.yaml
apiVersion: audit.k8s.io/v1beta1 # This is required.
kind: Policy
# Don‘t generate audit events for all requests in RequestReceived stage.
omitStages:
- "RequestReceived"
rules:
# Log pod changes at RequestResponse level
- level: RequestResponse
resources:
- group: ""
# Resource "pods" doesn‘t match requests to any subresource of pods,
# which is consistent with the RBAC policy.
resources: ["pods"]
# Log "pods/log", "pods/status" at Metadata level
- level: Metadata
resources:
- group: ""
resources: ["pods/log", "pods/status"]
# Don‘t log requests to a configmap called "controller-leader"
- level: None
resources:
- group: ""
resources: ["configmaps"]
resourceNames: ["controller-leader"]
# Don‘t log watch requests by the "system:kube-proxy" on endpoints or services
- level: None
users: ["system:kube-proxy"]
verbs: ["watch"]
resources:
- group: "" # core API group
resources: ["endpoints", "services"]
# Don‘t log authenticated requests to certain non-resource URL paths.
- level: None
userGroups: ["system:authenticated"]
nonResourceURLs:
- "/api*" # Wildcard matching.
- "/version"
# Log the request body of configmap changes in kube-system.
- level: Request
resources:
- group: "" # core API group
resources: ["configmaps"]
# This rule only applies to resources in the "kube-system" namespace.
# The empty string "" can be used to select non-namespaced resources.
namespaces: ["kube-system"]
# Log configmap and secret changes in all other namespaces at the Metadata level.
- level: Metadata
resources:
- group: "" # core API group
resources: ["secrets", "configmaps"]
# Log all other resources in core and extensions at the Request level.
- level: Request
resources:
- group: "" # core API group
- group: "extensions" # Version of group should NOT be included.
# A catch-all rule to log all other requests at the Metadata level.
- level: Metadata
# Long-running requests like watches that fall under this rule will not
# generate an audit event in RequestReceived.
omitStages:
- "RequestReceived"
[root@zsf7-22 bin]# vim /opt/kubernetes/server/bin/kube-apiserver.sh
#!/bin/bash
./kube-apiserver --apiserver-count 2 --audit-log-path /data/logs/kubernetes/kube-apiserver/audit-log --audit-policy-file ./conf/audit.yaml --authorization-mode RBAC --client-ca-file ./certs/ca.pem --requestheader-client-ca-file ./certs/ca.pem --enable-admission-plugins NamespaceLifecycle,LimitRanger,ServiceAccount,DefaultStorageClass,DefaultTolerationSeconds,MutatingAdmissionWebhook,ValidatingAdmissionWebhook,ResourceQuota --etcd-cafile ./certs/ca.pem --etcd-certfile ./certs/client.pem --etcd-keyfile ./certs/client-key.pem --etcd-servers https://10.4.7.12:2379,https://10.4.7.21:2379,https://10.4.7.22:2379 --service-account-key-file ./certs/ca-key.pem --service-cluster-ip-range 192.168.0.0/16 --service-node-port-range 3000-29999 --target-ram-mb=1024 --kubelet-client-certificate ./certs/client.pem --kubelet-client-key ./certs/client-key.pem --log-dir /data/logs/kubernetes/kube-apiserver --tls-cert-file ./certs/apiserver.pem --tls-private-key-file ./certs/apiserver-key.pem --v 2
[root@zsf7-21 bin]# chmod +x /opt/kubernetes/server/bin/kube-apiserver.sh
[root@zsf7-21 bin]# mkdir -p /data/logs/kubernetes/kube-apiserver/audit-log
[root@zsf7-22 bin]# vi /etc/supervisord.d/kube-apiserver.ini
[program:kube-apiserver-7-22]
command=/opt/kubernetes/server/bin/kube-apiserver.sh ; the program (relative uses PATH, can take args)
numprocs=1 ; number of processes copies to start (def 1)
directory=/opt/kubernetes/server/bin ; directory to cwd to before exec (def no cwd)
autostart=true ; start at supervisord start (default: true)
autorestart=true ; retstart at unexpected quit (default: true)
startsecs=30 ; number of secs prog must stay running (def. 1)
startretries=3 ; max # of serial start failures (default 3)
exitcodes=0,2 ; ‘expected‘ exit codes for process (default 0,2)
stopsignal=QUIT ; signal used to kill process (default TERM)
stopwaitsecs=10 ; max num secs to wait b4 SIGKILL (default 10)
user=root ; setuid to this UNIX account to run the program
redirect_stderr=true ; redirect proc stderr to stdout (default false)
stdout_logfile=/data/logs/kubernetes/kube-apiserver/apiserver.stdout.log ; stderr log path, NONE for none; default AUTO
stdout_logfile_maxbytes=64MB ; max # logfile bytes b4 rotation (default 50MB)
stdout_logfile_backups=4 ; # of stdout logfile backups (default 10)
stdout_capture_maxbytes=1MB ; number of bytes in ‘capturemode‘ (default 0)
stdout_events_enabled=false ; emit events on stdout writes (default false)
[root@zsf7-22 bin]# mkdir -p /data/logs/kubernetes/kube-apiserver/
[root@zsf7-22 bin]# supervisorctl update
kube-apiserver-7-22: added process group
部署 Apiserver 高可用
1) 安装nginx
[root@zsf7-11 ~]# yum -y install nginx
[root@zsf7-11 ~]# vim /etc/nginx/nginx.conf
//注意需要在http外测编写下面内容
stream {
upstream kube-apiserver {
server 10.4.7.21:6443 max_fails=3 fail_timeout=30s;
server 10.4.7.22:6443 max_fails=3 fail_timeout=30s;
}
server {
listen 7443;
proxy_connect_timeout 2s;
proxy_timeout 900s;
proxy_pass kube-apiserver;
}
}
[root@zsf7-11 ~]# nginx -t
nginx: the configuration file /etc/nginx/nginx.conf syntax is ok
nginx: configuration file /etc/nginx/nginx.conf test is successful
[root@zsf7-11 ~]# systemctl start nginx && systemctl enable nginx
Created symlink from /etc/systemd/system/multi-user.target.wants/nginx.service to /usr/lib/systemd/system/nginx.service.
[root@zsf7-12 ~]# yum -y install nginx
[root@zsf7-12 ~]# vim /etc/nginx/nginx.conf
//注意需要在http外测编写下面内容
stream {
upstream kube-apiserver {
server 10.4.7.21:6443 max_fails=3 fail_timeout=30s;
server 10.4.7.22:6443 max_fails=3 fail_timeout=30s;
}
server {
listen 7443;
proxy_connect_timeout 2s;
proxy_timeout 900s;
proxy_pass kube-apiserver;
}
}
[root@zsf7-12 ~]# nginx -t
nginx: the configuration file /etc/nginx/nginx.conf syntax is ok
nginx: configuration file /etc/nginx/nginx.conf test is successful
[root@zsf7-12 ~]# systemctl start nginx && systemctl enable nginx
Created symlink from /etc/systemd/system/multi-user.target.wants/nginx.service to /usr/lib/systemd/system/nginx.service.
2) 安装keepalived
[root@zsf7-11 ~]# yum -y install keepalived -y
[root@zsf7-11 ~]# vim /etc/keepalived/check_port.sh
#!/bin/bash
#keepalived 监控端口脚本
#使用方法:
#在keepalived的配置文件中
#vrrp_script check_port {#创建一个vrrp_script脚本,检查配置
# script "/etc/keepalived/check_port.sh 6379" #配置监听的端口
# interval 2 #检查脚本的频率,单位(秒)
#}
CHK_PORT=$1
if [ -n "$CHK_PORT" ];then
PORT_PROCESS=`ss -lnt|grep $CHK_PORT|wc -l`
if [ $PORT_PROCESS -eq 0 ];then
echo "Port $CHK_PORT Is Not Used,End."
exit 1
fi
else
echo "Check Port Cant Be Empty!"
fi
[root@zsf7-11 ~]# chmod +x /etc/keepalived/check_port.sh
keepalived 主:
[root@zsf7-11 ~]# vim /etc/keepalived/keepalived.conf
! Configuration File for keepalived
global_defs {
router_id 10.4.7.11
}
vrrp_script chk_nginx {
script "/etc/keepalived/check_port.sh 7443"
interval 2
weight -20
}
vrrp_instance VI_1 {
state MASTER
interface ens33 //要给自己的实际网卡相符合
virtual_router_id 251
priority 100
advert_int 1
mcast_src_ip 10.4.7.11
nopreempt
authentication {
auth_type PASS
auth_pass apiserver-pass
}
track_script {
chk_nginx
}
virtual_ipaddress {
10.4.7.10
}
}
[root@zsf7-11 ~]# useradd keepalived_script -s /sbin/nologin
[root@zsf7-11 ~]# systemctl start keepalived.service && systemctl enable keepalived.service
- nopreempt : 当主挂了之后VIP漂移到从节点,然后主启动正常之后不自动漂移回来
[root@zsf7-12 ~]# yum -y install keepalived -y
[root@zsf7-12 ~]# vim /etc/keepalived/check_port.sh
#!/bin/bash
#keepalived 监控端口脚本
#使用方法:
#在keepalived的配置文件中
#vrrp_script check_port {#创建一个vrrp_script脚本,检查配置
# script "/etc/keepalived/check_port.sh 6379" #配置监听的端口
# interval 2 #检查脚本的频率,单位(秒)
#}
CHK_PORT=$1
if [ -n "$CHK_PORT" ];then
PORT_PROCESS=`ss -lnt|grep $CHK_PORT|wc -l`
if [ $PORT_PROCESS -eq 0 ];then
echo "Port $CHK_PORT Is Not Used,End."
exit 1
fi
else
echo "Check Port Cant Be Empty!"
fi
[root@zsf7-12 ~]# chmod +x /etc/keepalived/check_port.sh
keepalived从:
[root@zsf7-12 ~]# vim /etc/keepalived/keepalived.conf
! Configuration File for keepalived
global_defs {
router_id 10.4.7.12
}
vrrp_script chk_nginx {
script "/etc/keepalived/check_port.sh 7443"
interval 2
weight -20
}
vrrp_instance VI_1 {
state BACKUP
interface ens33
virtual_router_id 251
mcast_src_ip 10.4.7.12
priority 90
advert_int 1
authentication {
auth_type PASS
auth_pass apiserver-pass
}
track_script {
chk_nginx
}
virtual_ipaddress {
10.4.7.10
}
}
[root@zsf7-12 ~]# useradd keepalived_script -s /sbin/nologin
[root@zsf7-12 ~]# systemctl start keepalived.service && systemctl enable keepalived.service
3)验证是否正常
[root@zsf7-11 keepalived]# ip addr | grep 10.4.7.10
inet 10.4.7.10/32 scope global ens33
[root@zsf7-12 ~]# ip addr | grep 10.4.7.10
[root@zsf7-12 ~]#
[root@zsf7-11 keepalived]# systemctl stop nginx
[root@zsf7-11 keepalived]# ip addr | grep 10.4.7.10
[root@zsf7-12 ~]# ip addr | grep 10.4.7.10
inet 10.4.7.10/32 scope global ens33
集群正常
部署controller-manager
1) 创建controller-manager启动脚本
[root@zsf7-21 bin]# vim /opt/kubernetes/server/bin/kube-controller-manager.sh
#!/bin/sh
./kube-controller-manager --cluster-cidr 172.7.0.0/16 --leader-elect true --log-dir /data/logs/kubernetes/kube-controller-manager --master http://127.0.0.1:8080 --service-account-private-key-file ./certs/ca-key.pem --service-cluster-ip-range 192.168.0.0/16 --root-ca-file ./certs/ca.pem --v 2
[root@zsf7-21 bin]# chmod +x /opt/kubernetes/server/bin/kube-controller-manager.sh
[root@zsf7-21 bin]# mkdir -p /data/logs/kubernetes/kube-controller-manager
[root@zsf7-22 bin]# vim /opt/kubernetes/server/bin/kube-controller-manager.sh
#!/bin/sh
./kube-controller-manager --cluster-cidr 172.7.0.0/16 --leader-elect true --log-dir /data/logs/kubernetes/kube-controller-manager --master http://127.0.0.1:8080 --service-account-private-key-file ./certs/ca-key.pem --service-cluster-ip-range 192.168.0.0/16 --root-ca-file ./certs/ca.pem --v 2
[root@zsf7-22 bin]# chmod +x /opt/kubernetes/server/bin/kube-controller-manager.sh
[root@zsf7-22 bin]# mkdir -p /data/logs/kubernetes/kube-controller-manager
-
cluster-cidr: 集群中Pods的CIDR范围
-
leader-elect: 在执行主循环之前,启动领导选举客户端并获得领导权。当运行复制组件以实现高可用性时,请启用此功能。(默认为true)
-
master: apiserver的地址,这里我们使用的是本地回环端口,所以不需要证书
-
service-account-private-key-file
[root@zsf7-21 bin]# vim /etc/supervisord.d/kube-conntroller-manager.ini
[program:kube-controller-manager-7-21]
command=/opt/kubernetes/server/bin/kube-controller-manager.sh ; the program (relative uses PATH, can take args)
numprocs=1 ; number of processes copies to start (def 1)
directory=/opt/kubernetes/server/bin ; directory to cwd to before exec (def no cwd)
autostart=true ; start at supervisord start (default: true)
autorestart=true ; retstart at unexpected quit (default: true)
startsecs=30 ; number of secs prog must stay running (def. 1)
startretries=3 ; max # of serial start failures (default 3)
exitcodes=0,2 ; ‘expected‘ exit codes for process (default 0,2)
stopsignal=QUIT ; signal used to kill process (default TERM)
stopwaitsecs=10 ; max num secs to wait b4 SIGKILL (default 10)
user=root ; setuid to this UNIX account to run the program
redirect_stderr=true ; redirect proc stderr to stdout (default false)
stdout_logfile=/data/logs/kubernetes/kube-controller-manager/controller.stdout.log ; stderr log path, NONE for none; default AUTO
stdout_logfile_maxbytes=64MB ; max # logfile bytes b4 rotation (default 50MB)
stdout_logfile_backups=4 ; # of stdout logfile backups (default 10)
stdout_capture_maxbytes=1MB ; number of bytes in ‘capturemode‘ (default 0)
stdout_events_enabled=false ; emit events on stdout writes (default false)
[root@zsf7-21 bin]# mkdir -p /data/logs/kubernetes/kube-controller-manager/
[root@zsf7-21 bin]# supervisorctl update
kube-controller-manager-7-21: added process group
[root@zsf7-22 bin]# vim /etc/supervisord.d/kube-conntroller-manager.ini
[program:kube-controller-manager-7-22]
command=/opt/kubernetes/server/bin/kube-controller-manager.sh ; the program (relative uses PATH, can take args)
numprocs=1 ; number of processes copies to start (def 1)
directory=/opt/kubernetes/server/bin ; directory to cwd to before exec (def no cwd)
autostart=true ; start at supervisord start (default: true)
autorestart=true ; retstart at unexpected quit (default: true)
startsecs=30 ; number of secs prog must stay running (def. 1)
startretries=3 ; max # of serial start failures (default 3)
exitcodes=0,2 ; ‘expected‘ exit codes for process (default 0,2)
stopsignal=QUIT ; signal used to kill process (default TERM)
stopwaitsecs=10 ; max num secs to wait b4 SIGKILL (default 10)
user=root ; setuid to this UNIX account to run the program
redirect_stderr=true ; redirect proc stderr to stdout (default false)
stdout_logfile=/data/logs/kubernetes/kube-controller-manager/controller.stdout.log ; stderr log path, NONE for none; default AUTO
stdout_logfile_maxbytes=64MB ; max # logfile bytes b4 rotation (default 50MB)
stdout_logfile_backups=4 ; # of stdout logfile backups (default 10)
stdout_capture_maxbytes=1MB ; number of bytes in ‘capturemode‘ (default 0)
stdout_events_enabled=false ; emit events on stdout writes (default false)
[root@zsf7-22 bin]# mkdir -p /data/logs/kubernetes/kube-controller-manager/
[root@zsf7-22 bin]# supervisorctl update
kube-controller-manager-7-22: added process group
kube-scheduler
1) 创建启动kube-scheduler配置文件
[root@zsf7-21 bin]# vim /opt/kubernetes/server/bin/kube-scheduler.sh
#!/bin/sh
./kube-scheduler --leader-elect --log-dir /data/logs/kubernetes/kube-scheduler --master http://127.0.0.1:8080 --v 2
[root@zsf7-21 bin]# chmod +x /opt/kubernetes/server/bin/kube-scheduler.sh
[root@zsf7-21 bin]# mkdir -p /data/logs/kubernetes/kube-scheduler
[root@zsf7-22 bin]# vim /opt/kubernetes/server/bin/kube-scheduler.sh
#!/bin/sh
./kube-scheduler --leader-elect --log-dir /data/logs/kubernetes/kube-scheduler --master http://127.0.0.1:8080 --v 2
[root@zsf7-22 bin]# chmod +x /opt/kubernetes/server/bin/kube-scheduler.sh
[root@zsf7-22 bin]# mkdir -p /data/logs/kubernetes/kube-scheduler
2) 创建启动脚本
[root@zsf7-21 bin]# vim /etc/supervisord.d/kube-scheduler.ini
[program:kube-scheduler-7-21]
command=/opt/kubernetes/server/bin/kube-scheduler.sh ; the program (relative uses PATH, can take args)
numprocs=1 ; number of processes copies to start (def 1)
directory=/opt/kubernetes/server/bin ; directory to cwd to before exec (def no cwd)
autostart=true ; start at supervisord start (default: true)
autorestart=true ; retstart at unexpected quit (default: true)
startsecs=30 ; number of secs prog must stay running (def. 1)
startretries=3 ; max # of serial start failures (default 3)
exitcodes=0,2 ; ‘expected‘ exit codes for process (default 0,2)
stopsignal=QUIT ; signal used to kill process (default TERM)
stopwaitsecs=10 ; max num secs to wait b4 SIGKILL (default 10)
user=root ; setuid to this UNIX account to run the program
redirect_stderr=true ; redirect proc stderr to stdout (default false)
stdout_logfile=/data/logs/kubernetes/kube-scheduler/scheduler.stdout.log ; stderr log path, NONE for none; default AUTO
stdout_logfile_maxbytes=64MB ; max # logfile bytes b4 rotation (default 50MB)
stdout_logfile_backups=4 ; # of stdout logfile backups (default 10)
stdout_capture_maxbytes=1MB ; number of bytes in ‘capturemode‘ (default 0)
stdout_events_enabled=false ; emit events on stdout writes (default false)
[root@zsf7-21 bin]# mkdir -p /data/logs/kubernetes/kube-scheduler/
[root@zsf7-21 bin]# supervisorctl update
kube-scheduler-7-21: added process group
[root@zsf7-22 bin]# vim /etc/supervisord.d/kube-scheduler.ini
[program:kube-scheduler-7-22]
command=/opt/kubernetes/server/bin/kube-scheduler.sh ; the program (relative uses PATH, can take args)
numprocs=1 ; number of processes copies to start (def 1)
directory=/opt/kubernetes/server/bin ; directory to cwd to before exec (def no cwd)
autostart=true ; start at supervisord start (default: true)
autorestart=true ; retstart at unexpected quit (default: true)
startsecs=30 ; number of secs prog must stay running (def. 1)
startretries=3 ; max # of serial start failures (default 3)
exitcodes=0,2 ; ‘expected‘ exit codes for process (default 0,2)
stopsignal=QUIT ; signal used to kill process (default TERM)
stopwaitsecs=10 ; max num secs to wait b4 SIGKILL (default 10)
user=root ; setuid to this UNIX account to run the program
redirect_stderr=true ; redirect proc stderr to stdout (default false)
stdout_logfile=/data/logs/kubernetes/kube-scheduler/scheduler.stdout.log ; stderr log path, NONE for none; default AUTO
stdout_logfile_maxbytes=64MB ; max # logfile bytes b4 rotation (default 50MB)
stdout_logfile_backups=4 ; # of stdout logfile backups (default 10)
stdout_capture_maxbytes=1MB ; number of bytes in ‘capturemode‘ (default 0)
stdout_events_enabled=false ; emit events on stdout writes (default false)
[root@zsf7-22 bin]# mkdir -p /data/logs/kubernetes/kube-scheduler/
[root@zsf7-22 bin]# supervisorctl update
kube-scheduler-7-22: added process group
检查主控节点是否正常
[root@zsf7-21 bin]# ln -s /opt/kubernetes/server/bin/kubectl /usr/bin/kubectl
[root@zsf7-21 bin]# kubectl get cs
NAME STATUS MESSAGE ERROR
scheduler Healthy ok
controller-manager Healthy ok
etcd-2 Healthy {"health": "true"}
etcd-1 Healthy {"health": "true"}
etcd-0 Healthy {"health": "true"}
安装工作节点
安装 kubelet
1)签发证书
如果后期需要添加新的节点的话,那么要重新签发证书,可以先不动老的,先部署新的,但是建议全部更新
Kubelet 对外提供 https 服务,所以要签发一套 server 证书,apiserver 会主动请求他
[root@zsf7-200 certs]# vi kubelet-csr.json
{
"CN": "k8s-kubelet",
"hosts": [
"127.0.0.1",
"10.4.7.10",
"10.4.7.21",
"10.4.7.22",
"10.4.7.23",
"10.4.7.24",
"10.4.7.25",
"10.4.7.26",
"10.4.7.27",
"10.4.7.28"
],
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "beijing",
"L": "beijing",
"O": "od",
"OU": "ops"
}
]
}
[root@zsf7-200 certs]# cfssl gencert -ca=ca.pem -ca-key=ca-key.pem -config=ca-config.json -profile=server kubelet-csr.json | cfssl-json -bare kubelet
[root@zsf7-200 certs]# ll kubelet*
-rw-r--r-- 1 root root 1115 Aug 5 18:12 kubelet.csr
-rw-r--r-- 1 root root 453 Aug 5 18:12 kubelet-csr.json
-rw------- 1 root root 1679 Aug 5 18:12 kubelet-key.pem
-rw-r--r-- 1 root root 1464 Aug 5 18:12 kubelet.pem
[root@zsf7-200 certs]# scp ca.pem ca-key.pem kubelet.pem kubelet-key.pem client.pem client-key.pem root@10.4.7.21:/opt/kubernetes/server/bin/certs
[root@zsf7-200 certs]# scp ca.pem ca-key.pem kubelet.pem kubelet-key.pem client.pem client-key.pem root@10.4.7.22:/opt/kubernetes/server/bin/certs
2) 创建kubelet 的配置文件
Set-cluster
注意在 conf 目录下
[root@zsf7-21 conf]# kubectl config set-cluster myk8s --certificate-authority=/opt/kubernetes/server/bin/certs/ca.pem --embed-certs=true --server=https://10.4.7.10:7443 --kubeconfig=kubelet.kubeconfig
set-credentials
[root@zsf7-21 conf]# kubectl config set-credentials k8s-node --client-certificate=/opt/kubernetes/server/bin/certs/client.pem --client-key=/opt/kubernetes/server/bin/certs/client-key.pem --embed-certs=true --kubeconfig=kubelet.kubeconfig
set-context
[root@zsf7-21 conf]# kubectl config set-context myk8s-context --cluster=myk8s --user=k8s-node --kubeconfig=kubelet.kubeconfig
use-context
[root@zsf7-21 conf]# kubectl config use-context myk8s-context --kubeconfig=kubelet.kubeconfig
3) 角色绑定
[root@zsf7-21 conf}# k8s-node.yaml
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
name: k8s-node
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: system:node
subjects:
- apiGroup: rbac.authorization.k8s.io
kind: User
name: k8s-node
[root@zsf7-21 conf]# kubectl create -f k8s-node.yaml
[root@zsf7-21 conf]# kubectl get clusterrolebinding k8s-node -o yaml
4) 准备pause 镜像
因为pod 一个pod是有业务容器和pause容器构成的,
[root@zsf7-21 ~]# docker pull kubernetes/pause
[root@zsf7-21 ~]# docker tag docker.io/kubernetes/pause:latest harbor.zsf.com/public/pause:latest
[root@zsf7-21 ~]# docker push harbor.zsf.com/public/pause:latest
5) 创建 kubelet 启动文件
[root@zsf7-21 ~]# vim /opt/kubernetes/server/bin/kubelet.sh
#!/bin/sh
./kubelet --anonymous-auth=false --cgroup-driver systemd --cluster-dns 192.168.0.2 --cluster-domain cluster.local --runtime-cgroups=/systemd/system.slice --kubelet-cgroups=/systemd/system.slice --fail-swap-on="false" --client-ca-file ./certs/ca.pem --tls-cert-file ./certs/kubelet.pem --tls-private-key-file ./certs/kubelet-key.pem --hostname-override zsf7-21.host.com --image-gc-high-threshold 20 --image-gc-low-threshold 10 --kubeconfig ./conf/kubelet.kubeconfig --log-dir /data/logs/kubernetes/kube-kubelet --pod-infra-container-image harbor.zsf.com/public/pause:latest --root-dir /data/kubelet
[root@zsf7-21 ~]# mkdir -p /data/kubelet
[root@zsf7-21 ~]# mkdir -p /data/logs/kubernetes/kube-kubelet
[root@zsf7-21 ~]# chmod +x /opt/kubernetes/server/bin/kubelet.sh
6) 创建管理脚本
[root@zsf7-21 bin]# vim /etc/supervisord.d/kube-kubelet.ini
[program:kube-kubelet-7-21]
command=/opt/kubernetes/server/bin/kubelet.sh ; the program (relative uses PATH, can take args)
numprocs=1 ; number of processes copies to start (def 1)
directory=/opt/kubernetes/server/bin ; directory to cwd to before exec (def no cwd)
autostart=true ; start at supervisord start (default: true)
autorestart=true ; retstart at unexpected quit (default: true)
startsecs=30 ; number of secs prog must stay running (def. 1)
startretries=3 ; max # of serial start failures (default 3)
exitcodes=0,2 ; ‘expected‘ exit codes for process (default 0,2)
stopsignal=QUIT ; signal used to kill process (default TERM)
stopwaitsecs=10 ; max num secs to wait b4 SIGKILL (default 10)
user=root ; setuid to this UNIX account to run the program
redirect_stderr=true ; redirect proc stderr to stdout (default false)
stdout_logfile=/data/logs/kubernetes/kube-kubelet/kubelet.stdout.log ; stderr log path, NONE for none; default AUTO
stdout_logfile_maxbytes=64MB ; max # logfile bytes b4 rotation (default 50MB)
stdout_logfile_backups=4 ; # of stdout logfile backups (default 10)
stdout_capture_maxbytes=1MB ; number of bytes in ‘capturemode‘ (default 0)
stdout_events_enabled=false ; emit events on stdout writes (default false)
# supervisorctl update
另外一台节点部署
[root@zsf7-22 conf]# scp zsf7-21:/opt/kubernetes/server/bin/conf/kubelet.kubeconfig /opt/kubernetes/server/bin/conf/
[root@zsf7-22 ~]# vim /opt/kubernetes/server/bin/kubelet.sh
#!/bin/sh
./kubelet --anonymous-auth=false --cgroup-driver systemd --cluster-dns 192.168.0.2 --cluster-domain cluster.local --runtime-cgroups=/systemd/system.slice --kubelet-cgroups=/systemd/system.slice --fail-swap-on="false" --client-ca-file ./certs/ca.pem --tls-cert-file ./certs/kubelet.pem --tls-private-key-file ./certs/kubelet-key.pem --hostname-override zsf7-22.host.com --image-gc-high-threshold 20 --image-gc-low-threshold 10 --kubeconfig ./conf/kubelet.kubeconfig --log-dir /data/logs/kubernetes/kube-kubelet --pod-infra-container-image harbor.zsf.com/public/pause:latest --root-dir /data/kubelet
[root@zsf7-22 ~]# mkdir -p /data/kubelet
[root@zsf7-22 ~]# mkdir -p /data/logs/kubernetes/kube-kubelet
[root@zsf7-22 ~]# chmod +x /opt/kubernetes/server/bin/kubelet.sh
[root@zsf7-22 bin]# vim /etc/supervisord.d/kube-kubelet.ini
[program:kube-kubelet-7-22]
command=/opt/kubernetes/server/bin/kubelet.sh ; the program (relative uses PATH, can take args)
numprocs=1 ; number of processes copies to start (def 1)
directory=/opt/kubernetes/server/bin ; directory to cwd to before exec (def no cwd)
autostart=true ; start at supervisord start (default: true)
autorestart=true ; retstart at unexpected quit (default: true)
startsecs=30 ; number of secs prog must stay running (def. 1)
startretries=3 ; max # of serial start failures (default 3)
exitcodes=0,2 ; ‘expected‘ exit codes for process (default 0,2)
stopsignal=QUIT ; signal used to kill process (default TERM)
stopwaitsecs=10 ; max num secs to wait b4 SIGKILL (default 10)
user=root ; setuid to this UNIX account to run the program
redirect_stderr=true ; redirect proc stderr to stdout (default false)
stdout_logfile=/data/logs/kubernetes/kube-kubelet/kubelet.stdout.log ; stderr log path, NONE for none; default AUTO
stdout_logfile_maxbytes=64MB ; max # logfile bytes b4 rotation (default 50MB)
stdout_logfile_backups=4 ; # of stdout logfile backups (default 10)
stdout_capture_maxbytes=1MB ; number of bytes in ‘capturemode‘ (default 0)
stdout_events_enabled=false ; emit events on stdout writes (default false)
[root@zsf7-22 conf]# supervisorctl update
kube-kubelet-7-22: added process group
7) 查看node 是否正常,打标签
//当我执行kubectl get nodes 的时候并未得到我想要的结果,然后去看kubelet日志发现如下报错
E0806 07:12:22.356765 14672 reflector.go:125] k8s.io/client-go/informers/factory.go:133: Failed to list *v1beta1.RuntimeClass: runtimeclasses.node.k8s.io is forbidden: User "k8s-client" cannot list resource "runtimeclasses"
说是k8s-client这个客户端没有权限查看节点列表,我们需要使用下面命令进行授权
[root@zsf7-21 conf]# kubectl create clusterrolebinding kubelet-node-clusterbinding --clusterrole=system:node --user=k8s-client
[root@zsf7-21 bin]# kubectl get nodes
NAME STATUS ROLES AGE VERSION
zsf7-21.host.com Ready <none> 3m6s v1.15.4
zsf7-22.host.com Ready <none> 7s v1.15.4
//打标签
[root@zsf7-21 bin]# kubectl label node zsf7-21.host.com node-role.kubernetes.io/master=
[root@zsf7-21 bin]# kubectl label node zsf7-21.host.com node-role.kubernetes.io/node=
[root@zsf7-21 bin]# kubectl label node zsf7-22.host.com node-role.kubernetes.io/master=
[root@zsf7-21 bin]# kubectl label node zsf7-22.host.com node-role.kubernetes.io/node=
[root@zsf7-21 bin]# kubectl get nodes
NAME STATUS ROLES AGE VERSION
zsf7-21.host.com Ready master,node 4m15s v1.15.4
zsf7-22.host.com Ready master,node 76s v1.15.4
安装 kube-proxy
1) 创建 kube-proxy 配置文件
conf]# kubectl config set-cluster myk8s --certificate-authority=/opt/kubernetes/server/bin/certs/ca.pem --embed-certs=true --server=https://10.4.7.10:7443 --kubeconfig=kube-proxy.kubeconfig
conf]# kubectl config set-credentials kube-proxy --client-certificate=/opt/kubernetes/server/bin/certs/client.pem --client-key=/opt/kubernetes/server/bin/certs/client-key.pem --embed-certs=true --kubeconfig=kube-proxy.kubeconfig
conf]# kubectl config set-context myk8s-context --cluster=myk8s --user=kube-proxy --kubeconfig=kube-proxy.kubeconfig
conf]# kubectl config use-context myk8s-context --kubeconfig=kube-proxy.kubeconfig
2) 创建角色绑定
conf}# k8s-kube-proxy.yaml
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
name: kube-proxy
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: system:kube-proxy
subjects:
- apiGroup: rbac.authorization.k8s.io
kind: User
name: kube-proxy
3) 加载 IPVs
[root@zsf7-21 conf]# vim /root/ipvs.sh
#!/bin/bash
ipvs_mods_dir="/usr/lib/modules/$(uname -r)/kernel/net/netfilter/ipvs"
for i in $(ls $ipvs_mods_dir|grep -o "^[^.]*")
do
/sbin/modinfo -F filename $i &>/dev/null
if [ $? -eq 0 ];then
/sbin/modprobe $i
fi
done
4) 创建启动脚本
[root@zsf7-21 conf]# vim /opt/kubernetes/server/bin/kube-proxy.sh
#!/bin/sh
./kube-proxy --cluster-cidr 172.7.0.0/16 --hostname-override zsf7-21.host.com --proxy-mode=ipvs --ipvs-scheduler=nq --log-dir /data/logs/kubernetes/kube-proxy --kubeconfig ./conf/kube-proxy.kubeconfig
# chmod +x kube-proxy.sh
# mkdir -p /data/logs/kubernetes/kube-proxy
/etc/supervisord.d/kube-proxy.ini
[program:kube-proxy-7-21]
command=/opt/kubernetes/server/bin/kube-proxy.sh ; the program (relative uses PATH, can take args)
numprocs=1 ; number of processes copies to start (def 1)
directory=/opt/kubernetes/server/bin ; directory to cwd to before exec (def no cwd)
autostart=true ; start at supervisord start (default: true)
autorestart=true ; retstart at unexpected quit (default: true)
startsecs=30 ; number of secs prog must stay running (def. 1)
startretries=3 ; max # of serial start failures (default 3)
exitcodes=0,2 ; ‘expected‘ exit codes for process (default 0,2)
stopsignal=QUIT ; signal used to kill process (default TERM)
stopwaitsecs=10 ; max num secs to wait b4 SIGKILL (default 10)
user=root ; setuid to this UNIX account to run the program
redirect_stderr=true ; redirect proc stderr to stdout (default false)
stdout_logfile=/data/logs/kubernetes/kube-proxy/proxy.stdout.log ; stderr log path, NONE for none; default AUTO
stdout_logfile_maxbytes=64MB ; max # logfile bytes b4 rotation (default 50MB)
stdout_logfile_backups=4 ; # of stdout logfile backups (default 10)
stdout_capture_maxbytes=1MB ; number of bytes in ‘capturemode‘ (default 0)
stdout_events_enabled=false ; emit events on stdout writes (default false)
# supervisorctl update
启动报错如下:
User "k8s-client" cannot list resource "endpoints" in API group "" at the cluster scope
[root@zsf7-21 bin]# kubectl get clusterrole | grep endpo
system:controller:endpoint-controller 17h
[root@zsf7-21 bin]# kubectl create clusterrolebinding kube-proxy-endpoints-clusterbinding --clusterrole=system:controller:endpoint-controller --user=k8s-client
5) 查看IPvs 是否有记录:
[root@zsf7-21 conf]# yum -y install ipvsadm-1.27-8.el7.x86_64
[root@zsf7-21 bin]# ipvsadm -Ln
IP Virtual Server version 1.2.1 (size=4096)
Prot LocalAddress:Port Scheduler Flags
-> RemoteAddress:Port Forward Weight ActiveConn InActConn
TCP 192.168.0.1:443 nq
-> 10.4.7.21:6443 Masq 1 0 0
-> 10.4.7.22:6443 Masq 1 0 0
另外一台机器部署
[root@zsf7-22 conf]# scp zsf7-21:/opt/kubernetes/server/bin/conf/kube-proxy.kubeconfig ./
[root@zsf7-22 conf]# vim /opt/kubernetes/server/bin/kube-proxy.sh
#!/bin/sh
./kube-proxy --cluster-cidr 172.7.0.0/16 --hostname-override zsf7-22.host.com --proxy-mode=ipvs --ipvs-scheduler=nq --log-dir /data/logs/kubernetes/kube-proxy --kubeconfig ./conf/kube-proxy.kubeconfig
# chmod +x kube-proxy.sh
# mkdir -p /data/logs/kubernetes/kube-proxy
[root@zsf7-22 bin]# /etc/supervisord.d/kube-proxy.ini
[program:kube-proxy-7-22]
command=/opt/kubernetes/server/bin/kube-proxy.sh ; the program (relative uses PATH, can take args)
numprocs=1 ; number of processes copies to start (def 1)
directory=/opt/kubernetes/server/bin ; directory to cwd to before exec (def no cwd)
autostart=true ; start at supervisord start (default: true)
autorestart=true ; retstart at unexpected quit (default: true)
startsecs=30 ; number of secs prog must stay running (def. 1)
startretries=3 ; max # of serial start failures (default 3)
exitcodes=0,2 ; ‘expected‘ exit codes for process (default 0,2)
stopsignal=QUIT ; signal used to kill process (default TERM)
stopwaitsecs=10 ; max num secs to wait b4 SIGKILL (default 10)
user=root ; setuid to this UNIX account to run the program
redirect_stderr=true ; redirect proc stderr to stdout (default false)
stdout_logfile=/data/logs/kubernetes/kube-proxy/proxy.stdout.log ; stderr log path, NONE for none; default AUTO
stdout_logfile_maxbytes=64MB ; max # logfile bytes b4 rotation (default 50MB)
stdout_logfile_backups=4 ; # of stdout logfile backups (default 10)
stdout_capture_maxbytes=1MB ; number of bytes in ‘capturemode‘ (default 0)
stdout_events_enabled=false ; emit events on stdout writes (default false)
[root@zsf7-22 conf]# vim /root/ipvs.sh
#!/bin/bash
ipvs_mods_dir="/usr/lib/modules/$(uname -r)/kernel/net/netfilter/ipvs"
for i in $(ls $ipvs_mods_dir|grep -o "^[^.]*")
do
/sbin/modinfo -F filename $i &>/dev/null
if [ $? -eq 0 ];then
/sbin/modprobe $i
fi
done
[root@zsf7-22 kube-proxy]# chmod +x /root/ipvs.sh
[root@zsf7-22 kube-proxy]# . /root/ipvs.sh
[root@zsf7-22 bin]# supervisorctl update
6) 扩展,我们可以使用下面的方式来部署kube-proxy
# vi kube-proxy-csr.json
{
//这个可以自己改,这边写的是角色绑定,
"CN": "system:kube-proxy",
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "beijing",
"L": "beijing",
"O": "od",
"OU": "ops"
}
]
}
# cfssl gencert -ca=ca.pem -ca-key=ca-key.pem -config=ca-config.json -profile=client kube-proxy-csr.json |cfssl-json -bare kube-proxy-client
conf]# kubectl config set-cluster myk8s --certificate-authority=/opt/kubernetes/server/bin/certs/ca.pem --embed-certs=true --server=https://10.4.7.10:7443 --kubeconfig=kube-proxy.kubeconfig
conf]# kubectl config set-credentials kube-proxy --client-certificate=/opt/kubernetes/server/bin/certs/kube-proxy-client.pem --client-key=/opt/kubernetes/server/bin/certs/kube-proxy-client-key.pem --embed-certs=true --kubeconfig=kube-proxy.kubeconfig
conf]# kubectl config set-context myk8s-context --cluster=myk8s --user=kube-proxy --kubeconfig=kube-proxy.kubeconfig
conf]# kubectl config use-context myk8s-context --kubeconfig=kube-proxy.kubeconfig
创建启动脚本。。。。
创建命令补全工具
[root@zsf7-21 bin]# yum -y install bash-co*
[root@zsf7-21 bin]# source <(kubectl completion bash)
[root@zsf7-21 bin]# echo "source <(kubectl completion bash)" >> ~/.bashrc
验证集群状态
查看集群节点状态:
[root@zsf7-21 bin]# 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"}
[root@zsf7-21 bin]# kubectl get node
NAME STATUS ROLES AGE VERSION
zsf7-21.host.com Ready master,node 157m v1.15.4
zsf7-22.host.com Ready master,node 154m v1.15.4
创建一个daemonset 的pod验证集群状态
[root@zsf7-21 test]# cat nginx-test.yml
apiVersion: extensions/v1beta1
kind: DaemonSet
metadata:
name: test-nginx
spec:
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: my-test-nginx
image: harbor.zsf.com/public/nginx:1.17.0
ports:
- containerPort: 80
[root@zsf7-21 test]# kubectl create -f nginx-test.yml
[root@zsf7-21 test]# kubectl get pods -o wide
NAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
test-nginx-7p5pc 1/1 Running 0 12m 172.7.22.2 zsf7-22.host.com <none> <none>
test-nginx-w4jvp 1/1 Running 0 12m 172.7.21.2 zsf7-21.host.com <none> <none>
curl -i http://172.7.21.2/
HTTP/1.1 200 OK
Server: nginx/1.19.1
Date: Thu, 06 Aug 2020 02:35:04 GMT
Content-Type: text/html
Content-Length: 612
安装 k8s 核心插件
安装k8s 网络插件 flannel
我们在github上面安装,我们这边下载安装1.10.0,
1) 下载上传解压软件包
[root@zsf7-21 ~]# cd /opt/src/
[root@zsf7-21 src]# wget https://github.com/coreos/flannel/releases/download/v0.11.0/flannel-v0.11.0-linux-amd64.tar.gz
[root@zsf7-21 src]# mkdir /opt/flannel-v0.11.0
[root@zsf7-21 src]# tar xf flannel-v0.11.0-linux-amd64.tar.gz -C /opt/flannel-v0.11.0/
[root@zsf7-21 src]# ln -s /opt/flannel-v0.11.0/ /opt/flannel
[root@zsf7-21 flannel]# tree ./
./
├── flanneld
├── mk-docker-opts.sh
└── README.md
2) 配置证书
[root@zsf7-21 flannel]# mkdir certs
[root@zsf7-200 certs]# scp ca.pem client.pem client-key.pem zsf7-11:/opt/flannel/certs
[root@zsf7-21 flannel]# tree ./
./
├── certs
│?? ├── ca.pem
│?? ├── client-key.pem
│?? └── client.pem
├── flanneld
├── mk-docker-opts.sh
└── README.md
3) 创建env变量,默认为"/run/flannel/subnet.env"
[root@zsf7-21 flannel]# vi subnet.env
FLANNEL_NETWORK=172.7.0.0/16
FLANNEL_SUBNET=172.7.21.1/24
FLANNEL_MTU=1500
FLANNEL_IPMASQ=false
- FLANNEL_NETWORK: docker 虚拟网络网段,包含所有宿主机上的docker网络,
- FLANNEL_SUBNET : 当前主机上Docker 网络的网段
- FLANNEL_IPMASQ:
4) 创建flanneld 启动脚本
[root@zsf7-21 flannel]# vim flanneld.sh
#!/bin/bash
./flanneld --public-ip=10.4.7.21 --etcd-endpoints=https://10.4.7.12:2379,https://10.4.7.21:2379,https://10.4.7.22:2379 --etcd-keyfile=./certs/client-key.pem --etcd-certfile=./certs/client.pem --etcd-cafile=./certs/ca.pem --iface=ens33 --subnet-file=./subnet.env --healthz-port=2401
[root@zsf7-21 flannel]# mkdir -p /data/logs/flanneld
[root@zsf7-21 flannel]# chmod +x /opt/flannel/flanneld.sh
- iface: 需要根据自己的实际网卡名称来进行更改
5) 创建supervisor 启动脚本
~]# vi /etc/supervisord.d/flannel.ini
[program:flanneld-7-21]
command=/opt/flannel/flanneld.sh ; the program (relative uses PATH, can take args)
numprocs=1 ; number of processes copies to start (def 1)
directory=/opt/flannel ; directory to cwd to before exec (def no cwd)
autostart=true ; start at supervisord start (default: true)
autorestart=true ; retstart at unexpected quit (default: true)
startsecs=30 ; number of secs prog must stay running (def. 1)
startretries=3 ; max # of serial start failures (default 3)
exitcodes=0,2 ; ‘expected‘ exit codes for process (default 0,2)
stopsignal=QUIT ; signal used to kill process (default TERM)
stopwaitsecs=10 ; max num secs to wait b4 SIGKILL (default 10)
user=root ; setuid to this UNIX account to run the program
redirect_stderr=true ; redirect proc stderr to stdout (default false)
stdout_logfile=/data/logs/flanneld/flanneld.stdout.log ; stderr log path, NONE for none; default AUTO
stdout_logfile_maxbytes=64MB ; max # logfile bytes b4 rotation (default 50MB)
stdout_logfile_backups=4 ; # of stdout logfile backups (default 10)
stdout_capture_maxbytes=1MB ; number of bytes in ‘capturemode‘ (default 0)
stdout_events_enabled=false ; emit events on stdout writes (default false)
6) 在etcd里面提前创建flannel的网络插件类型,目前设置为 host-gw
[root@zsf7-21 etcd]# ./etcdctl set /coreos.com/network/config ‘{"Network": "172.7.0.0/16", "Backend": {"Type": "host-gw"}}‘
{"Network": "172.7.0.0/16", "Backend": {"Type": "host-gw"}}
7) 启动flanneld服务
[root@zsf7-21 etcd]# supervisorctl update
flanneld-7-21: added process group
[root@zsf7-21 flanneld]# supervisorctl status
etcd-server-7-21 RUNNING pid 7699, uptime 5 days, 22:07:35
flanneld-7-21 RUNNING pid 36035, uptime 0:01:34
8) 另外一台机器上同样的操作进行一遍
在这里不啰嗦
9) 验证是否能跨主机通信
我们在上面验证集群是否正常的时候,创建了一个DaemonSet
的资源,现在我们测试下他们之间能不能跨主机通信
[root@zsf7-21 flannel]# kubectl get pods -o wide
NAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
test-nginx-lm7l8 1/1 Running 0 5h 172.7.22.2 zsf7-22.host.com <none> <none>
test-nginx-wpwz9 1/1 Running 0 5h 172.7.21.2 zsf7-21.host.com <none> <none>
[root@zsf7-21 test]# curl -i 172.7.22.2
HTTP/1.1 200 OK
Server: nginx/1.19.1
Date: Mon, 10 Aug 2020 07:45:38 GMT
Content-Type: text/html
Content-Length: 612
Last-Modified: Tue, 07 Jul 2020 15:52:25 GMT
Connection: keep-alive
ETag: "5f049a39-264"
......
正常请求,然后我们进去到pod中去请求测试是否正常
[root@zsf7-21 test]# kubectl exec -it test-nginx-wpwz9 bash
root@test-nginx-wpwz9:/# curl -i 172.7.22.2
HTTP/1.1 200 OK
Server: nginx/1.19.1
Date: Mon, 10 Aug 2020 07:46:53 GMT
Content-Type: text/html
Content-Length: 612
Last-Modified: Tue, 07 Jul 2020 15:52:25 GMT
Connection: keep-alive
ETag: "5f049a39-264"
然后我们查看22 机器上的nginx日志
[root@zsf7-21 test]# kubectl logs test-nginx-lm7l8
10.4.7.21 - - [10/Aug/2020:07:45:38 +0000] "GET / HTTP/1.1" 200 612 "-" "curl/7.29.0" "-"
10.4.7.21 - - [10/Aug/2020:07:46:53 +0000] "GET / HTTP/1.1" 200 612 "-" "curl/7.64.0" "-"
10) flanneld 网络优化
可以看出来,我们在pod里面请求的nginx但是日志里面记录的还是宿主机上面的IP地址,这是我们不想看到的,造成这个问题的原因是:
[root@zsf7-21 test]# iptables-save | grep POSTROUTING
-A POSTROUTING -s 172.7.21.0/24 ! -o docker0 -j MASQUERADE
这个防火墙的规则就是,源地址是172.7.21.0/24,不是从docker0网卡出去的都进行nat地址转换
我们这边想让docker 之间访问不进行net地址转换,那么我们就要做如下操作
[root@zsf7-21 test]# yum install iptables-services -y
[root@zsf7-21 test]# iptables -t nat -D POSTROUTING -s 172.7.21.0/24 ! -o docker0 -j MASQUERADE //删除一个规则
[root@zsf7-21 test]# iptables -t nat -I POSTROUTING -s 172.7.21.0/24 ! -d 172.7.0.0/16 ! -o docker0 -j MASQUERADE //源地址是172.7.21.0/24,目的地址不是172.7.0.0/16,和不是从docker0网卡出去的都进行net地址转换
[root@zsf7-21 test]# iptables-save |grep -i postrouting
:POSTROUTING ACCEPT [5:302]
:KUBE-POSTROUTING - [0:0]
-A POSTROUTING -s 172.7.21.0/24 ! -d 172.7.0.0/16 ! -o docker0 -j MASQUERADE
[root@zsf7-21 test]# iptables-save > /etc/sysconfig/iptables //保存当前规则
再次请求,查看pod之间访问是不是不进行地址转换了
[root@zsf7-21 test]# kubectl logs test-nginx-lm7l8
10.4.7.21 - - [10/Aug/2020:07:45:38 +0000] "GET / HTTP/1.1" 200 612 "-" "curl/7.29.0" "-"
10.4.7.21 - - [10/Aug/2020:07:46:53 +0000] "GET / HTTP/1.1" 200 612 "-" "curl/7.64.0" "-"
172.7.21.2 - - [10/Aug/2020:07:59:04 +0000] "GET / HTTP/1.1" 200 612 "-" "curl/7.64.0" "-"
部署CoreDns 插件
1, 通过k8s资源部署CoreDNS
下面的yaml文件是在kubernetes 官方的github里面找的,然后根据自己的实际情况进行改改,其他的插件也可以类比这个来进行操作,地址为: https://github.com/kubernetes/kubernetes/blob/master/cluster/addons/dns/coredns/coredns.yaml.base
1)创建RBAC认证
mkdir coredns
cd coredns
vim coredns-rbac.yml
apiVersion: v1
kind: ServiceAccount
metadata:
name: coredns
namespace: kube-system
labels:
kubernetes.io/cluster-service: "true"
addonmanager.kubernetes.io/mode: Reconcile
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRole
metadata:
labels:
kubernetes.io/bootstrapping: rbac-defaults
addonmanager.kubernetes.io/mode: Reconcile
name: system:coredns
rules:
- apiGroups:
- ""
resources:
- endpoints
- services
- pods
- namespaces
verbs:
- list
- watch
- apiGroups:
- ""
resources:
- nodes
verbs:
- get
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
annotations:
rbac.authorization.kubernetes.io/autoupdate: "true"
labels:
kubernetes.io/bootstrapping: rbac-defaults
addonmanager.kubernetes.io/mode: EnsureExists
name: system:coredns
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: system:coredns
subjects:
- kind: ServiceAccount
name: coredns
namespace: kube-system
2)创建configMap 配置文件
官方参考文档地址:https://kubernetes.io/zh/docs/tasks/administer-cluster/dns-custom-nameservers/
vim coredns-cm.yaml
apiVersion: v1
kind: ConfigMap
metadata:
name: coredns
namespace: kube-system
labels:
addonmanager.kubernetes.io/mode: EnsureExists
data:
Corefile: |
.:53 {
errors
log
health {
lameduck 5s
}
ready
kubernetes cluster.local 192.168.0.0/16
prometheus :9153
forward . 10.4.7.11
cache 30
loop
reload
loadbalance
}
- prometheus: 提供给prometheus 监控的端口
3)创建deployment 配置文件,启动coredns
vim coredns-dm.yaml
apiVersion: apps/v1
kind: Deployment
metadata:
name: coredns
namespace: kube-system
labels:
k8s-app: coredns
kubernetes.io/cluster-service: "true"
addonmanager.kubernetes.io/mode: Reconcile
kubernetes.io/name: "CoreDNS"
spec:
selector:
matchLabels:
k8s-app: coredns
template:
metadata:
labels:
k8s-app: coredns
annotations:
seccomp.security.alpha.kubernetes.io/pod: ‘runtime/default‘
spec:
priorityClassName: system-cluster-critical
serviceAccountName: coredns
containers:
- name: coredns
image: harbor.zsf.com/public/coredns:v1.6.1
args:
- -conf
- /etc/coredns/Corefile
volumeMounts:
- name: config-volume
mountPath: /etc/coredns
ports:
- containerPort: 53
name: dns
protocol: UDP
- containerPort: 53
name: dns-tcp
protocol: TCP
- containerPort: 9153
name: metrics
protocol: TCP
livenessProbe:
httpGet:
path: /health
port: 8080
scheme: HTTP
initialDelaySeconds: 60
timeoutSeconds: 5
successThreshold: 1
failureThreshold: 5
dnsPolicy: Default
volumes:
- name: config-volume
configMap:
name: coredns
items:
- key: Corefile
path: Corefile
4) 创建svc
vim coredns-svc.yaml
apiVersion: v1
kind: Service
metadata:
name: coredns
namespace: kube-system
labels:
k8s-app: coredns
kubernetes.io/cluster-service: "true"
kubernetes.io/name: "CoreDNS"
spec:
selector:
k8s-app: coredns
clusterIP: 192.168.0.2
ports:
- name: dns
port: 53
protocol: UDP
- name: dns-tcp
port: 53
- name: metrics
port: 9153
protocol: TCP
5) 制作镜像上传镜像
[root@zsf7-21 ~]# docker pull coredns/coredns:1.6.1
[root@zsf7-21 ~]# docker tag c0f6e815079e harbor.zsf.com/public/coredns:v1.6.1
6) 创建服务
kubectl create -f coredns-rbac.yml
kubectl create -f coredns-cm.yaml
kubectl create -f coredns-dm.yaml
kubectl create -f coredns-svc.yaml
7) 查看DNS是否解析成功
[root@zsf7-21 coredns]# dig -t A zsf7-21.host.com @192.168.0.2 +short
10.4.7.21
[root@zsf7-21 coredns]# dig -t A kubernetes.default.svc.cluster.local. @192.168.0.2 +short
192.168.0.1
安装ingress控制器traefik
1) 制作traefik镜像
[root@zsf7-21 ~]# docker pull traefik:v1.7.2-alpine
[root@zsf7-21 test]# docker tag traefik:v1.7.2-alpine harbor.zsf.com/public/traefik:v1.7.2-alpine
[root@zsf7-21 test]# docker push harbor.zsf.com/public/traefik:v1.7.2-alpine
2) 创建traefik rbac 授权文件
一下所有文件都是从github上找到,针对实际情况进行更改:https://github.com/containous/traefik/tree/v1.7/examples/k8s
vim traefik-rbac.yaml
apiVersion: v1
kind: ServiceAccount
metadata:
name: traefik-ingress-controller
namespace: kube-system
---
apiVersion: rbac.authorization.k8s.io/v1beta1
kind: ClusterRole
metadata:
name: traefik-ingress-controller
rules:
- apiGroups:
- ""
resources:
- services
- endpoints
- secrets
verbs:
- get
- list
- watch
- apiGroups:
- extensions
resources:
- ingresses
verbs:
- get
- list
- watch
---
kind: ClusterRoleBinding
apiVersion: rbac.authorization.k8s.io/v1beta1
metadata:
name: traefik-ingress-controller
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: traefik-ingress-controller
subjects:
- kind: ServiceAccount
name: traefik-ingress-controller
namespace: kube-system
3) 创建DaemonSet文件
vim traefik-ds.yml
kind: DaemonSet
apiVersion: apps/v1
metadata:
name: traefik-ingress-controller
namespace: kube-system
labels:
k8s-app: traefik-ingress-lb
spec:
selector:
matchLabels:
k8s-app: traefik-ingress-lb
name: traefik-ingress-lb
template:
metadata:
labels:
k8s-app: traefik-ingress-lb
name: traefik-ingress-lb
spec:
serviceAccountName: traefik-ingress-controller
terminationGracePeriodSeconds: 60
containers:
- image: harbor.zsf.com/public/traefik:v1.7.2-alpine
name: traefik-ingress-lb
ports:
- name: controller
containerPort: 80
hostPort: 81
- name: admin-web
containerPort: 8080
securityContext:
capabilities:
drop:
- ALL
add:
- NET_BIND_SERVICE
args:
- --api
- --kubernetes
- --logLevel=INFO
- --insecureskipverify=true
- --kubernetes.endpoint=https://10.4.7.10:7443
- --accesslog
- --accesslog.filepath=/var/log/traefik_access.log
- --traefiklog
- --traefiklog.filepath=/var/log/traefik.log
- --metrics.prometheus
4) 创建service yaml文件
vim traefik-svc.yml
kind: Service
apiVersion: v1
metadata:
name: traefik-ingress-service
namespace: kube-system
spec:
selector:
k8s-app: traefik-ingress-lb
ports:
- protocol: TCP
port: 80
name: controller
- protocol: TCP
port: 8080
name: admin-web
5) 创建ingress yaml文件
vim traefik-ingress
apiVersion: extensions/v1beta1
kind: Ingress
metadata:
name: traefik-web-ui
namespace: kube-system
spec:
rules:
- host: traefik.zsf.com
http:
paths:
- path: /
backend:
serviceName: traefik-ingress-service
servicePort: admin-web
6) 启动所有的yaml
7) 在前端页面上创建一个负载均衡器
upstream default_backend_traefik {
server 10.4.7.21:81 max_fails=3 fail_timeout=10s;
server 10.4.7.22:81 max_fails=3 fail_timeout=10s;
}
server {
server_name *.zsf.com;
location / {
proxy_pass http://default_backend_traefik;
proxy_set_header Host $http_host;
proxy_set_header x-forwarded-for $proxy_add_x_forwarded_for;
}
}
8) 添加DNS解析
安装 dashboard
和上面安装插件一样,我们首先先去github上找人家官方写的yaml文件,然后我们借鉴下:https://github.com/kubernetes/kubernetes/tree/release-1.15/cluster/addons/dashboard
1)制作dashboard 镜像
[root@zsf7-21 opt]# docker pull k8s.gcr.io/kubernetes-dashboard-amd64:v1.10.1
官方配置文件里面写的镜像地址我们在国内并不能正常拉去,我们需要替换成下面这个去拉取
[root@zsf7-21 opt]# docker pull registry.aliyuncs.com/google_containers/kubernetes-dashboard-amd64:v1.10.1
[root@zsf7-21 opt]# docker tag registry.aliyuncs.com/google_containers/kubernetes-dashboard-amd64:v1.10.1 harbor.zsf.com/public/kubernetes-dashboard-amd64:v1.10.1
[root@zsf7-21 opt]# docker push harbor.zsf.com/public/kubernetes-dashboard-amd64:v1.10.1
2)创建rbac 授权文件
apiVersion: v1
kind: ServiceAccount
metadata:
labels:
k8s-app: kubernetes-dashboard
addonmanager.kubernetes.io/mode: Reconcile
name: kubernetes-dashboard
namespace: kube-system
---
kind: Role
apiVersion: rbac.authorization.k8s.io/v1
metadata:
labels:
k8s-app: kubernetes-dashboard
addonmanager.kubernetes.io/mode: Reconcile
name: kubernetes-dashboard-minimal
namespace: kube-system
rules:
# Allow Dashboard to get, update and delete Dashboard exclusive secrets.
- apiGroups: [""]
resources: ["secrets"]
resourceNames: ["kubernetes-dashboard-key-holder", "kubernetes-dashboard-certs"]
verbs: ["get", "update", "delete"]
# Allow Dashboard to get and update ‘kubernetes-dashboard-settings‘ config map.
- apiGroups: [""]
resources: ["configmaps"]
resourceNames: ["kubernetes-dashboard-settings"]
verbs: ["get", "update"]
# Allow Dashboard to get metrics from heapster.
- apiGroups: [""]
resources: ["services"]
resourceNames: ["heapster"]
verbs: ["proxy"]
- apiGroups: [""]
resources: ["services/proxy"]
resourceNames: ["heapster", "http:heapster:", "https:heapster:"]
verbs: ["get"]
---
apiVersion: rbac.authorization.k8s.io/v1
kind: RoleBinding
metadata:
name: kubernetes-dashboard-minimal
namespace: kube-system
labels:
k8s-app: kubernetes-dashboard
addonmanager.kubernetes.io/mode: Reconcile
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: Role
name: kubernetes-dashboard-minimal
subjects:
- kind: ServiceAccount
name: kubernetes-dashboard
namespace: kube-system
3) 创建deployment 文件
apiVersion: apps/v1
kind: Deployment
metadata:
name: kubernetes-dashboard
namespace: kube-system
labels:
k8s-app: kubernetes-dashboard
addonmanager.kubernetes.io/mode: Reconcile
spec:
selector:
matchLabels:
k8s-app: kubernetes-dashboard
template:
metadata:
labels:
k8s-app: kubernetes-dashboard
annotations:
scheduler.alpha.kubernetes.io/critical-pod: ‘‘
seccomp.security.alpha.kubernetes.io/pod: ‘docker/default‘
spec:
priorityClassName: system-cluster-critical
containers:
- name: kubernetes-dashboard
image: harbor.zsf.com/public/kubernetes-dashboard-amd64:v1.10.1
env:
- name: ACCEPT_LANGUAGE
value: english
resources:
limits:
cpu: 100m
memory: 300Mi
requests:
cpu: 50m
memory: 100Mi
ports:
- containerPort: 8443
protocol: TCP
args:
# PLATFORM-SPECIFIC ARGS HERE
- --auto-generate-certificates
volumeMounts:
- name: kubernetes-dashboard-certs
mountPath: /certs
- name: tmp-volume
mountPath: /tmp
livenessProbe:
httpGet:
scheme: HTTPS
path: /
port: 8443
initialDelaySeconds: 30
timeoutSeconds: 30
volumes:
- name: kubernetes-dashboard-certs
secret:
secretName: kubernetes-dashboard-certs
- name: tmp-volume
emptyDir: {}
serviceAccountName: kubernetes-dashboard
tolerations:
- key: "CriticalAddonsOnly"
operator: "Exists"
在这个里面我添加了如下一段内容,
env:
- name: ACCEPT_LANGUAGE
value: english
这段内容是让你的 dashboard 面板是用英文显示,要不然它会根据你的系统语言来进行选择,我建议还是使用英文,因为中文是真的看不懂啊。
4) 创建svc
apiVersion: v1
kind: Service
metadata:
name: kubernetes-dashboard
namespace: kube-system
labels:
k8s-app: kubernetes-dashboard
kubernetes.io/cluster-service: "true"
addonmanager.kubernetes.io/mode: Reconcile
spec:
selector:
k8s-app: kubernetes-dashboard
ports:
- port: 443
targetPort: 8443
5) 创建配置配置文件
apiVersion: v1
kind: Secret
metadata:
labels:
k8s-app: kubernetes-dashboard
# Allows editing resource and makes sure it is created first.
addonmanager.kubernetes.io/mode: EnsureExists
name: kubernetes-dashboard-certs
namespace: kube-system
type: Opaque
---
apiVersion: v1
kind: Secret
metadata:
labels:
k8s-app: kubernetes-dashboard
# Allows editing resource and makes sure it is created first.
addonmanager.kubernetes.io/mode: EnsureExists
name: kubernetes-dashboard-key-holder
namespace: kube-system
type: Opaque
---
apiVersion: v1
kind: ConfigMap
metadata:
labels:
k8s-app: kubernetes-dashboard
# Allows editing resource and makes sure it is created first.
addonmanager.kubernetes.io/mode: EnsureExists
name: kubernetes-dashboard-settings
namespace: kube-system
6) 创建ingress
vim traefik-ingress
apiVersion: extensions/v1beta1
kind: Ingress
metadata:
name: kubernetes-dashboard
namespace: kube-system
spec:
rules:
- host: k8s-dashboard.zsf.com
http:
paths:
- path: /
backend:
serviceName: kubernetes-dashboard
servicePort: 443
7) 配置 nginx
因为 dashboard 需要 https 访问,我们后端用 http ,那么在前端页面上就要配置一个 https 的反向代理,否则页面能正常访问,但是没有办法验证 tokne 不能正常登录
upstream https_default_backend_traefik {
server 192.168.4.74:81 max_fails=3 fail_timeout=10s;
server 192.168.4.75:81 max_fails=3 fail_timeout=10s;
server 192.168.4.76:81 max_fails=3 fail_timeout=10s;
}
server {
server_name *.zsf.com;
listen 443 ssl;
ssl_certificate /etc/nginx/conf.d/certs/zsf.com.pem;
ssl_certificate_key /etc/nginx/conf.d/certs/zsf.com-key.pem;
ssl_session_cache shared:SSL:1m;
ssl_session_timeout 5m;
ssl_ciphers HIGH:!aNULL:!MD5;
ssl_prefer_server_ciphers on;
ssl_protocols TLSv1 TLSv1.1 TLSv1.2;
location / {
proxy_pass http://https_default_backend_traefik;
proxy_set_header Host $http_host;
proxy_set_header x-forwarded-for $proxy_add_x_forwarded_for;
}
}
上面的证书可以自己生成,也可以使用公司的证书
8) 添加 DNS 解析记录
9) 测试访问
https://k8s-dashboard.zsf.com/#!/login
我们这边选择 token 登录,那么我们就需要去创建一个账户,然后获取他的 token
10) 创建授权用户,获取 token
apiVersion: v1
kind: ServiceAccount
metadata:
name: admin-user
namespace: kube-system
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
name: admin-user
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: cluster-admin
subjects:
- kind: ServiceAccount
name: admin-user
namespace: kube-system
获取 token
$ kubectl describe -n kube-system secrets $(kubectl get -n kube-system secrets | awk ‘$1~/admin-user/{print $1}‘ )
Name: admin-user-token-jtq8f
Namespace: kube-system
Labels: <none>
Annotations: kubernetes.io/service-account.name: admin-user
kubernetes.io/service-account.uid: 2f6ff8c2-9cf1-4b4a-b8c6-73cf5367ae5b
Type: kubernetes.io/service-account-token
Data
====
ca.crt: 1326 bytes
namespace: 11 bytes
token: eyJhbGciOiJSUzI1NiIsImtpZCI6IiJ9.eyJpc3MiOiJrdWJlcm5ldGVzL3NlcnZpY2VhY2NvdW50Iiwia3ViZXJuZXRlcy5pby9zZXJ2aWNlYWNjb3VudC9uYW1lc3BhY2UiOiJrdWJlLXN5c3RlbSIsImt1YmVybmV0ZXMuaW8vc2VydmljZWFjY291bnQvc2VjcmV0Lm5hbWUiOiJhZG1pbi11c2VyLXRva2VuLWp0cThmIiwia3ViZXJuZXRlcy5pby9zZXJ2aWNlYWNjb3VudC9zZXJ2aWNlLWFjY291bnQubmFtZSI6ImFkbWluLXVzZXIiLCJrdWJlcm5ldGVzLmlvL3NlcnZpY2VhY2NvdW50L3NlcnZpY2UtYWNjb3VudC51aWQiOiIyZjZmZjhjMi05Y2YxLTRiNGEtYjhjNi03M2NmNTM2N2FlNWIiLCJzdWIiOiJzeXN0ZW06c2VydmljZWFjY291bnQ6a3ViZS1zeXN0ZW06YWRtaW4tdXNlciJ9.LdPnfwKvxLeYLfcS1BZDY1ubY5GUlEOThsxct6AcQnTuQfn7iN6wViLhTqTsUowmMswIl1tkaIGdPmFG4i9nJCEz0Hu9-veGnPy_pWUJtNjM5IJgqeQef2whzLJLcPSbSMYSiNTz_P9QhtMON92ujhvIq-cM9lSXXp6GmPctBqiNASJM0A_y7F_oxa8Q_ccfT83AdO4OZVcrMoz32YLJIxaPtqw7wLEbP8QgDEp2Gonq51Qb_uH__PC4rLE7CCXajVeo4zkqGE8_0ASopZ36C8ZNkujR6oCEmH3XkEwJ6FI3kTjrlMUZTsGf2UZn1N44rs1uql0D8EdhwsTnYRsp5A
然后拿到获取的 token 去登录页面,