目录
一、高可用架构(扩容多Master架构)
Kubernetes作为容器集群系统,通过健康检查+重启策略实现了Pod故障自我修复能力,通过调度算法实现将Pod分布式部署,并保持预期副本数,根据Node失效状态自动在其他Node拉起Pod,实现了应用层的高可用性。
针对Kubernetes集群,高可用性还应包含以下两个层面的考虑:Etcd数据库的高可用性和Kubernetes Master组件的高可用性。而Etcd我们已经采用3个节点组建集群实现高可用,本节将对Master节点高可用进行说明和实施。
Master节点扮演着总控中心的角色,通过不断与工作节点上的Kubelet进行通信来维护整个集群的健康工作状态。如果Master节点故障,将无法使用kubectl工具或者API做任何集群管理。
Master节点主要有三个服务kube-apiserver、kube-controller-mansger和kube-scheduler,其中kube-controller-mansger和kube-scheduler组件自身通过选择机制已经实现了高可用,所以Master高可用主要针对kube-apiserver组件,而该组件是以HTTP API提供服务,因此对他高可用与Web服务器类似,增加负载均衡器对其负载均衡即可,并且可水平扩容。
根据服务器整体规划,这次我们高可用涉及的三台服务器:
| 角色 | IP | 组件 |
|---|---|---|
| k8s-master01 | 192.168.171.131 | Kube-apiserver,kube-controller-manager, kube-scheduler, etcd |
| k8s-master02 | 192.168.171.134 | Kube-apiserver,kube-controller-manager, kube-scheduler |
| K8s-node01 | 192.168.171.132 | kubelet,kube-proxy,docker etcd |
| k8s-node02 | 192.168.171.133 | kubelet,kube-proxy,docker etcd |
| Load Balancer(Master) | 192.168.171.141,192.168.171.88(vip) | Nginx,Keepalived |
| Load Balancer(Backup) | 192.168.171.142 | Nginx,Keepalived |
多Master架构图:
二、安装docker
下载Docker
wget https://download.docker.com/linux/static/stable/x86_64/docker-19.03.9.tgz
以下在所有节点操作,这里采用二进制安装,用yum安装也是一样的。
2.1 解压二进制报
tar zxvf docker-19*
mv docker/ /usr/bin
2.2 systemd 管理docker
vim /usr/lib/systemd/system/docker.service
[Unit]
Description=Docker Application Container Engine
Documentation=https://docs.docker.com
BindsTo=containerd.service
After=network-online.target firewalld.service containerd.service
Wants=network-online.target
Requires=docker.socket
[Service]
Type=notify
# the default is not to use systemd for cgroups because the delegate issues still
# exists and systemd currently does not support the cgroup feature set required
# for containers run by docker
ExecStart=/usr/bin/dockerd -H fd:// --containerd=/run/containerd/containerd.sock
ExecReload=/bin/kill -s HUP $MAINPID
TimeoutSec=0
RestartSec=2
Restart=always
# Note that StartLimit* options were moved from "Service" to "Unit" in systemd 229.
# Both the old, and new location are accepted by systemd 229 and up, so using the old location
# to make them work for either version of systemd.
StartLimitBurst=3
# Note that StartLimitInterval was renamed to StartLimitIntervalSec in systemd 230.
# Both the old, and new name are accepted by systemd 230 and up, so using the old name to make
# this option work for either version of systemd.
StartLimitInterval=60s
# Having non-zero Limit*s causes performance problems due to accounting overhead
# in the kernel. We recommend using cgroups to do container-local accounting.
LimitNOFILE=infinity
LimitNPROC=infinity
LimitCORE=infinity
# Comment TasksMax if your systemd version does not support it.
# Only systemd 226 and above support this option.
TasksMax=infinity
# set delegate yes so that systemd does not reset the cgroups of docker containers
Delegate=yes
# kill only the docker process, not all processes in the cgroup
KillMode=process
[Install]
WantedBy=multi-user.target
2.3 创建配置文件
mkdir /etc/docker
vim /etc/docker/daemon.json
{
"registry-mirrors": ["https://6o9frx9d.mirror.aliyuncs.com"],
"exec-opts": ["native.cgroupdriver=systemd"],
"log-driver": "json-file",
"log-opts": {
"max-size": "100m"
},
"storage-driver": "overlay2"
}
- registry-mirrors 阿里云镜像加速器
三、部署Master02 Node(192.168.171.134)
Master02与已部署的Master01所有操作一致。所以我们只需要将Master01所有文件拷贝到Master02,再修改服务器IP和主机名启动即可。
3.1 创建etcd证书目录
在Master02创建etcd证书目录:
mkdir -p /opt/etcd/ssl
3.2 拷贝文件
拷贝Master01上所有K8s文件和etcd证书到Master02:
scp -r /opt/kubernetes root@192.168.171.134:/opt
scp -r /opt/cni/ root@192.168.171.134:/opt
scp -r /opt/etcd/ssl root@192.168.171.134:/opt/etcd
scp /usr/lib/systemd/system/kube* root@192.168.171.134:/usr/lib/systemd/system
scp /usr/bin/kubectl root@192.168.171.134:/usr/bin
3.3 删除证书文件
删除kubelet证书和kubeconfig文件:
rm -f /opt/kubernetes/cfg/kubelet.kubeconfig
rm -f /opt/kubernetes/ssl/kubelet*
3.4 修改配置文件和主机名
修改apiserver、kubelet和kube-proxy配置文件为本地IP:
vi /opt/kubernetes/cfg/kube-apiserver.conf
...
--bind-address=192.168.171.134 \
--advertise-address=192.168.171.134 \
...
vi /opt/kubernetes/cfg/kubelet.conf
--hostname-override=k8s-master02
vi /opt/kubernetes/cfg/kube-proxy-config.yml
hostnameOverride: k8s-master02
3.5 设置开机启动
systemctl daemon-reload
systemctl start kube-apiserver
systemctl start kube-controller-manager
systemctl start kube-scheduler
systemctl start kubelet
systemctl start kube-proxy
systemctl enable kube-apiserver
systemctl enable kube-controller-manager
systemctl enable kube-scheduler
systemctl enable kubelet
systemctl enable kube-proxy
3.6 查看集群状态
kubectl get cs
NAME STATUS MESSAGE ERROR
scheduler Healthy ok
controller-manager Healthy ok
etcd-1 Healthy {"health":"true"}
etcd-2 Healthy {"health":"true"}
etcd-0 Healthy {"health":"true"}
3.6 批准kubelet证书申请
kubectl get csr
NAME AGE SIGNERNAME REQUESTOR CONDITION
node-csr-JYNknakEa_YpHz797oKaN-ZTk43nD51Zc9CJkBLcASU 85m kubernetes.io/kube-apiserver-client-kubelet kubelet-bootstrap Pending
kubectl certificate approve node-csr-JYNknakEa_YpHz797oKaN-ZTk43nD51Zc9CJkBLcASU
kubectl get node
NAME STATUS ROLES AGE VERSION
k8s-master01 Ready <none> 34h v1.18.3
k8s-master02 Ready <none> 83m v1.18.3
k8s-node1 Ready <none> 33h v1.18.3
k8s-node2 Ready <none> 33h v1.18.3
四、部署负载均衡器
kube-apiserver高可用架构:
- Nginx是一个主流的web服务和反向代理服务器,这里用四层实现对apiserver实现负载均衡。
- Keepalived是一个主流高可用的软件,基于VIP绑定实现服务器双机热备。
4.1 安装软件包
yum install epel-release -y
yum install nginx keepalived -y
4.2 Nginx配置文件
主备都一样
cat > /etc/nginx/nginx.conf << "EOF"
user nginx;
worker_processes auto;
error_log /var/log/nginx/error.log;
pid /run/nginx.pid;
include /usr/share/nginx/modules/*.conf;
events {
worker_connections 1024;
}
# 四层负载均衡,为两台Master apiserver组件提供负载均衡
stream {
log_format main '$remote_addr $upstream_addr - [$time_local] $status $upstream_bytes_sent';
access_log /var/log/nginx/k8s-access.log main;
upstream k8s-apiserver {
server 192.168.171.131:6443; # Master01 APISERVER IP:PORT
server 192.168.171.134:6443; # Master02 APISERVER IP:PORT
}
server {
listen 6443;
proxy_pass k8s-apiserver;
}
}
http {
log_format main '$remote_addr - $remote_user [$time_local] "$request" '
'$status $body_bytes_sent "$http_referer" '
'"$http_user_agent" "$http_x_forwarded_for"';
access_log /var/log/nginx/access.log main;
sendfile on;
tcp_nopush on;
tcp_nodelay on;
keepalive_timeout 65;
types_hash_max_size 2048;
include /etc/nginx/mime.types;
default_type application/octet-stream;
server {
listen 80 default_server;
server_name _;
location / {
}
}
}
EOF
4.3 Keepalived配置文件
4.3.1 主配置文件(Nginx Master)
cat > /etc/keepalived/keepalived.conf << EOF
global_defs {
notification_email {
acassen@firewall.loc
failover@firewall.loc
sysadmin@firewall.loc
}
notification_email_from Alexandre.Cassen@firewall.loc
smtp_server 127.0.0.1
smtp_connect_timeout 30
router_id NGINX_MASTER
}
vrrp_script check_nginx {
script "/etc/keepalived/check_nginx.sh"
}
vrrp_instance VI_1 {
state MASTER
interface ens33
virtual_router_id 51 # VRRP 路由 ID实例,每个实例是唯一的
priority 100 # 优先级,备服务器设置 90
advert_int 1 # 指定VRRP 心跳包通告间隔时间,默认1秒
authentication {
auth_type PASS
auth_pass 1111
}
# 虚拟IP
virtual_ipaddress {
192.168.171.88/24
}
track_script {
check_nginx
}
}
EOF
- vrrp_script:指定检查nginx工作状态脚本(根据nginx状态判断是否故障转移)
- virtual_ipaddress:虚拟IP(VIP)
4.3.2 备配置文件(Nginx Backup)
cat > /etc/keepalived/keepalived.conf << EOF
global_defs {
notification_email {
acassen@firewall.loc
failover@firewall.loc
sysadmin@firewall.loc
}
notification_email_from Alexandre.Cassen@firewall.loc
smtp_server 127.0.0.1
smtp_connect_timeout 30
router_id NGINX_BACKUP
}
vrrp_script check_nginx {
script "/etc/keepalived/check_nginx.sh"
}
vrrp_instance VI_1 {
state BACKUP
interface ens33
virtual_router_id 51 # VRRP 路由 ID实例,每个实例是唯一的
priority 90
advert_int 1
authentication {
auth_type PASS
auth_pass 1111
}
virtual_ipaddress {
192.168.171.88/24
}
track_script {
check_nginx
}
}
EOF
4.3.3 检查nginx状态脚本
cat > /etc/keepalived/check_nginx.sh << "EOF"
#!/bin/bash
count=$(ps -ef |grep nginx |egrep -cv "grep|$$")
if [ "$count" -eq 0 ];then
exit 1
else
exit 0
fi
EOF
chmod +x /etc/keepalived/check_nginx.sh
注:Keepalived根据脚本返回状态码(0为工作正常,非0不正常).
4.3.4 设置开机启动
systemctl daemon-reload
systemctl start nginx
systemctl start keepalived
systemctl enable nginx
systemctl enable keepalived
4.3.5 查看Keepalived工作状态
$ ip a
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN group default qlen 1000
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
inet 127.0.0.1/8 scope host lo
valid_lft forever preferred_lft forever
inet6 ::1/128 scope host
valid_lft forever preferred_lft forever
2: ens33: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP group default qlen 1000
link/ether 00:0c:29:04:f7:2c brd ff:ff:ff:ff:ff:ff
inet 192.168.171.141/24 brd 192.168.31.255 scope global noprefixroute ens33
valid_lft forever preferred_lft forever
inet 192.168.171.88/24 scope global secondary ens33
valid_lft forever preferred_lft forever
inet6 fe80::20c:29ff:fe04:f72c/64 scope link
valid_lft forever preferred_lft forever
可以看到,在ens33网卡绑定了192.168.171.88 虚拟IP,说明工作正常。
4.4 Nginx+Keepalived高可用测试
关闭主节点Nginx,测试VIP是否漂移到备节点服务器。
在Nginx Master执行 pkill nginx
在Nginx Backup,ip addr命令查看已成功绑定VIP。
4.5 访问负载均衡器测试
找K8s集群中任意一个节点,使用curl查看K8s版本测试,使用VIP访问:
curl -k https://192.168.171.88:6443/version
{
"major": "1",
"minor": "18",
"gitVersion": "v1.18.3",
"gitCommit": "2e7996e3e2712684bc73f0dec0200d64eec7fe40",
"gitTreeState": "clean",
"buildDate": "2020-05-20T12:43:34Z",
"goVersion": "go1.13.9",
"compiler": "gc",
"platform": "linux/amd64"
}
可以正确获取到K8s版本信息,说明负载均衡器搭建正常。该请求数据流程:curl -> vip(nginx) -> apiserver
通过查看Nginx日志也可以看到转发apiserver IP:
tail /var/log/nginx/k8s-access.log -f
192.168.171.141 192.168.171.131:6443 - [30/May/2020:11:15:10 +0800] 200 422
192.168.171.141 192.168.171.134:6443 - [30/May/2020:11:15:26 +0800] 200 422
五、修改所有Worker Node连接LB VIP
试想下,虽然我们增加了Master2和负载均衡器,但是我们是从单Master架构扩容的,也就是说目前所有的Node组件连接都还是Master1,如果不改为连接VIP走负载均衡器,那么Master还是单点故障。
因此接下来就是要改所有Node组件配置文件,由原来192.168.171.131修改为192.168.171.88(VIP)
5.1 查看所有节点
通过kubectl get node命令查看到的节点。
| 角色 | IP |
|---|---|
| k8s-master01 | 192.168.171.131 |
| k8s-master02 | 192.168.171.134 |
| k8s-node01 | 192.168.171.132 |
| k8s-node02 | 192.168.171.133 |
5.2 修改Node配置
在上述所有Worker Node执行:
sed -i 's#192.168.31.71:6443#192.168.31.88:6443#' /opt/kubernetes/cfg/*
systemctl restart kubelet
systemctl restart kube-proxy
5.3 检查节点状态:
kubectl get node
NAME STATUS ROLES AGE VERSION
k8s-master01 Ready <none> 34h v1.18.3
k8s-master02 Ready <none> 101m v1.18.3
k8s-node01 Ready <none> 33h v1.18.3
k8s-node02 Ready <none> 33h v1.18.3
至此,一套完整的 Kubernetes 高可用集群就部署完成了!
PS:如果你是在公有云上,一般都不支持keepalived,那么你可以直接用它们的负载均衡器产品(内网就行,还免费~),架构与上面一样,直接负载均衡多台Master kube-apiserver即可!
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