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二进制装置 Kubernetes(k8s)v1.27.1 IPv4/IPv6 双栈 可脱离互联网
https://github.com/cby-chen/Kubernetes 开源不易,帮忙点个 star,谢谢了
介绍
kubernetes(k8s)二进制高可用装置部署,反对 IPv4+IPv6 双栈。
我应用 IPV6 的目标是在公网进行拜访,所以我配置了 IPV6 动态地址。
若您没有 IPV6 环境,或者不想应用 IPv6,不对主机进行配置 IPv6 地址即可。
不配置 IPV6,不影响后续,不过集群仍旧是反对 IPv6 的。为前期留有扩大可能性。
若不要 IPv6,不给网卡配置 IPv6 即可,不要对 IPv6 相干配置删除或操作,否则会出问题。
强烈建议在 Github 上查看文档!!!
Github 出问题会更新文档,并且后续尽可能第一工夫更新新版本文档!!!
手动我的项目地址:https://github.com/cby-chen/Kubernetes
1. 环境
| 主机名称 | IP 地址 | 阐明 | 软件 |
|---|---|---|---|
| 192.168.1.60 | 外网节点 | 下载各种所需安装包 | |
| Master01 | 192.168.0.31 | master 节点 | kube-apiserver、kube-controller-manager、kube-scheduler、etcd、 kubelet、kube-proxy、nfs-client、haproxy、keepalived、nginx |
| Master02 | 192.168.0.32 | master 节点 | kube-apiserver、kube-controller-manager、kube-scheduler、etcd、 kubelet、kube-proxy、nfs-client、haproxy、keepalived、nginx |
| Master03 | 192.168.0.33 | master 节点 | kube-apiserver、kube-controller-manager、kube-scheduler、etcd、 kubelet、kube-proxy、nfs-client、haproxy、keepalived、nginx |
| Node01 | 192.168.0.34 | node 节点 | kubelet、kube-proxy、nfs-client、nginx |
| Node02 | 192.168.0.35 | node 节点 | kubelet、kube-proxy、nfs-client、nginx |
| 192.168.0.36 | VIP |
| 软件 | 版本 |
|---|---|
| kernel | 5.4.240 |
| CentOS 8 | v8、v7、Ubuntu |
| kube-apiserver、kube-controller-manager、kube-scheduler、kubelet、kube-proxy | v1.27.1 |
| etcd | v3.5.8 |
| containerd | v1.6.20 |
| docker | v23.0.3 |
| cfssl | v1.6.4 |
| cni | v1.2.0 |
| crictl | v1.26.1 |
| haproxy | v1.8.27 |
| keepalived | v2.1.5 |
网段
物理主机:192.168.0.0/24
service:10.96.0.0/12
pod:172.16.0.0/12
安装包曾经整顿好:https://github.com/cby-chen/Kubernetes/releases/download/v1.27.1/kubernetes-v1.27.1.tar
1.1.k8s 根底零碎环境配置
1.2. 配置 IP
ssh root@192.168.0.345 "nmcli con mod eth0 ipv4.addresses 192.168.0.31/24; nmcli con mod eth0 ipv4.gateway 3.7.191.1; nmcli con mod eth0 ipv4.method manual; nmcli con mod eth0 ipv4.dns"8.8.8.8"; nmcli con up eth0"
ssh root@192.168.0.347 "nmcli con mod eth0 ipv4.addresses 192.168.0.32/24; nmcli con mod eth0 ipv4.gateway 3.7.191.1; nmcli con mod eth0 ipv4.method manual; nmcli con mod eth0 ipv4.dns"8.8.8.8"; nmcli con up eth0"
ssh root@192.168.0.344 "nmcli con mod eth0 ipv4.addresses 192.168.0.33/24; nmcli con mod eth0 ipv4.gateway 3.7.191.1; nmcli con mod eth0 ipv4.method manual; nmcli con mod eth0 ipv4.dns"8.8.8.8"; nmcli con up eth0"
ssh root@192.168.0.341 "nmcli con mod eth0 ipv4.addresses 192.168.0.34/24; nmcli con mod eth0 ipv4.gateway 3.7.191.1; nmcli con mod eth0 ipv4.method manual; nmcli con mod eth0 ipv4.dns"8.8.8.8"; nmcli con up eth0"
ssh root@192.168.0.346 "nmcli con mod eth0 ipv4.addresses 192.168.0.35/24; nmcli con mod eth0 ipv4.gateway 3.7.191.1; nmcli con mod eth0 ipv4.method manual; nmcli con mod eth0 ipv4.dns"8.8.8.8"; nmcli con up eth0"
# 没有 IPv6 抉择不配置即可
ssh root@192.168.0.31 "nmcli con mod eth0 ipv6.addresses fc00:43f4:1eea:1::10; nmcli con mod eth0 ipv6.gateway fc00:43f4:1eea:1::1; nmcli con mod eth0 ipv6.method manual; nmcli con mod eth0 ipv6.dns"2400:3200::1"; nmcli con up eth0"
ssh root@192.168.0.32 "nmcli con mod eth0 ipv6.addresses fc00:43f4:1eea:1::20; nmcli con mod eth0 ipv6.gateway fc00:43f4:1eea:1::1; nmcli con mod eth0 ipv6.method manual; nmcli con mod eth0 ipv6.dns"2400:3200::1"; nmcli con up eth0"
ssh root@192.168.0.33 "nmcli con mod eth0 ipv6.addresses fc00:43f4:1eea:1::30; nmcli con mod eth0 ipv6.gateway fc00:43f4:1eea:1::1; nmcli con mod eth0 ipv6.method manual; nmcli con mod eth0 ipv6.dns"2400:3200::1"; nmcli con up eth0"
ssh root@192.168.0.34 "nmcli con mod eth0 ipv6.addresses fc00:43f4:1eea:1::40; nmcli con mod eth0 ipv6.gateway fc00:43f4:1eea:1::1; nmcli con mod eth0 ipv6.method manual; nmcli con mod eth0 ipv6.dns"2400:3200::1"; nmcli con up eth0"
ssh root@192.168.0.35 "nmcli con mod eth0 ipv6.addresses fc00:43f4:1eea:1::50; nmcli con mod eth0 ipv6.gateway fc00:43f4:1eea:1::1; nmcli con mod eth0 ipv6.method manual; nmcli con mod eth0 ipv6.dns"2400:3200::1"; nmcli con up eth0"
# 查看网卡配置
[root@localhost ~]# cat /etc/sysconfig/network-scripts/ifcfg-eth0
TYPE=Ethernet
PROXY_METHOD=none
BROWSER_ONLY=no
BOOTPROTO=none
DEFROUTE=yes
IPV4_FAILURE_FATAL=no
IPV6INIT=yes
IPV6_AUTOCONF=no
IPV6_DEFROUTE=yes
IPV6_FAILURE_FATAL=no
IPV6_ADDR_GEN_MODE=stable-privacy
NAME=eth0
UUID=424fd260-c480-4899-97e6-6fc9722031e8
DEVICE=eth0
ONBOOT=yes
IPADDR=192.168.0.31
PREFIX=24
GATEWAY=192.168.8.1
DNS1=8.8.8.8
IPV6ADDR=fc00:43f4:1eea:1::10/128
IPV6_DEFAULTGW=fc00:43f4:1eea:1::1
DNS2=2400:3200::1
[root@localhost ~]#
1.3. 设置主机名
hostnamectl set-hostname k8s-master01
hostnamectl set-hostname k8s-master02
hostnamectl set-hostname k8s-master03
hostnamectl set-hostname k8s-node01
hostnamectl set-hostname k8s-node021.4. 配置 yum 源
# 对于 Ubuntu
sed -i 's/cn.archive.ubuntu.com/mirrors.ustc.edu.cn/g' /etc/apt/sources.list
# 对于 CentOS 7
sudo sed -e 's|^mirrorlist=|#mirrorlist=|g' \
-e 's|^#baseurl=http://mirror.centos.org|baseurl=https://mirrors.tuna.tsinghua.edu.cn|g' \
-i.bak \
/etc/yum.repos.d/CentOS-*.repo
# 对于 CentOS 8
sudo sed -e 's|^mirrorlist=|#mirrorlist=|g' \
-e 's|^#baseurl=http://mirror.centos.org/$contentdir|baseurl=https://mirrors.tuna.tsinghua.edu.cn/centos|g' \
-i.bak \
/etc/yum.repos.d/CentOS-*.repo
# 对于公有仓库
sed -e 's|^mirrorlist=|#mirrorlist=|g' -e 's|^#baseurl=http://mirror.centos.org/\$contentdir|baseurl=http://192.168.1.123/centos|g' -i.bak /etc/yum.repos.d/CentOS-*.repo1.5. 装置一些必备工具
# 对于 Ubuntu
apt update && apt upgrade -y && apt install -y wget psmisc vim net-tools nfs-kernel-server telnet lvm2 git tar curl
# 对于 CentOS 7
yum update -y && yum -y install wget psmisc vim net-tools nfs-utils telnet yum-utils device-mapper-persistent-data lvm2 git tar curl
# 对于 CentOS 8
yum update -y && yum -y install wget psmisc vim net-tools nfs-utils telnet yum-utils device-mapper-persistent-data lvm2 git network-scripts tar curl1.5.1 下载离线所需文件(可选)
在互联网服务器上安装一个截然不同的零碎进行下载所需包
CentOS7
# 下载必要工具
yum -y install createrepo yum-utils wget epel*
# 下载全量依赖包
repotrack createrepo wget psmisc vim net-tools nfs-utils telnet yum-utils device-mapper-persistent-data lvm2 git tar curl gcc keepalived haproxy bash-completion chrony sshpass ipvsadm ipset sysstat conntrack libseccomp
# 删除 libseccomp
rm -rf libseccomp-*.rpm
# 下载 libseccomp
wget http://rpmfind.net/linux/centos/8-stream/BaseOS/x86_64/os/Packages/libseccomp-2.5.1-1.el8.x86_64.rpm
# 创立 yum 源信息
createrepo -u -d /data/centos7/
# 拷贝包到内网机器上
scp -r /data/centos7/ root@192.168.0.31:
scp -r /data/centos7/ root@192.168.0.32:
scp -r /data/centos7/ root@192.168.0.33:
scp -r /data/centos7/ root@192.168.0.34:
scp -r /data/centos7/ root@192.168.0.35:
# 在内网机器上创立 repo 配置文件
rm -rf /etc/yum.repos.d/*
cat > /etc/yum.repos.d/123.repo << EOF
[cby]
name=CentOS-$releasever - Media
baseurl=file:///root/centos7/
gpgcheck=0
enabled=1
EOF
# 装置下载好的包
yum clean all
yum makecache
yum install /root/centos7/* --skip-broken -y
#### 备注 #####
# 装置实现后,可能还会呈现 yum 无奈应用那么再次执行
rm -rf /etc/yum.repos.d/*
cat > /etc/yum.repos.d/123.repo << EOF
[cby]
name=CentOS-$releasever - Media
baseurl=file:///root/centos7/
gpgcheck=0
enabled=1
EOF
yum clean all
yum makecache
yum install /root/centos7/* --skip-broken -y
#### 备注 #####
# 装置 chrony 和 libseccomp
# yum install /root/centos7/libseccomp-2.5.1*.rpm -y
# yum install /root/centos7/chrony-*.rpm -yCentOS8
# 下载必要工具
yum -y install createrepo yum-utils wget epel*
# 下载全量依赖包
repotrack wget psmisc vim net-tools nfs-utils telnet yum-utils device-mapper-persistent-data lvm2 git network-scripts tar curl gcc keepalived haproxy bash-completion chrony sshpass ipvsadm ipset sysstat conntrack libseccomp
# 创立 yum 源信息
createrepo -u -d /data/centos8/
# 拷贝包到内网机器上
scp -r centos8/ root@192.168.0.31:
scp -r centos8/ root@192.168.0.32:
scp -r centos8/ root@192.168.0.33:
scp -r centos8/ root@192.168.0.34:
scp -r centos8/ root@192.168.0.35:
# 在内网机器上创立 repo 配置文件
rm -rf /etc/yum.repos.d/*
cat > /etc/yum.repos.d/123.repo << EOF
[cby]
name=CentOS-$releasever - Media
baseurl=file:///root/centos8/
gpgcheck=0
enabled=1
EOF
# 装置下载好的包
yum clean all
yum makecache
yum install /root/centos8/* --skip-broken -y
#### 备注 #####
# 装置实现后,可能还会呈现 yum 无奈应用那么再次执行
rm -rf /etc/yum.repos.d/*
cat > /etc/yum.repos.d/123.repo << EOF
[cby]
name=CentOS-$releasever - Media
baseurl=file:///root/centos8/
gpgcheck=0
enabled=1
EOF
yum clean all
yum makecache
yum install /root/centos8/* --skip-broken -yUbuntu 下载包和依赖
#!/bin/bash
logfile=123.log
ret=""
function getDepends()
{
echo "fileName is" $1>>$logfile
# use tr to del < >
ret=`apt-cache depends $1|grep Depends |cut -d: -f2 |tr -d "<>"`
echo $ret|tee -a $logfile
}
# 须要获取其所依赖包的包
libs="wget psmisc vim net-tools nfs-kernel-server telnet lvm2 git tar curl gcc keepalived haproxy bash-completion chrony sshpass ipvsadm ipset sysstat conntrack libseccomp"
# download libs dependen. deep in 3
i=0
while [$i -lt 3] ;
do
let i++
echo $i
# download libs
newlist=" "
for j in $libs
do
added="$(getDepends $j)"
newlist="$newlist $added"
apt install $added --reinstall -d -y
done
libs=$newlist
done
# 创立源信息
apt install dpkg-dev
sudo cp /var/cache/apt/archives/*.deb /data/ubuntu/ -r
dpkg-scanpackages . /dev/null |gzip > /data/ubuntu/Packages.gz -r
# 拷贝包到内网机器上
scp -r ubuntu/ root@192.168.0.31:
scp -r ubuntu/ root@192.168.0.32:
scp -r ubuntu/ root@192.168.0.33:
scp -r ubuntu/ root@192.168.0.34:
scp -r ubuntu/ root@192.168.0.35:
# 在内网机器上配置 apt 源
vim /etc/apt/sources.list
cat /etc/apt/sources.list
deb file:////root/ ubuntu/
# 装置 deb 包
apt install ./*.deb
1.6. 选择性下载须要工具
#!/bin/bash
# 查看版本地址:#
# https://github.com/containernetworking/plugins/releases/
# https://github.com/containerd/containerd/releases/
# https://github.com/kubernetes-sigs/cri-tools/releases/
# https://github.com/Mirantis/cri-dockerd/releases/
# https://github.com/etcd-io/etcd/releases/
# https://github.com/cloudflare/cfssl/releases/
# https://github.com/kubernetes/kubernetes/tree/master/CHANGELOG
# https://download.docker.com/linux/static/stable/x86_64/
# https://github.com/opencontainers/runc/releases/
# https://mirrors.tuna.tsinghua.edu.cn/elrepo/kernel/el7/x86_64/RPMS/
# Version numbers
kernel_version='5.4.240'
runc_version='1.1.6'
docker_version='23.0.3'
cni_plugins_version='v1.2.0'
cri_containerd_cni_version='1.6.20'
crictl_version='v1.26.1'
cri_dockerd_version='0.3.1'
etcd_version='v3.5.8'
cfssl_version='1.6.4'
helm_version='canary'
kubernetes_server_version='v1.27.1'
nginx_version='1.24.0'
# URLs
base_url='https://ghproxy.com/https://github.com'
kernel_url="http://mirrors.tuna.tsinghua.edu.cn/elrepo/kernel/el7/x86_64/RPMS/kernel-lt-${kernel_version}-1.el7.elrepo.x86_64.rpm"
runc_url="${base_url}/opencontainers/runc/releases/download/v${runc_version}/runc.amd64"
docker_url="https://download.docker.com/linux/static/stable/x86_64/docker-${docker_version}.tgz"
cni_plugins_url="${base_url}/containernetworking/plugins/releases/download/${cni_plugins_version}/cni-plugins-linux-amd64-${cni_plugins_version}.tgz"
cri_containerd_cni_url="${base_url}/containerd/containerd/releases/download/v${cri_containerd_cni_version}/cri-containerd-cni-${cri_containerd_cni_version}-linux-amd64.tar.gz"
crictl_url="${base_url}/kubernetes-sigs/cri-tools/releases/download/${crictl_version}/crictl-${crictl_version}-linux-amd64.tar.gz"
cri_dockerd_url="${base_url}/Mirantis/cri-dockerd/releases/download/v${cri_dockerd_version}/cri-dockerd-${cri_dockerd_version}.amd64.tgz"
etcd_url="${base_url}/etcd-io/etcd/releases/download/${etcd_version}/etcd-${etcd_version}-linux-amd64.tar.gz"
cfssl_url="${base_url}/cloudflare/cfssl/releases/download/v${cfssl_version}/cfssl_${cfssl_version}_linux_amd64"
cfssljson_url="${base_url}/cloudflare/cfssl/releases/download/v${cfssl_version}/cfssljson_${cfssl_version}_linux_amd64"
helm_url="https://get.helm.sh/helm-${helm_version}-linux-amd64.tar.gz"
kubernetes_server_url="https://dl.k8s.io/${kubernetes_server_version}/kubernetes-server-linux-amd64.tar.gz"
nginx_url="http://nginx.org/download/nginx-${nginx_version}.tar.gz"
# Download packages
packages=(
$kernel_url
$runc_url
$docker_url
$cni_plugins_url
$cri_containerd_cni_url
$crictl_url
$cri_dockerd_url
$etcd_url
$cfssl_url
$cfssljson_url
$helm_url
$kubernetes_server_url
$nginx_url
)
for package_url in "${packages[@]}"; do
filename=$(basename "$package_url")
if wget -cq --progress=bar:force:noscroll -nc "$package_url"; then
echo "Downloaded $filename"
else
echo "Failed to download $filename"
exit 1
fi
done
1.7. 敞开防火墙
# Ubuntu 疏忽,CentOS 执行
systemctl disable --now firewalld1.8. 敞开 SELinux
# Ubuntu 疏忽,CentOS 执行
setenforce 0
sed -i 's#SELINUX=enforcing#SELINUX=disabled#g' /etc/selinux/config1.9. 敞开替换分区
sed -ri 's/.*swap.*/#&/' /etc/fstab
swapoff -a && sysctl -w vm.swappiness=0
cat /etc/fstab
# /dev/mapper/centos-swap swap swap defaults 0 01.10. 网络配置(俩种形式二选一)
# Ubuntu 疏忽,CentOS 执行
# 形式一
# systemctl disable --now NetworkManager
# systemctl start network && systemctl enable network
# 形式二
cat > /etc/NetworkManager/conf.d/calico.conf << EOF
[keyfile]
unmanaged-devices=interface-name:cali*;interface-name:tunl*
EOF
systemctl restart NetworkManager1.11. 进行工夫同步
# 服务端
# apt install chrony -y
yum install chrony -y
cat > /etc/chrony.conf << EOF
pool ntp.aliyun.com iburst
driftfile /var/lib/chrony/drift
makestep 1.0 3
rtcsync
allow 192.168.0.0/24
local stratum 10
keyfile /etc/chrony.keys
leapsectz right/UTC
logdir /var/log/chrony
EOF
systemctl restart chronyd ; systemctl enable chronyd
# 客户端
# apt install chrony -y
yum install chrony -y
cat > /etc/chrony.conf << EOF
pool 192.168.0.31 iburst
driftfile /var/lib/chrony/drift
makestep 1.0 3
rtcsync
keyfile /etc/chrony.keys
leapsectz right/UTC
logdir /var/log/chrony
EOF
systemctl restart chronyd ; systemctl enable chronyd
#应用客户端进行验证
chronyc sources -v1.12. 配置 ulimit
ulimit -SHn 65535
cat >> /etc/security/limits.conf <<EOF
* soft nofile 655360
* hard nofile 131072
* soft nproc 655350
* hard nproc 655350
* seft memlock unlimited
* hard memlock unlimitedd
EOF1.13. 配置免密登录
# apt install -y sshpass
yum install -y sshpass
ssh-keygen -f /root/.ssh/id_rsa -P ''export IP="192.168.0.31 192.168.0.32 192.168.0.33 192.168.0.34 192.168.0.35"
export SSHPASS=123123
for HOST in $IP;do
sshpass -e ssh-copy-id -o StrictHostKeyChecking=no $HOST
done1.14. 增加启用源
# Ubuntu 疏忽,CentOS 执行
# 为 RHEL- 8 或 CentOS- 8 配置源
yum install https://www.elrepo.org/elrepo-release-8.el8.elrepo.noarch.rpm -y
sed -i "s@mirrorlist@#mirrorlist@g" /etc/yum.repos.d/elrepo.repo
sed -i "s@elrepo.org/linux@mirrors.tuna.tsinghua.edu.cn/elrepo@g" /etc/yum.repos.d/elrepo.repo
# 为 RHEL-7 SL-7 或 CentOS-7 装置 ELRepo
yum install https://www.elrepo.org/elrepo-release-7.el7.elrepo.noarch.rpm -y
sed -i "s@mirrorlist@#mirrorlist@g" /etc/yum.repos.d/elrepo.repo
sed -i "s@elrepo.org/linux@mirrors.tuna.tsinghua.edu.cn/elrepo@g" /etc/yum.repos.d/elrepo.repo
# 查看可用安装包
yum --disablerepo="*" --enablerepo="elrepo-kernel" list available1.15. 降级内核至 4.18 版本以上
# Ubuntu 疏忽,CentOS 执行
# 装置最新的内核
# 我这里抉择的是稳定版 kernel-ml 如需更新长期保护版本 kernel-lt
yum -y --enablerepo=elrepo-kernel install kernel-ml
# 查看已装置那些内核
rpm -qa | grep kernel
# 查看默认内核
grubby --default-kernel
# 若不是最新的应用命令设置
grubby --set-default $(ls /boot/vmlinuz-* | grep elrepo)
# 重启失效
reboot
# v8 整合命令为:yum install https://www.elrepo.org/elrepo-release-8.el8.elrepo.noarch.rpm -y ; sed -i "s@mirrorlist@#mirrorlist@g" /etc/yum.repos.d/elrepo.repo ; sed -i "s@elrepo.org/linux@mirrors.tuna.tsinghua.edu.cn/elrepo@g" /etc/yum.repos.d/elrepo.repo ; yum --disablerepo="*" --enablerepo="elrepo-kernel" list available -y ; yum --enablerepo=elrepo-kernel install kernel-ml -y ; grubby --default-kernel ; reboot
# v7 整合命令为:yum install https://www.elrepo.org/elrepo-release-7.el7.elrepo.noarch.rpm -y ; sed -i "s@mirrorlist@#mirrorlist@g" /etc/yum.repos.d/elrepo.repo ; sed -i "s@elrepo.org/linux@mirrors.tuna.tsinghua.edu.cn/elrepo@g" /etc/yum.repos.d/elrepo.repo ; yum --disablerepo="*" --enablerepo="elrepo-kernel" list available -y ; yum --enablerepo=elrepo-kernel install kernel-ml -y ; grubby --set-default $(ls /boot/vmlinuz-* | grep elrepo) ; grubby --default-kernel ; reboot
# 离线版本
yum install -y /root/cby/kernel-lt-*-1.el7.elrepo.x86_64.rpm ; grubby --set-default $(ls /boot/vmlinuz-* | grep elrepo) ; grubby --default-kernel ; reboot 1.16. 装置 ipvsadm
# 对于 CentOS7 离线装置
# yum install /root/centos7/ipset-*.el7.x86_64.rpm /root/centos7/lm_sensors-libs-*.el7.x86_64.rpm /root/centos7/ipset-libs-*.el7.x86_64.rpm /root/centos7/sysstat-*.el7_9.x86_64.rpm /root/centos7/ipvsadm-*.el7.x86_64.rpm -y
# 对于 Ubuntu
# apt install ipvsadm ipset sysstat conntrack -y
# 对于 CentOS
yum install ipvsadm ipset sysstat conntrack libseccomp -y
cat >> /etc/modules-load.d/ipvs.conf <<EOF
ip_vs
ip_vs_rr
ip_vs_wrr
ip_vs_sh
nf_conntrack
ip_tables
ip_set
xt_set
ipt_set
ipt_rpfilter
ipt_REJECT
ipip
EOF
systemctl restart systemd-modules-load.service
lsmod | grep -e ip_vs -e nf_conntrack
ip_vs_sh 16384 0
ip_vs_wrr 16384 0
ip_vs_rr 16384 0
ip_vs 180224 6 ip_vs_rr,ip_vs_sh,ip_vs_wrr
nf_conntrack 176128 1 ip_vs
nf_defrag_ipv6 24576 2 nf_conntrack,ip_vs
nf_defrag_ipv4 16384 1 nf_conntrack
libcrc32c 16384 3 nf_conntrack,xfs,ip_vs1.17. 批改内核参数
cat <<EOF > /etc/sysctl.d/k8s.conf
net.ipv4.ip_forward = 1
net.bridge.bridge-nf-call-iptables = 1
fs.may_detach_mounts = 1
vm.overcommit_memory=1
vm.panic_on_oom=0
fs.inotify.max_user_watches=89100
fs.file-max=52706963
fs.nr_open=52706963
net.netfilter.nf_conntrack_max=2310720
net.ipv4.tcp_keepalive_time = 600
net.ipv4.tcp_keepalive_probes = 3
net.ipv4.tcp_keepalive_intvl =15
net.ipv4.tcp_max_tw_buckets = 36000
net.ipv4.tcp_tw_reuse = 1
net.ipv4.tcp_max_orphans = 327680
net.ipv4.tcp_orphan_retries = 3
net.ipv4.tcp_syncookies = 1
net.ipv4.tcp_max_syn_backlog = 16384
net.ipv4.ip_conntrack_max = 65536
net.ipv4.tcp_max_syn_backlog = 16384
net.ipv4.tcp_timestamps = 0
net.core.somaxconn = 16384
net.ipv6.conf.all.disable_ipv6 = 0
net.ipv6.conf.default.disable_ipv6 = 0
net.ipv6.conf.lo.disable_ipv6 = 0
net.ipv6.conf.all.forwarding = 1
EOF
sysctl --system1.18. 所有节点配置 hosts 本地解析
cat > /etc/hosts <<EOF
127.0.0.1 localhost localhost.localdomain localhost4 localhost4.localdomain4
::1 localhost localhost.localdomain localhost6 localhost6.localdomain6
192.168.0.31 k8s-master01
192.168.0.32 k8s-master02
192.168.0.33 k8s-master03
192.168.0.34 k8s-node01
192.168.0.35 k8s-node02
192.168.0.36 lb-vip
EOF2.k8s 根本组件装置
留神:2.1 和 2.2 二选其一即可
2.1. 装置 Containerd 作为 Runtime(举荐)
# wget https://github.com/containernetworking/plugins/releases/download/v1.1.1/cni-plugins-linux-amd64-v1.1.1.tgz
cd kubernetes-v1.26.0/cby/
#创立 cni 插件所需目录
mkdir -p /etc/cni/net.d /opt/cni/bin
#解压 cni 二进制包
tar xf cni-plugins-linux-amd64-v*.tgz -C /opt/cni/bin/
# wget https://github.com/containerd/containerd/releases/download/v1.6.8/cri-containerd-cni-1.6.8-linux-amd64.tar.gz
#解压
tar -xzf cri-containerd-cni-*-linux-amd64.tar.gz -C /
#创立服务启动文件
cat > /etc/systemd/system/containerd.service <<EOF
[Unit]
Description=containerd container runtime
Documentation=https://containerd.io
After=network.target local-fs.target
[Service]
ExecStartPre=-/sbin/modprobe overlay
ExecStart=/usr/local/bin/containerd
Type=notify
Delegate=yes
KillMode=process
Restart=always
RestartSec=5
LimitNPROC=infinity
LimitCORE=infinity
LimitNOFILE=infinity
TasksMax=infinity
OOMScoreAdjust=-999
[Install]
WantedBy=multi-user.target
EOF2.1.1 配置 Containerd 所需的模块
cat <<EOF | sudo tee /etc/modules-load.d/containerd.conf
overlay
br_netfilter
EOF2.1.2 加载模块
systemctl restart systemd-modules-load.service2.1.3 配置 Containerd 所需的内核
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 --system2.1.4 创立 Containerd 的配置文件
# 创立默认配置文件
mkdir -p /etc/containerd
containerd config default | tee /etc/containerd/config.toml
# 批改 Containerd 的配置文件
sed -i "s#SystemdCgroup\ \=\ false#SystemdCgroup\ \=\ true#g" /etc/containerd/config.toml
cat /etc/containerd/config.toml | grep SystemdCgroup
sed -i "s#registry.k8s.io#registry.cn-hangzhou.aliyuncs.com/chenby#g" /etc/containerd/config.toml
cat /etc/containerd/config.toml | grep sandbox_image
sed -i "s#config_path\ \=\ \"\"#config_path\ \=\ \"/etc/containerd/certs.d\"#g" /etc/containerd/config.toml
cat /etc/containerd/config.toml | grep certs.d
mkdir /etc/containerd/certs.d/docker.io -pv
cat > /etc/containerd/certs.d/docker.io/hosts.toml << EOF
server = "https://docker.io"
[host."https://hub-mirror.c.163.com"]
capabilities = ["pull", "resolve"]
EOF2.1.5 启动并设置为开机启动
systemctl daemon-reload
systemctl enable --now containerd
systemctl restart containerd2.1.6 配置 crictl 客户端连贯的运行时地位
# wget https://github.com/kubernetes-sigs/cri-tools/releases/download/v1.24.2/crictl-v1.24.2-linux-amd64.tar.gz
#解压
tar xf crictl-v*-linux-amd64.tar.gz -C /usr/bin/
#生成配置文件
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 restart containerd
crictl info2.2 装置 docker 作为 Runtime(暂不反对)
v1.26.0 临时不反对 docker 形式
2.2.1 装置 docker
# 二进制包下载地址:https://download.docker.com/linux/static/stable/x86_64/
# wget https://download.docker.com/linux/static/stable/x86_64/docker-20.10.21.tgz
#解压
tar xf docker-*.tgz
#拷贝二进制文件
cp docker/* /usr/bin/
#创立 containerd 的 service 文件, 并且启动
cat >/etc/systemd/system/containerd.service <<EOF
[Unit]
Description=containerd container runtime
Documentation=https://containerd.io
After=network.target local-fs.target
[Service]
ExecStartPre=-/sbin/modprobe overlay
ExecStart=/usr/bin/containerd
Type=notify
Delegate=yes
KillMode=process
Restart=always
RestartSec=5
LimitNPROC=infinity
LimitCORE=infinity
LimitNOFILE=1048576
TasksMax=infinity
OOMScoreAdjust=-999
[Install]
WantedBy=multi-user.target
EOF
systemctl enable --now containerd.service
#筹备 docker 的 service 文件
cat > /etc/systemd/system/docker.service <<EOF
[Unit]
Description=Docker Application Container Engine
Documentation=https://docs.docker.com
After=network-online.target firewalld.service containerd.service
Wants=network-online.target
Requires=docker.socket containerd.service
[Service]
Type=notify
ExecStart=/usr/bin/dockerd -H fd:// --containerd=/run/containerd/containerd.sock
ExecReload=/bin/kill -s HUP $MAINPID
TimeoutSec=0
RestartSec=2
Restart=always
StartLimitBurst=3
StartLimitInterval=60s
LimitNOFILE=infinity
LimitNPROC=infinity
LimitCORE=infinity
TasksMax=infinity
Delegate=yes
KillMode=process
OOMScoreAdjust=-500
[Install]
WantedBy=multi-user.target
EOF
#筹备 docker 的 socket 文件
cat > /etc/systemd/system/docker.socket <<EOF
[Unit]
Description=Docker Socket for the API
[Socket]
ListenStream=/var/run/docker.sock
SocketMode=0660
SocketUser=root
SocketGroup=docker
[Install]
WantedBy=sockets.target
EOF
#创立 docker 组
groupadd docker
#启动 docker
systemctl enable --now docker.socket && systemctl enable --now docker.service
#验证
docker info
cat >/etc/docker/daemon.json <<EOF
{"exec-opts": ["native.cgroupdriver=systemd"],
"registry-mirrors": [
"https://docker.mirrors.ustc.edu.cn",
"http://hub-mirror.c.163.com"
],
"max-concurrent-downloads": 10,
"log-driver": "json-file",
"log-level": "warn",
"log-opts": {
"max-size": "10m",
"max-file": "3"
},
"data-root": "/var/lib/docker"
}
EOF
systemctl restart docker2.2.2 装置 cri-docker
# 因为 1.24 以及更高版本不反对 docker 所以装置 cri-docker
# 下载 cri-docker
# wget https://ghproxy.com/https://github.com/Mirantis/cri-dockerd/releases/download/v0.2.5/cri-dockerd-0.2.5.amd64.tgz
# 解压 cri-docker
tar xvf cri-dockerd-*.amd64.tgz
cp -r cri-dockerd/ /usr/bin/
chmod +x /usr/bin/cri-dockerd/cri-dockerd
# 写入启动配置文件
cat > /usr/lib/systemd/system/cri-docker.service <<EOF
[Unit]
Description=CRI Interface for Docker Application Container Engine
Documentation=https://docs.mirantis.com
After=network-online.target firewalld.service docker.service
Wants=network-online.target
Requires=cri-docker.socket
[Service]
Type=notify
ExecStart=/usr/bin/cri-dockerd/cri-dockerd --network-plugin=cni --pod-infra-container-image=registry.aliyuncs.com/google_containers/pause:3.7
ExecReload=/bin/kill -s HUP $MAINPID
TimeoutSec=0
RestartSec=2
Restart=always
StartLimitBurst=3
StartLimitInterval=60s
LimitNOFILE=infinity
LimitNPROC=infinity
LimitCORE=infinity
TasksMax=infinity
Delegate=yes
KillMode=process
[Install]
WantedBy=multi-user.target
EOF
# 写入 socket 配置文件
cat > /usr/lib/systemd/system/cri-docker.socket <<EOF
[Unit]
Description=CRI Docker Socket for the API
PartOf=cri-docker.service
[Socket]
ListenStream=%t/cri-dockerd.sock
SocketMode=0660
SocketUser=root
SocketGroup=docker
[Install]
WantedBy=sockets.target
EOF
# 进行启动 cri-docker
systemctl daemon-reload ; systemctl enable cri-docker --now2.3.k8s 与 etcd 下载及装置(仅在 master01 操作)
2.3.1 解压 k8s 安装包
# 下载安装包
# wget https://dl.k8s.io/v1.25.4/kubernetes-server-linux-amd64.tar.gz
# wget https://github.com/etcd-io/etcd/releases/download/v3.5.6/etcd-v3.5.6-linux-amd64.tar.gz
# 解压 k8s 安装文件
cd cby
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 -xf etcd*.tar.gz && mv etcd-*/etcd /usr/local/bin/ && mv etcd-*/etcdctl /usr/local/bin/
# 查看 /usr/local/bin 下内容
ls /usr/local/bin/
containerd crictl etcdctl kube-proxy
containerd-shim critest kube-apiserver kube-scheduler
containerd-shim-runc-v1 ctd-decoder kube-controller-manager
containerd-shim-runc-v2 ctr kubectl
containerd-stress etcd kubelet2.3.2 查看版本
[root@k8s-master01 ~]# kubelet --version
Kubernetes v1.27.1
[root@k8s-master01 ~]# etcdctl version
etcdctl version: 3.5.8
API version: 3.5
[root@k8s-master01 ~]# 2.3.3 将组件发送至其余 k8s 节点
Master='k8s-master02 k8s-master03'
Work='k8s-node01 k8s-node02'
for NODE in $Master; 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 $Work; do scp /usr/local/bin/kube{let,-proxy} $NODE:/usr/local/bin/ ; done
mkdir -p /opt/cni/bin2.3 创立证书相干文件
mkdir pki
cd pki
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
cat > ca-config.json << EOF
{
"signing": {
"default": {"expiry": "876000h"},
"profiles": {
"kubernetes": {
"usages": [
"signing",
"key encipherment",
"server auth",
"client auth"
],
"expiry": "876000h"
}
}
}
}
EOF
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
cat > front-proxy-ca-csr.json << EOF
{
"CN": "kubernetes",
"key": {
"algo": "rsa",
"size": 2048
},
"ca": {"expiry": "876000h"}
}
EOF
cat > kubelet-csr.json << EOF
{
"CN": "system:node:\$NODE",
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"L": "Beijing",
"ST": "Beijing",
"O": "system:nodes",
"OU": "Kubernetes-manual"
}
]
}
EOF
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
cat > apiserver-csr.json << EOF
{
"CN": "kube-apiserver",
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "Beijing",
"L": "Beijing",
"O": "Kubernetes",
"OU": "Kubernetes-manual"
}
]
}
EOF
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
cat > etcd-csr.json << EOF
{
"CN": "etcd",
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "Beijing",
"L": "Beijing",
"O": "etcd",
"OU": "Etcd Security"
}
]
}
EOF
cat > front-proxy-client-csr.json << EOF
{
"CN": "front-proxy-client",
"key": {
"algo": "rsa",
"size": 2048
}
}
EOF
cat > kube-proxy-csr.json << EOF
{
"CN": "system:kube-proxy",
"key": {
"algo": "rsa",
"size": 2048
},
"names": [
{
"C": "CN",
"ST": "Beijing",
"L": "Beijing",
"O": "system:kube-proxy",
"OU": "Kubernetes-manual"
}
]
}
EOF
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
cd ..
mkdir bootstrap
cd bootstrap
cat > bootstrap.secret.yaml << EOF
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
EOF
cd ..
mkdir coredns
cd coredns
cat > coredns.yaml << EOF
apiVersion: v1
kind: ServiceAccount
metadata:
name: coredns
namespace: kube-system
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRole
metadata:
labels:
kubernetes.io/bootstrapping: rbac-defaults
name: system:coredns
rules:
- apiGroups:
- ""
resources:
- endpoints
- services
- pods
- namespaces
verbs:
- list
- watch
- apiGroups:
- discovery.k8s.io
resources:
- endpointslices
verbs:
- list
- watch
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
annotations:
rbac.authorization.kubernetes.io/autoupdate: "true"
labels:
kubernetes.io/bootstrapping: rbac-defaults
name: system:coredns
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: system:coredns
subjects:
- kind: ServiceAccount
name: coredns
namespace: kube-system
---
apiVersion: v1
kind: ConfigMap
metadata:
name: coredns
namespace: kube-system
data:
Corefile: |
.:53 {
errors
health {lameduck 5s}
ready
kubernetes cluster.local in-addr.arpa ip6.arpa {fallthrough in-addr.arpa ip6.arpa}
prometheus :9153
forward . /etc/resolv.conf {max_concurrent 1000}
cache 30
loop
reload
loadbalance
}
---
apiVersion: apps/v1
kind: Deployment
metadata:
name: coredns
namespace: kube-system
labels:
k8s-app: kube-dns
kubernetes.io/name: "CoreDNS"
spec:
# replicas: not specified here:
# 1. Default is 1.
# 2. Will be tuned in real time if DNS horizontal auto-scaling is turned on.
strategy:
type: RollingUpdate
rollingUpdate:
maxUnavailable: 1
selector:
matchLabels:
k8s-app: kube-dns
template:
metadata:
labels:
k8s-app: kube-dns
spec:
priorityClassName: system-cluster-critical
serviceAccountName: coredns
tolerations:
- key: "CriticalAddonsOnly"
operator: "Exists"
nodeSelector:
kubernetes.io/os: linux
affinity:
podAntiAffinity:
preferredDuringSchedulingIgnoredDuringExecution:
- weight: 100
podAffinityTerm:
labelSelector:
matchExpressions:
- key: k8s-app
operator: In
values: ["kube-dns"]
topologyKey: kubernetes.io/hostname
containers:
- name: coredns
image: registry.cn-hangzhou.aliyuncs.com/chenby/coredns:v1.10.0
imagePullPolicy: IfNotPresent
resources:
limits:
memory: 170Mi
requests:
cpu: 100m
memory: 70Mi
args: ["-conf", "/etc/coredns/Corefile"]
volumeMounts:
- name: config-volume
mountPath: /etc/coredns
readOnly: true
ports:
- containerPort: 53
name: dns
protocol: UDP
- containerPort: 53
name: dns-tcp
protocol: TCP
- containerPort: 9153
name: metrics
protocol: TCP
securityContext:
allowPrivilegeEscalation: false
capabilities:
add:
- NET_BIND_SERVICE
drop:
- all
readOnlyRootFilesystem: true
livenessProbe:
httpGet:
path: /health
port: 8080
scheme: HTTP
initialDelaySeconds: 60
timeoutSeconds: 5
successThreshold: 1
failureThreshold: 5
readinessProbe:
httpGet:
path: /ready
port: 8181
scheme: HTTP
dnsPolicy: Default
volumes:
- name: config-volume
configMap:
name: coredns
items:
- key: Corefile
path: Corefile
---
apiVersion: v1
kind: Service
metadata:
name: kube-dns
namespace: kube-system
annotations:
prometheus.io/port: "9153"
prometheus.io/scrape: "true"
labels:
k8s-app: kube-dns
kubernetes.io/cluster-service: "true"
kubernetes.io/name: "CoreDNS"
spec:
selector:
k8s-app: kube-dns
clusterIP: 10.96.0.10
ports:
- name: dns
port: 53
protocol: UDP
- name: dns-tcp
port: 53
protocol: TCP
- name: metrics
port: 9153
protocol: TCP
EOF
cd ..
mkdir metrics-server
cd metrics-server
cat > metrics-server.yaml << EOF
apiVersion: v1
kind: ServiceAccount
metadata:
labels:
k8s-app: metrics-server
name: metrics-server
namespace: kube-system
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRole
metadata:
labels:
k8s-app: metrics-server
rbac.authorization.k8s.io/aggregate-to-admin: "true"
rbac.authorization.k8s.io/aggregate-to-edit: "true"
rbac.authorization.k8s.io/aggregate-to-view: "true"
name: system:aggregated-metrics-reader
rules:
- apiGroups:
- metrics.k8s.io
resources:
- pods
- nodes
verbs:
- get
- list
- watch
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRole
metadata:
labels:
k8s-app: metrics-server
name: system:metrics-server
rules:
- apiGroups:
- ""
resources:
- pods
- nodes
- nodes/stats
- namespaces
- configmaps
verbs:
- get
- list
- watch
---
apiVersion: rbac.authorization.k8s.io/v1
kind: RoleBinding
metadata:
labels:
k8s-app: metrics-server
name: metrics-server-auth-reader
namespace: kube-system
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: Role
name: extension-apiserver-authentication-reader
subjects:
- kind: ServiceAccount
name: metrics-server
namespace: kube-system
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
labels:
k8s-app: metrics-server
name: metrics-server:system:auth-delegator
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: system:auth-delegator
subjects:
- kind: ServiceAccount
name: metrics-server
namespace: kube-system
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
labels:
k8s-app: metrics-server
name: system:metrics-server
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: system:metrics-server
subjects:
- kind: ServiceAccount
name: metrics-server
namespace: kube-system
---
apiVersion: v1
kind: Service
metadata:
labels:
k8s-app: metrics-server
name: metrics-server
namespace: kube-system
spec:
ports:
- name: https
port: 443
protocol: TCP
targetPort: https
selector:
k8s-app: metrics-server
---
apiVersion: apps/v1
kind: Deployment
metadata:
labels:
k8s-app: metrics-server
name: metrics-server
namespace: kube-system
spec:
selector:
matchLabels:
k8s-app: metrics-server
strategy:
rollingUpdate:
maxUnavailable: 0
template:
metadata:
labels:
k8s-app: metrics-server
spec:
containers:
- 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 # change to front-proxy-ca.crt for kubeadm
- --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/chenby/metrics-server:v0.5.2
imagePullPolicy: IfNotPresent
livenessProbe:
failureThreshold: 3
httpGet:
path: /livez
port: https
scheme: HTTPS
periodSeconds: 10
name: metrics-server
ports:
- containerPort: 4443
name: https
protocol: TCP
readinessProbe:
failureThreshold: 3
httpGet:
path: /readyz
port: https
scheme: HTTPS
initialDelaySeconds: 20
periodSeconds: 10
resources:
requests:
cpu: 100m
memory: 200Mi
securityContext:
readOnlyRootFilesystem: true
runAsNonRoot: true
runAsUser: 1000
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
---
apiVersion: apiregistration.k8s.io/v1
kind: APIService
metadata:
labels:
k8s-app: metrics-server
name: v1beta1.metrics.k8s.io
spec:
group: metrics.k8s.io
groupPriorityMinimum: 100
insecureSkipTLSVerify: true
service:
name: metrics-server
namespace: kube-system
version: v1beta1
versionPriority: 100
EOF3. 相干证书生成
# master01 节点下载证书生成工具
# wget "https://github.com/cloudflare/cfssl/releases/download/v1.6.1/cfssl_1.6.2_linux_amd64" -O /usr/local/bin/cfssl
# wget "https://github.com/cloudflare/cfssl/releases/download/v1.6.1/cfssljson_1.6.2_linux_amd64" -O /usr/local/bin/cfssljson
# 软件包内有
cp cfssl /usr/local/bin/cfssl
cp cfssljson /usr/local/bin/cfssljson
chmod +x /usr/local/bin/cfssl /usr/local/bin/cfssljson3.1. 生成 etcd 证书
特地阐明除外,以下操作在所有 master 节点操作
3.1.1 所有 master 节点创立证书寄存目录
mkdir /etc/etcd/ssl -p3.1.2master01 节点生成 etcd 证书
cd pki
# 生成 etcd 证书和 etcd 证书的 key(如果你感觉当前可能会扩容,能够在 ip 那多写几个预留进去)# 若没有 IPv6 可删除可保留
cfssl gencert -initca etcd-ca-csr.json | cfssljson -bare /etc/etcd/ssl/etcd-ca
cfssl gencert \
-ca=/etc/etcd/ssl/etcd-ca.pem \
-ca-key=/etc/etcd/ssl/etcd-ca-key.pem \
-config=ca-config.json \
-hostname=127.0.0.1,k8s-master01,k8s-master02,k8s-master03,192.168.0.31,192.168.0.32,192.168.0.33,fc00:43f4:1eea:1::10,fc00:43f4:1eea:1::20,fc00:43f4:1eea:1::30,::1 \
-profile=kubernetes \
etcd-csr.json | cfssljson -bare /etc/etcd/ssl/etcd3.1.3 将证书复制到其余节点
Master='k8s-master02 k8s-master03'
for NODE in $Master; 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; done3.2. 生成 k8s 相干证书
特地阐明除外,以下操作在所有 master 节点操作
3.2.1 所有 k8s 节点创立证书寄存目录
mkdir -p /etc/kubernetes/pki3.2.2master01 节点生成 k8s 证书
cfssl gencert -initca ca-csr.json | cfssljson -bare /etc/kubernetes/pki/ca
# 生成一个根证书,多写了一些 IP 作为预留 IP,为未来增加 node 做筹备
# 10.96.0.1 是 service 网段的第一个地址,须要计算,192.168.0.36 为高可用 vip 地址
# 若没有 IPv6 可删除可保留
cfssl gencert \
-ca=/etc/kubernetes/pki/ca.pem \
-ca-key=/etc/kubernetes/pki/ca-key.pem \
-config=ca-config.json \
-hostname=10.96.0.1,192.168.0.36,127.0.0.1,kubernetes,kubernetes.default,kubernetes.default.svc,kubernetes.default.svc.cluster,kubernetes.default.svc.cluster.local,x.oiox.cn,k.oiox.cn,l.oiox.cn,o.oiox.cn,192.168.0.31,192.168.0.32,192.168.0.33,192.168.0.34,192.168.0.35,192.168.0.36,192.168.0.37,192.168.0.38,192.168.0.39,192.168.1.70,fc00:43f4:1eea:1::10,fc00:43f4:1eea:1::20,fc00:43f4:1eea:1::30,fc00:43f4:1eea:1::40,fc00:43f4:1eea:1::50,fc00:43f4:1eea:1::60,fc00:43f4:1eea:1::70,fc00:43f4:1eea:1::80,fc00:43f4:1eea:1::90,fc00:43f4:1eea:1::100,::1 \
-profile=kubernetes apiserver-csr.json | cfssljson -bare /etc/kubernetes/pki/apiserver3.2.3 生成 apiserver 聚合证书
cfssl gencert -initca front-proxy-ca-csr.json | cfssljson -bare /etc/kubernetes/pki/front-proxy-ca
# 有一个正告,能够疏忽
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-client3.2.4 生成 controller-manage 的证书
在《5. 高可用配置》抉择应用那种高可用计划
若应用 haproxy、keepalived 那么为 --server=https://192.168.0.36:8443
若应用 nginx 计划,那么为 --server=https://127.0.0.1:8443
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
# 设置一个集群项
# 在《5. 高可用配置》抉择应用那种高可用计划
# 若应用 haproxy、keepalived 那么为 `--server=https://192.168.0.36:8443`
# 若应用 nginx 计划,那么为 `--server=https://127.0.0.1:8443`
kubectl config set-cluster kubernetes \
--certificate-authority=/etc/kubernetes/pki/ca.pem \
--embed-certs=true \
--server=https://127.0.0.1:8443 \
--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
# 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
# 设置默认环境
kubectl config use-context system:kube-controller-manager@kubernetes \
--kubeconfig=/etc/kubernetes/controller-manager.kubeconfig
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
# 在《5. 高可用配置》抉择应用那种高可用计划
# 若应用 haproxy、keepalived 那么为 `--server=https://192.168.0.36:8443`
# 若应用 nginx 计划,那么为 `--server=https://127.0.0.1:8443`
kubectl config set-cluster kubernetes \
--certificate-authority=/etc/kubernetes/pki/ca.pem \
--embed-certs=true \
--server=https://127.0.0.1:8443 \
--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
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
# 在《5. 高可用配置》抉择应用那种高可用计划
# 若应用 haproxy、keepalived 那么为 `--server=https://192.168.0.36:8443`
# 若应用 nginx 计划,那么为 `--server=https://127.0.0.1:8443`
kubectl config set-cluster kubernetes \
--certificate-authority=/etc/kubernetes/pki/ca.pem \
--embed-certs=true \
--server=https://127.0.0.1:8443 \
--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.kubeconfig3.2.5 创立 kube-proxy 证书
在《5. 高可用配置》抉择应用那种高可用计划
若应用 haproxy、keepalived 那么为 --server=https://192.168.0.36:8443
若应用 nginx 计划,那么为 --server=https://127.0.0.1:8443
cfssl gencert \
-ca=/etc/kubernetes/pki/ca.pem \
-ca-key=/etc/kubernetes/pki/ca-key.pem \
-config=ca-config.json \
-profile=kubernetes \
kube-proxy-csr.json | cfssljson -bare /etc/kubernetes/pki/kube-proxy
# 在《5. 高可用配置》抉择应用那种高可用计划
# 若应用 haproxy、keepalived 那么为 `--server=https://192.168.0.36:8443`
# 若应用 nginx 计划,那么为 `--server=https://127.0.0.1:8443`
kubectl config set-cluster kubernetes \
--certificate-authority=/etc/kubernetes/pki/ca.pem \
--embed-certs=true \
--server=https://127.0.0.1:8443 \
--kubeconfig=/etc/kubernetes/kube-proxy.kubeconfig
kubectl config set-credentials kube-proxy \
--client-certificate=/etc/kubernetes/pki/kube-proxy.pem \
--client-key=/etc/kubernetes/pki/kube-proxy-key.pem \
--embed-certs=true \
--kubeconfig=/etc/kubernetes/kube-proxy.kubeconfig
kubectl config set-context kube-proxy@kubernetes \
--cluster=kubernetes \
--user=kube-proxy \
--kubeconfig=/etc/kubernetes/kube-proxy.kubeconfig
kubectl config use-context kube-proxy@kubernetes --kubeconfig=/etc/kubernetes/kube-proxy.kubeconfig3.2.5 创立 ServiceAccount Key ——secret
openssl genrsa -out /etc/kubernetes/pki/sa.key 2048
openssl rsa -in /etc/kubernetes/pki/sa.key -pubout -out /etc/kubernetes/pki/sa.pub3.2.6 将证书发送到其余 master 节点
# 其余节点创立目录
# mkdir /etc/kubernetes/pki/ -p
for NODE in k8s-master02 k8s-master03; do for FILE in $(ls /etc/kubernetes/pki | grep -v etcd); do scp /etc/kubernetes/pki/${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; done3.2.7 查看证书
ls /etc/kubernetes/pki/
admin.csr controller-manager.csr kube-proxy.csr
admin-key.pem controller-manager-key.pem kube-proxy-key.pem
admin.pem controller-manager.pem kube-proxy.pem
apiserver.csr front-proxy-ca.csr sa.key
apiserver-key.pem front-proxy-ca-key.pem sa.pub
apiserver.pem front-proxy-ca.pem scheduler.csr
ca.csr front-proxy-client.csr scheduler-key.pem
ca-key.pem front-proxy-client-key.pem scheduler.pem
ca.pem front-proxy-client.pem
# 一共 26 个就对了
ls /etc/kubernetes/pki/ |wc -l
264.k8s 零碎组件配置
4.1.etcd 配置
4.1.1master01 配置
# 如果要用 IPv6 那么把 IPv4 地址批改为 IPv6 即可
cat > /etc/etcd/etcd.config.yml << EOF
name: 'k8s-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://192.168.0.31:2380'
listen-client-urls: 'https://192.168.0.31:2379,http://127.0.0.1:2379'
max-snapshots: 3
max-wals: 5
cors:
initial-advertise-peer-urls: 'https://192.168.0.31:2380'
advertise-client-urls: 'https://192.168.0.31:2379'
discovery:
discovery-fallback: 'proxy'
discovery-proxy:
discovery-srv:
initial-cluster: 'k8s-master01=https://192.168.0.31:2380,k8s-master02=https://192.168.0.32:2380,k8s-master03=https://192.168.0.33:2380'
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
EOF4.1.2master02 配置
# 如果要用 IPv6 那么把 IPv4 地址批改为 IPv6 即可
cat > /etc/etcd/etcd.config.yml << EOF
name: 'k8s-master02'
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://192.168.0.32:2380'
listen-client-urls: 'https://192.168.0.32:2379,http://127.0.0.1:2379'
max-snapshots: 3
max-wals: 5
cors:
initial-advertise-peer-urls: 'https://192.168.0.32:2380'
advertise-client-urls: 'https://192.168.0.32:2379'
discovery:
discovery-fallback: 'proxy'
discovery-proxy:
discovery-srv:
initial-cluster: 'k8s-master01=https://192.168.0.31:2380,k8s-master02=https://192.168.0.32:2380,k8s-master03=https://192.168.0.33:2380'
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
EOF4.1.3master03 配置
# 如果要用 IPv6 那么把 IPv4 地址批改为 IPv6 即可
cat > /etc/etcd/etcd.config.yml << EOF
name: 'k8s-master03'
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://192.168.0.33:2380'
listen-client-urls: 'https://192.168.0.33:2379,http://127.0.0.1:2379'
max-snapshots: 3
max-wals: 5
cors:
initial-advertise-peer-urls: 'https://192.168.0.33:2380'
advertise-client-urls: 'https://192.168.0.33:2379'
discovery:
discovery-fallback: 'proxy'
discovery-proxy:
discovery-srv:
initial-cluster: 'k8s-master01=https://192.168.0.31:2380,k8s-master02=https://192.168.0.32:2380,k8s-master03=https://192.168.0.33:2380'
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
EOF4.2. 创立 service(所有 master 节点操作)
4.2.1 创立 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
EOF4.2.2 创立 etcd 证书目录
mkdir /etc/kubernetes/pki/etcd
ln -s /etc/etcd/ssl/* /etc/kubernetes/pki/etcd/
systemctl daemon-reload
systemctl enable --now etcd4.2.3 查看 etcd 状态
# 如果要用 IPv6 那么把 IPv4 地址批改为 IPv6 即可
export ETCDCTL_API=3
etcdctl --endpoints="192.168.0.33:2379,192.168.0.32:2379,192.168.0.31:2379" --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
+-----------------+------------------+---------+---------+-----------+------------+-----------+------------+--------------------+--------+
| ENDPOINT | ID | VERSION | DB SIZE | IS LEADER | IS LEARNER | RAFT TERM | RAFT INDEX | RAFT APPLIED INDEX | ERRORS |
+-----------------+------------------+---------+---------+-----------+------------+-----------+------------+--------------------+--------+
| 192.168.0.33:2379 | d58e37898979ae63 | 3.5.7 | 20 kB | false | false | 2 | 8 | 8 | |
| 192.168.0.32:2379 | ec6b15415e24cb42 | 3.5.7 | 20 kB | false | false | 2 | 8 | 8 | |
| 192.168.0.31:2379 | 5e5cf1ca5cb2d291 | 3.5.7 | 20 kB | true | false | 2 | 8 | 8 | |
+-----------------+------------------+---------+---------+-----------+------------+-----------+------------+--------------------+--------+
[root@k8s-master01 pki]# 5. 高可用配置(在 Master 服务器上操作)
留神 * 5.1.1 和 5.1.2 二选一即可
抉择应用那种高可用计划
在《3.2. 生成 k8s 相干证书》
若应用 nginx 计划,那么为 --server=https://127.0.0.1:8443
若应用 haproxy、keepalived 那么为 --server=https://192.168.0.36:8443
5.1 NGINX 高可用计划(举荐)
5.1.1 本人手动编译(举荐)
在所有节点执行
# 装置编译环境
yum install gcc -y
# 下载解压 nginx 二进制文件
# wget http://nginx.org/download/nginx-1.22.1.tar.gz
tar xvf nginx-*.tar.gz
cd nginx-*
# 进行编译
./configure --with-stream --without-http --without-http_uwsgi_module --without-http_scgi_module --without-http_fastcgi_module
make && make install
# 拷贝编译好的 nginx
node='k8s-master02 k8s-master03 k8s-node01 k8s-node02'
for NODE in $node; do scp -r /usr/local/nginx/ $NODE:/usr/local/nginx/; done
5.1.2 应用我编译好的
# 应用我编译好的
cd kubernetes-v1.26.0/cby
# 拷贝我编译好的 nginx
node='k8s-master01 k8s-master02 k8s-master03 k8s-node01 k8s-node02'
for NODE in $node; do scp nginx.tar $NODE:/usr/local/; done
# 其余节点上执行
cd /usr/local/
tar xvf nginx.tar 5.1.3 写入启动配置
在所有主机上执行
# 写入 nginx 配置文件
cat > /usr/local/nginx/conf/kube-nginx.conf <<EOF
worker_processes 1;
events {worker_connections 1024;}
stream {
upstream backend {
least_conn;
hash $remote_addr consistent;
server 192.168.0.31:6443 max_fails=3 fail_timeout=30s;
server 192.168.0.32:6443 max_fails=3 fail_timeout=30s;
server 192.168.0.33:6443 max_fails=3 fail_timeout=30s;
}
server {
listen 127.0.0.1:8443;
proxy_connect_timeout 1s;
proxy_pass backend;
}
}
EOF
# 写入启动配置文件
cat > /etc/systemd/system/kube-nginx.service <<EOF
[Unit]
Description=kube-apiserver nginx proxy
After=network.target
After=network-online.target
Wants=network-online.target
[Service]
Type=forking
ExecStartPre=/usr/local/nginx/sbin/nginx -c /usr/local/nginx/conf/kube-nginx.conf -p /usr/local/nginx -t
ExecStart=/usr/local/nginx/sbin/nginx -c /usr/local/nginx/conf/kube-nginx.conf -p /usr/local/nginx
ExecReload=/usr/local/nginx/sbin/nginx -c /usr/local/nginx/conf/kube-nginx.conf -p /usr/local/nginx -s reload
PrivateTmp=true
Restart=always
RestartSec=5
StartLimitInterval=0
LimitNOFILE=65536
[Install]
WantedBy=multi-user.target
EOF
# 设置开机自启
systemctl enable --now kube-nginx
systemctl restart kube-nginx
systemctl status kube-nginx5.2 keepalived 和 haproxy 高可用计划(不举荐)
5.2.1 装置 keepalived 和 haproxy 服务
systemctl disable --now firewalld
setenforce 0
sed -i 's#SELINUX=enforcing#SELINUX=disabled#g' /etc/selinux/config
yum -y install keepalived haproxy5.2.2 批改 haproxy 配置文件(两台配置文件一样)
# cp /etc/haproxy/haproxy.cfg /etc/haproxy/haproxy.cfg.bak
cat >/etc/haproxy/haproxy.cfg<<"EOF"
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 0.0.0.0:8443
bind 127.0.0.1:8443
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 k8s-master01 192.168.0.31:6443 check
server k8s-master02 192.168.0.32:6443 check
server k8s-master03 192.168.0.33:6443 check
EOF5.2.3Master01 配置 keepalived master 节点
#cp /etc/keepalived/keepalived.conf /etc/keepalived/keepalived.conf.bak
cat > /etc/keepalived/keepalived.conf << EOF
! Configuration File for keepalived
global_defs {router_id LVS_DEVEL}
vrrp_script chk_apiserver {
script "/etc/keepalived/check_apiserver.sh"
interval 5
weight -5
fall 2
rise 1
}
vrrp_instance VI_1 {
state MASTER
# 留神网卡名
interface eth0
mcast_src_ip 192.168.0.31
virtual_router_id 51
priority 100
nopreempt
advert_int 2
authentication {
auth_type PASS
auth_pass K8SHA_KA_AUTH
}
virtual_ipaddress {192.168.0.36}
track_script {chk_apiserver} }
EOF5.2.4Master02 配置 keepalived backup 节点
# cp /etc/keepalived/keepalived.conf /etc/keepalived/keepalived.conf.bak
cat > /etc/keepalived/keepalived.conf << EOF
! Configuration File for keepalived
global_defs {router_id LVS_DEVEL}
vrrp_script chk_apiserver {
script "/etc/keepalived/check_apiserver.sh"
interval 5
weight -5
fall 2
rise 1
}
vrrp_instance VI_1 {
state BACKUP
# 留神网卡名
interface eth0
mcast_src_ip 192.168.0.32
virtual_router_id 51
priority 80
nopreempt
advert_int 2
authentication {
auth_type PASS
auth_pass K8SHA_KA_AUTH
}
virtual_ipaddress {192.168.0.36}
track_script {chk_apiserver} }
EOF5.2.5Master03 配置 keepalived backup 节点
# cp /etc/keepalived/keepalived.conf /etc/keepalived/keepalived.conf.bak
cat > /etc/keepalived/keepalived.conf << EOF
! Configuration File for keepalived
global_defs {router_id LVS_DEVEL}
vrrp_script chk_apiserver {
script "/etc/keepalived/check_apiserver.sh"
interval 5
weight -5
fall 2
rise 1
}
vrrp_instance VI_1 {
state BACKUP
# 留神网卡名
interface eth0
mcast_src_ip 192.168.0.33
virtual_router_id 51
priority 50
nopreempt
advert_int 2
authentication {
auth_type PASS
auth_pass K8SHA_KA_AUTH
}
virtual_ipaddress {192.168.0.36}
track_script {chk_apiserver} }
EOF5.2.6 健康检查脚本配置(两台 lb 主机)
cat > /etc/keepalived/check_apiserver.sh << EOF
#!/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
EOF
# 给脚本受权
chmod +x /etc/keepalived/check_apiserver.sh5.2.7 启动服务
systemctl daemon-reload
systemctl enable --now haproxy
systemctl enable --now keepalived5.2.8 测试高可用
# 能 ping 同
[root@k8s-node02 ~]# ping 192.168.0.36
# 能 telnet 拜访
[root@k8s-node02 ~]# telnet 192.168.0.36 8443
# 敞开主节点,看 vip 是否漂移到备节点6.k8s 组件配置(区别于第 4 点)
所有 k8s 节点创立以下目录
mkdir -p /etc/kubernetes/manifests/ /etc/systemd/system/kubelet.service.d /var/lib/kubelet /var/log/kubernetes6.1. 创立 apiserver(所有 master 节点)
6.1.1master01 节点配置
cat > /usr/lib/systemd/system/kube-apiserver.service << EOF
[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=192.168.0.31 \\
--service-cluster-ip-range=10.96.0.0/12,fd00:1111::/112 \\
--service-node-port-range=30000-32767 \\
--etcd-servers=https://192.168.0.31:2379,https://192.168.0.32:2379,https://192.168.0.33:2379 \\
--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 \\
--enable-aggregator-routing=true
# --feature-gates=IPv6DualStack=true
# --token-auth-file=/etc/kubernetes/token.csv
Restart=on-failure
RestartSec=10s
LimitNOFILE=65535
[Install]
WantedBy=multi-user.target
EOF6.1.2master02 节点配置
cat > /usr/lib/systemd/system/kube-apiserver.service << EOF
[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=192.168.0.32 \\
--service-cluster-ip-range=10.96.0.0/12,fd00:1111::/112 \\
--service-node-port-range=30000-32767 \\
--etcd-servers=https://192.168.0.31:2379,https://192.168.0.32:2379,https://192.168.0.33:2379 \\
--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 \\
--enable-aggregator-routing=true
# --feature-gates=IPv6DualStack=true
# --token-auth-file=/etc/kubernetes/token.csv
Restart=on-failure
RestartSec=10s
LimitNOFILE=65535
[Install]
WantedBy=multi-user.target
EOF6.1.3master03 节点配置
cat > /usr/lib/systemd/system/kube-apiserver.service << EOF
[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=192.168.0.33 \\
--service-cluster-ip-range=10.96.0.0/12,fd00:1111::/112 \\
--service-node-port-range=30000-32767 \\
--etcd-servers=https://192.168.0.31:2379,https://192.168.0.32:2379,https://192.168.0.33:2379 \\
--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 \\
--enable-aggregator-routing=true
# --feature-gates=IPv6DualStack=true
# --token-auth-file=/etc/kubernetes/token.csv
Restart=on-failure
RestartSec=10s
LimitNOFILE=65535
[Install]
WantedBy=multi-user.target
EOF6.1.4 启动 apiserver(所有 master 节点)
systemctl daemon-reload && systemctl enable --now kube-apiserver
# 留神查看状态是否启动失常
# systemctl status kube-apiserver6.2. 配置 kube-controller-manager service
# 所有 master 节点配置,且配置雷同
# 172.16.0.0/12 为 pod 网段,按需要设置你本人的网段
cat > /usr/lib/systemd/system/kube-controller-manager.service << EOF
[Unit]
Description=Kubernetes Controller Manager
Documentation=https://github.com/kubernetes/kubernetes
After=network.target
[Service]
ExecStart=/usr/local/bin/kube-controller-manager \\
--v=2 \\
--bind-address=0.0.0.0 \\
--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 \\
--leader-elect=true \\
--use-service-account-credentials=true \\
--node-monitor-grace-period=40s \\
--node-monitor-period=5s \\
--controllers=*,bootstrapsigner,tokencleaner \\
--allocate-node-cidrs=true \\
--service-cluster-ip-range=10.96.0.0/12,fd00:1111::/112 \\
--cluster-cidr=172.16.0.0/12,fc00:2222::/112 \\
--node-cidr-mask-size-ipv4=24 \\
--node-cidr-mask-size-ipv6=120 \\
--requestheader-client-ca-file=/etc/kubernetes/pki/front-proxy-ca.pem
# --feature-gates=IPv6DualStack=true
Restart=always
RestartSec=10s
[Install]
WantedBy=multi-user.target
EOF6.2.1 启动 kube-controller-manager,并查看状态
systemctl daemon-reload
systemctl enable --now kube-controller-manager
# systemctl status kube-controller-manager6.3. 配置 kube-scheduler service
6.3.1 所有 master 节点配置,且配置雷同
cat > /usr/lib/systemd/system/kube-scheduler.service << EOF
[Unit]
Description=Kubernetes Scheduler
Documentation=https://github.com/kubernetes/kubernetes
After=network.target
[Service]
ExecStart=/usr/local/bin/kube-scheduler \\
--v=2 \\
--bind-address=0.0.0.0 \\
--leader-elect=true \\
--kubeconfig=/etc/kubernetes/scheduler.kubeconfig
Restart=always
RestartSec=10s
[Install]
WantedBy=multi-user.target
EOF6.3.2 启动并查看服务状态
systemctl daemon-reload
systemctl enable --now kube-scheduler
# systemctl status kube-scheduler7.TLS Bootstrapping 配置
7.1 在 master01 上配置
# 在《5. 高可用配置》抉择应用那种高可用计划
# 若应用 haproxy、keepalived 那么为 `--server=https://192.168.0.36:8443`
# 若应用 nginx 计划,那么为 `--server=https://127.0.0.1:8443`
cd bootstrap
kubectl config set-cluster kubernetes \
--certificate-authority=/etc/kubernetes/pki/ca.pem \
--embed-certs=true --server=https://127.0.0.1:8443 \
--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
# token 的地位在 bootstrap.secret.yaml,如果批改的话到这个文件批改
mkdir -p /root/.kube ; cp /etc/kubernetes/admin.kubeconfig /root/.kube/config7.2 查看集群状态,没问题的话持续后续操作
kubectl get cs
Warning: v1 ComponentStatus is deprecated in v1.19+
NAME STATUS MESSAGE ERROR
scheduler Healthy ok
controller-manager Healthy ok
etcd-0 Healthy {"health":"true","reason":""}
etcd-2 Healthy {"health":"true","reason":""}
etcd-1 Healthy {"health":"true","reason":""}
# 切记执行,别忘记!!!kubectl create -f bootstrap.secret.yaml8.node 节点配置
8.1. 在 master01 上将证书复制到 node 节点
cd /etc/kubernetes/
for NODE in k8s-master02 k8s-master03 k8s-node01 k8s-node02; do ssh $NODE mkdir -p /etc/kubernetes/pki; for FILE in pki/ca.pem pki/ca-key.pem pki/front-proxy-ca.pem bootstrap-kubelet.kubeconfig kube-proxy.kubeconfig; do scp /etc/kubernetes/$FILE $NODE:/etc/kubernetes/${FILE}; done; done8.2.kubelet 配置
留神:8.2.1 和 8.2.2 须要和 上方 2.1 和 2.2 对应起来
8.2.1 当应用 docker 作为 Runtime
cat > /usr/lib/systemd/system/kubelet.service << EOF
[Unit]
Description=Kubernetes Kubelet
Documentation=https://github.com/kubernetes/kubernetes
[Service]
ExecStart=/usr/local/bin/kubelet \\
--bootstrap-kubeconfig=/etc/kubernetes/bootstrap-kubelet.kubeconfig \\
--kubeconfig=/etc/kubernetes/kubelet.kubeconfig \\
--config=/etc/kubernetes/kubelet-conf.yml \\
--container-runtime-endpoint=unix:///run/cri-dockerd.sock \\
--node-labels=node.kubernetes.io/node=
[Install]
WantedBy=multi-user.target
EOF8.2.2 当应用 Containerd 作为 Runtime(举荐)
mkdir -p /var/lib/kubelet /var/log/kubernetes /etc/systemd/system/kubelet.service.d /etc/kubernetes/manifests/
# 所有 k8s 节点配置 kubelet service
cat > /usr/lib/systemd/system/kubelet.service << EOF
[Unit]
Description=Kubernetes Kubelet
Documentation=https://github.com/kubernetes/kubernetes
After=containerd.service
Requires=containerd.service
[Service]
ExecStart=/usr/local/bin/kubelet \\
--bootstrap-kubeconfig=/etc/kubernetes/bootstrap-kubelet.kubeconfig \\
--kubeconfig=/etc/kubernetes/kubelet.kubeconfig \\
--config=/etc/kubernetes/kubelet-conf.yml \\
--container-runtime-endpoint=unix:///run/containerd/containerd.sock \\
--node-labels=node.kubernetes.io/node=
# --feature-gates=IPv6DualStack=true
# --container-runtime=remote
# --runtime-request-timeout=15m
# --cgroup-driver=systemd
[Install]
WantedBy=multi-user.target
EOF8.2.3 所有 k8s 节点创立 kubelet 的配置文件
cat > /etc/kubernetes/kubelet-conf.yml <<EOF
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:
- 10.96.0.10
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
EOF8.2.4 启动 kubelet
systemctl daemon-reload
systemctl restart kubelet
systemctl enable --now kubelet8.2.5 查看集群
[root@k8s-master01 ~]# kubectl get node
NAME STATUS ROLES AGE VERSION
k8s-master01 Ready <none> 18s v1.27.1
k8s-master02 Ready <none> 16s v1.27.1
k8s-master03 Ready <none> 16s v1.27.1
k8s-node01 Ready <none> 14s v1.27.1
k8s-node02 Ready <none> 14s v1.27.1
[root@k8s-master01 ~]#8.2.6 查看容器运行时
[root@k8s-master01 ~]# kubectl describe node | grep Runtime
Container Runtime Version: containerd://1.6.20
Container Runtime Version: containerd://1.6.20
Container Runtime Version: containerd://1.6.20
Container Runtime Version: containerd://1.6.20
Container Runtime Version: containerd://1.6.20
[root@k8s-master01 ~]# kubectl describe node | grep Runtime
Container Runtime Version: docker://23.0.3
Container Runtime Version: docker://23.0.3
Container Runtime Version: docker://23.0.3
Container Runtime Version: docker://23.0.3
Container Runtime Version: docker://23.0.3
8.3.kube-proxy 配置
8.3.1 将 kubeconfig 发送至其余节点
for NODE in k8s-master02 k8s-master03; do scp /etc/kubernetes/kube-proxy.kubeconfig $NODE:/etc/kubernetes/kube-proxy.kubeconfig; done
for NODE in k8s-node01 k8s-node02; do scp /etc/kubernetes/kube-proxy.kubeconfig $NODE:/etc/kubernetes/kube-proxy.kubeconfig; done8.3.2 所有 k8s 节点增加 kube-proxy 的 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
EOF8.3.3 所有 k8s 节点增加 kube-proxy 的配置
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,fc00:2222::/112
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
EOF8.3.4 启动 kube-proxy
systemctl daemon-reload
systemctl restart kube-proxy
systemctl enable --now kube-proxy9. 装置网络插件
留神 9.1 和 9.2 二选其一即可,倡议在此处创立好快照后在进行操作,后续出问题能够回滚
centos7 要降级 libseccomp 不然 无奈装置网络插件
# https://github.com/opencontainers/runc/releases
# 降级 runc
# wget https://ghproxy.com/https://github.com/opencontainers/runc/releases/download/v1.1.4/runc.amd64
install -m 755 runc.amd64 /usr/local/sbin/runc
cp -p /usr/local/sbin/runc /usr/local/bin/runc
cp -p /usr/local/sbin/runc /usr/bin/runc
#下载高于 2.4 以上的包
yum -y install http://rpmfind.net/linux/centos/8-stream/BaseOS/x86_64/os/Packages/libseccomp-2.5.1-1.el8.x86_64.rpm
#查看以后版本
[root@k8s-master-1 ~]# rpm -qa | grep libseccomp
libseccomp-2.5.1-1.el8.x86_64
9.1 装置 Calico
9.1.1 更改 calico 网段
wget https://mirrors.chenby.cn/https://github.com/projectcalico/calico/blob/master/manifests/calico-typha.yaml
cp calico-typha.yaml calico.yaml
cp calico-typha.yaml calico-ipv6.yaml
vim calico.yaml
# calico-config ConfigMap 处
"ipam": {"type": "calico-ipam",},
- name: IP
value: "autodetect"
- name: CALICO_IPV4POOL_CIDR
value: "172.16.0.0/16"
# vim calico-ipv6.yaml
# calico-config ConfigMap 处
"ipam": {
"type": "calico-ipam",
"assign_ipv4": "true",
"assign_ipv6": "true"
},
- name: IP
value: "autodetect"
- name: IP6
value: "autodetect"
- name: CALICO_IPV4POOL_CIDR
value: "172.16.0.0/16"
- name: CALICO_IPV6POOL_CIDR
value: "fc00::/48"
- name: FELIX_IPV6SUPPORT
value: "true"
# 若 docker 镜像拉不下来,能够应用我的仓库
# sed -i "s#docker.io/calico/#registry.cn-hangzhou.aliyuncs.com/chenby/#g" calico.yaml
# sed -i "s#docker.io/calico/#registry.cn-hangzhou.aliyuncs.com/chenby/#g" calico-ipv6.yaml
# 本地没有公网 IPv6 应用 calico.yaml
kubectl apply -f calico.yaml
# 本地有公网 IPv6 应用 calico-ipv6.yaml
# kubectl apply -f calico-ipv6.yaml
9.1.2 查看容器状态
# calico 初始化会很慢 须要急躁期待一下,大概十分钟左右
[root@k8s-master01 ~]# kubectl get pod -A
NAMESPACE NAME READY STATUS RESTARTS AGE
kube-system calico-kube-controllers-6747f75cdc-fbvvc 1/1 Running 0 61s
kube-system calico-node-fs7hl 1/1 Running 0 61s
kube-system calico-node-jqz58 1/1 Running 0 61s
kube-system calico-node-khjlg 1/1 Running 0 61s
kube-system calico-node-wmf8q 1/1 Running 0 61s
kube-system calico-node-xc6gn 1/1 Running 0 61s
kube-system calico-typha-6cdc4b4fbc-57snb 1/1 Running 0 61s9.2 装置 cilium
9.2.1 装置 helm
# [root@k8s-master01 ~]# curl -fsSL -o get_helm.sh https://raw.githubusercontent.com/helm/helm/main/scripts/get-helm-3
# [root@k8s-master01 ~]# chmod 700 get_helm.sh
# [root@k8s-master01 ~]# ./get_helm.sh
wget https://get.helm.sh/helm-canary-linux-amd64.tar.gz
tar xvf helm-canary-linux-amd64.tar.gz
cp linux-amd64/helm /usr/local/bin/9.2.2 装置 cilium
# 增加源
helm repo add cilium https://helm.cilium.io
# 批改为国内源
helm pull cilium/cilium
tar xvf cilium-*.tgz
cd cilium/
sed -i "s#quay.io/cilium#registry.cn-hangzhou.aliyuncs.com/chenby#g" values.yaml
sed -i "s#quay.io/coreos#registry.cn-hangzhou.aliyuncs.com/chenby#g" values.yaml
# 默认参数装置
helm install harbor ./cilium/ -n kube-system
# 启用 ipv6
# helm install cilium cilium/cilium --namespace kube-system --set ipv6.enabled=true
# 启用路由信息和监控插件
# helm install cilium cilium/cilium --namespace kube-system --set hubble.relay.enabled=true --set hubble.ui.enabled=true --set prometheus.enabled=true --set operator.prometheus.enabled=true --set hubble.enabled=true --set hubble.metrics.enabled="{dns,drop,tcp,flow,port-distribution,icmp,http}"
9.2.3 查看
[root@k8s-master01 ~]# kubectl get pod -A | grep cil
kube-system cilium-gmr6c 1/1 Running 0 5m3s
kube-system cilium-kzgdj 1/1 Running 0 5m3s
kube-system cilium-operator-69b677f97c-6pw4k 1/1 Running 0 5m3s
kube-system cilium-operator-69b677f97c-xzzdk 1/1 Running 0 5m3s
kube-system cilium-q2rnr 1/1 Running 0 5m3s
kube-system cilium-smx5v 1/1 Running 0 5m3s
kube-system cilium-tdjq4 1/1 Running 0 5m3s
[root@k8s-master01 ~]#9.2.4 下载专属监控面板
装置时候没有创立 监控能够疏忽
[root@k8s-master01 yaml]# wget https://raw.githubusercontent.com/cilium/cilium/1.12.1/examples/kubernetes/addons/prometheus/monitoring-example.yaml
[root@k8s-master01 yaml]#
[root@k8s-master01 yaml]# kubectl apply -f monitoring-example.yaml
namespace/cilium-monitoring created
serviceaccount/prometheus-k8s created
configmap/grafana-config created
configmap/grafana-cilium-dashboard created
configmap/grafana-cilium-operator-dashboard created
configmap/grafana-hubble-dashboard created
configmap/prometheus created
clusterrole.rbac.authorization.k8s.io/prometheus created
clusterrolebinding.rbac.authorization.k8s.io/prometheus created
service/grafana created
service/prometheus created
deployment.apps/grafana created
deployment.apps/prometheus created
[root@k8s-master01 yaml]#9.2.5 下载部署测试用例
阐明 测试用例 须要在 装置 CoreDNS 之后即可实现
[root@k8s-master01 yaml]# wget https://raw.githubusercontent.com/cilium/cilium/master/examples/kubernetes/connectivity-check/connectivity-check.yaml
[root@k8s-master01 yaml]# sed -i "s#google.com#oiox.cn#g" connectivity-check.yaml
[root@k8s-master01 yaml]# kubectl apply -f connectivity-check.yaml
deployment.apps/echo-a created
deployment.apps/echo-b created
deployment.apps/echo-b-host created
deployment.apps/pod-to-a created
deployment.apps/pod-to-external-1111 created
deployment.apps/pod-to-a-denied-cnp created
deployment.apps/pod-to-a-allowed-cnp created
deployment.apps/pod-to-external-fqdn-allow-google-cnp created
deployment.apps/pod-to-b-multi-node-clusterip created
deployment.apps/pod-to-b-multi-node-headless created
deployment.apps/host-to-b-multi-node-clusterip created
deployment.apps/host-to-b-multi-node-headless created
deployment.apps/pod-to-b-multi-node-nodeport created
deployment.apps/pod-to-b-intra-node-nodeport created
service/echo-a created
service/echo-b created
service/echo-b-headless created
service/echo-b-host-headless created
ciliumnetworkpolicy.cilium.io/pod-to-a-denied-cnp created
ciliumnetworkpolicy.cilium.io/pod-to-a-allowed-cnp created
ciliumnetworkpolicy.cilium.io/pod-to-external-fqdn-allow-google-cnp created
[root@k8s-master01 yaml]#9.2.6 查看 pod
[root@k8s-master01 yaml]# kubectl get pod -A
NAMESPACE NAME READY STATUS RESTARTS AGE
cilium-monitoring grafana-59957b9549-6zzqh 1/1 Running 0 10m
cilium-monitoring prometheus-7c8c9684bb-4v9cl 1/1 Running 0 10m
default chenby-75b5d7fbfb-7zjsr 1/1 Running 0 27h
default chenby-75b5d7fbfb-hbvr8 1/1 Running 0 27h
default chenby-75b5d7fbfb-ppbzg 1/1 Running 0 27h
default echo-a-6799dff547-pnx6w 1/1 Running 0 10m
default echo-b-fc47b659c-4bdg9 1/1 Running 0 10m
default echo-b-host-67fcfd59b7-28r9s 1/1 Running 0 10m
default host-to-b-multi-node-clusterip-69c57975d6-z4j2z 1/1 Running 0 10m
default host-to-b-multi-node-headless-865899f7bb-frrmc 1/1 Running 0 10m
default pod-to-a-allowed-cnp-5f9d7d4b9d-hcd8x 1/1 Running 0 10m
default pod-to-a-denied-cnp-65cc5ff97b-2rzb8 1/1 Running 0 10m
default pod-to-a-dfc64f564-p7xcn 1/1 Running 0 10m
default pod-to-b-intra-node-nodeport-677868746b-trk2l 1/1 Running 0 10m
default pod-to-b-multi-node-clusterip-76bbbc677b-knfq2 1/1 Running 0 10m
default pod-to-b-multi-node-headless-698c6579fd-mmvd7 1/1 Running 0 10m
default pod-to-b-multi-node-nodeport-5dc4b8cfd6-8dxmz 1/1 Running 0 10m
default pod-to-external-1111-8459965778-pjt9b 1/1 Running 0 10m
default pod-to-external-fqdn-allow-google-cnp-64df9fb89b-l9l4q 1/1 Running 0 10m
kube-system cilium-7rfj6 1/1 Running 0 56s
kube-system cilium-d4cch 1/1 Running 0 56s
kube-system cilium-h5x8r 1/1 Running 0 56s
kube-system cilium-operator-5dbddb6dbf-flpl5 1/1 Running 0 56s
kube-system cilium-operator-5dbddb6dbf-gcznc 1/1 Running 0 56s
kube-system cilium-t2xlz 1/1 Running 0 56s
kube-system cilium-z65z7 1/1 Running 0 56s
kube-system coredns-665475b9f8-jkqn8 1/1 Running 1 (36h ago) 36h
kube-system hubble-relay-59d8575-9pl9z 1/1 Running 0 56s
kube-system hubble-ui-64d4995d57-nsv9j 2/2 Running 0 56s
kube-system metrics-server-776f58c94b-c6zgs 1/1 Running 1 (36h ago) 37h
[root@k8s-master01 yaml]#9.2.7 批改为 NodePort
装置时候没有创立 监控能够疏忽
[root@k8s-master01 yaml]# kubectl edit svc -n kube-system hubble-ui
service/hubble-ui edited
[root@k8s-master01 yaml]#
[root@k8s-master01 yaml]# kubectl edit svc -n cilium-monitoring grafana
service/grafana edited
[root@k8s-master01 yaml]#
[root@k8s-master01 yaml]# kubectl edit svc -n cilium-monitoring prometheus
service/prometheus edited
[root@k8s-master01 yaml]#
type: NodePort9.2.8 查看端口
装置时候没有创立 监控能够疏忽
[root@k8s-master01 yaml]# kubectl get svc -A | grep monit
cilium-monitoring grafana NodePort 10.100.250.17 <none> 3000:30707/TCP 15m
cilium-monitoring prometheus NodePort 10.100.131.243 <none> 9090:31155/TCP 15m
[root@k8s-master01 yaml]#
[root@k8s-master01 yaml]# kubectl get svc -A | grep hubble
kube-system hubble-metrics ClusterIP None <none> 9965/TCP 5m12s
kube-system hubble-peer ClusterIP 10.100.150.29 <none> 443/TCP 5m12s
kube-system hubble-relay ClusterIP 10.109.251.34 <none> 80/TCP 5m12s
kube-system hubble-ui NodePort 10.102.253.59 <none> 80:31219/TCP 5m12s
[root@k8s-master01 yaml]#9.2.9 拜访
装置时候没有创立 监控能够疏忽
http://192.168.0.31:30707
http://192.168.0.31:31155
http://192.168.0.31:3121910. 装置 CoreDNS
10.1 以下步骤只在 master01 操作
10.1.1 批改文件
# 下载 tgz 包
helm repo add coredns https://coredns.github.io/helm
helm pull coredns/coredns
tar xvf coredns-*.tgz
cd coredns/
# 批改 IP 地址
vim values.yaml
cat values.yaml | grep clusterIP:
clusterIP: "10.96.0.10"
# 示例
---
service:
# clusterIP: ""
# clusterIPs: []
# loadBalancerIP: ""
# externalIPs: []
# externalTrafficPolicy: ""# ipFamilyPolicy:""
# The name of the Service
# If not set, a name is generated using the fullname template
clusterIP: "10.96.0.10"
name: ""
annotations: {}
---
# 批改为国内源 docker 源可选
sed -i "s#coredns/#registry.cn-hangzhou.aliyuncs.com/chenby/#g" values.yaml
sed -i "s#registry.k8s.io/cpa/#registry.cn-hangzhou.aliyuncs.com/chenby/#g" values.yaml
# 默认参数装置
helm install coredns ./coredns/ -n kube-system11. 装置 Metrics Server
11.1 以下步骤只在 master01 操作
11.1.1 装置 Metrics-server
在新版的 Kubernetes 中系统资源的采集均应用 Metrics-server,能够通过 Metrics 采集节点和 Pod 的内存、磁盘、CPU 和网络的使用率
# 单机版
wget https://mirrors.chenby.cn/https://github.com/kubernetes-sigs/metrics-server/releases/latest/download/components.yaml
# 高可用版本
wget https://mirrors.chenby.cn/https://github.com/kubernetes-sigs/metrics-server/releases/latest/download/high-availability.yaml
# 批改配置
vim components.yaml
vim high-availability.yaml
---
# 1
defaultArgs:
- --cert-dir=/tmp
- --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-
# 2
volumeMounts:
- mountPath: /tmp
name: tmp-dir
- name: ca-ssl
mountPath: /etc/kubernetes/pki
# 3
volumes:
- emptyDir: {}
name: tmp-dir
- name: ca-ssl
hostPath:
path: /etc/kubernetes/pki
---
# 批改为国内源 docker 源可选
sed -i "s#registry.k8s.io/metrics-server/#registry.cn-hangzhou.aliyuncs.com/chenby/#g" *.yaml
# 二选一
kubectl apply -f high-availability.yaml
# kubectl apply -f components.yaml
11.1.2 稍等片刻查看状态
kubectl top node
NAME CPU(cores) CPU% MEMORY(bytes) MEMORY%
k8s-master01 154m 1% 1715Mi 21%
k8s-master02 151m 1% 1274Mi 16%
k8s-master03 523m 6% 1345Mi 17%
k8s-node01 84m 1% 671Mi 8%
k8s-node02 73m 0% 727Mi 9%
k8s-node03 96m 1% 769Mi 9%
k8s-node04 68m 0% 673Mi 8%
k8s-node05 82m 1% 679Mi 8% 12. 集群验证
12.1 部署 pod 资源
cat<<EOF | kubectl apply -f -
apiVersion: v1
kind: Pod
metadata:
name: busybox
namespace: default
spec:
containers:
- name: busybox
image: docker.io/library/busybox:1.28
command:
- sleep
- "3600"
imagePullPolicy: IfNotPresent
restartPolicy: Always
EOF
# 查看
kubectl get pod
NAME READY STATUS RESTARTS AGE
busybox 1/1 Running 0 17s12.2 用 pod 解析默认命名空间中的 kubernetes
kubectl get svc
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
kubernetes ClusterIP 10.96.0.1 <none> 443/TCP 17h
kubectl exec busybox -n default -- nslookup kubernetes
3Server: 10.96.0.10
Address 1: 10.96.0.10 kube-dns.kube-system.svc.cluster.local
Name: kubernetes
Address 1: 10.96.0.1 kubernetes.default.svc.cluster.local12.3 测试跨命名空间是否能够解析
kubectl exec busybox -n default -- nslookup kube-dns.kube-system
Server: 10.96.0.10
Address 1: 10.96.0.10 kube-dns.kube-system.svc.cluster.local
Name: kube-dns.kube-system
Address 1: 10.96.0.10 kube-dns.kube-system.svc.cluster.local12.4 每个节点都必须要能拜访 Kubernetes 的 kubernetes svc 443 和 kube-dns 的 service 53
telnet 10.96.0.1 443
Trying 10.96.0.1...
Connected to 10.96.0.1.
Escape character is '^]'.
telnet 10.96.0.10 53
Trying 10.96.0.10...
Connected to 10.96.0.10.
Escape character is '^]'.
curl 10.96.0.10:53
curl: (52) Empty reply from server12.5Pod 和 Pod 之前要能通
kubectl get po -owide
NAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
busybox 1/1 Running 0 17m 172.27.14.193 k8s-node02 <none> <none>
kubectl get po -n kube-system -owide
NAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
calico-kube-controllers-5dffd5886b-4blh6 1/1 Running 0 77m 172.25.244.193 k8s-master01 <none> <none>
calico-node-fvbdq 1/1 Running 1 (75m ago) 77m 192.168.0.31 k8s-master01 <none> <none>
calico-node-g8nqd 1/1 Running 0 77m 192.168.0.34 k8s-node01 <none> <none>
calico-node-mdps8 1/1 Running 0 77m 192.168.0.35 k8s-node02 <none> <none>
calico-node-nf4nt 1/1 Running 0 77m 192.168.0.33 k8s-master03 <none> <none>
calico-node-sq2ml 1/1 Running 0 77m 192.168.0.32 k8s-master02 <none> <none>
calico-typha-8445487f56-mg6p8 1/1 Running 0 77m 192.168.0.35 k8s-node02 <none> <none>
calico-typha-8445487f56-pxbpj 1/1 Running 0 77m 192.168.0.31 k8s-master01 <none> <none>
calico-typha-8445487f56-tnssl 1/1 Running 0 77m 192.168.0.34 k8s-node01 <none> <none>
coredns-5db5696c7-67h79 1/1 Running 0 63m 172.25.92.65 k8s-master02 <none> <none>
metrics-server-6bf7dcd649-5fhrw 1/1 Running 0 61m 172.18.195.1 k8s-master03 <none> <none>
# 进入 busybox ping 其余节点上的 pod
kubectl exec -ti busybox -- sh
/ # ping 192.168.0.34
PING 192.168.0.34 (192.168.0.34): 56 data bytes
64 bytes from 192.168.0.34: seq=0 ttl=63 time=0.358 ms
64 bytes from 192.168.0.34: seq=1 ttl=63 time=0.668 ms
64 bytes from 192.168.0.34: seq=2 ttl=63 time=0.637 ms
64 bytes from 192.168.0.34: seq=3 ttl=63 time=0.624 ms
64 bytes from 192.168.0.34: seq=4 ttl=63 time=0.907 ms
# 能够连通证实这个 pod 是能够跨命名空间和跨主机通信的12.6 创立三个正本,能够看到 3 个正本散布在不同的节点上(用完能够删了)
cat > deployments.yaml << EOF
apiVersion: apps/v1
kind: Deployment
metadata:
name: nginx-deployment
labels:
app: nginx
spec:
replicas: 3
selector:
matchLabels:
app: nginx
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: nginx
image: nginx
ports:
- containerPort: 80
EOF
kubectl apply -f deployments.yaml
deployment.apps/nginx-deployment created
kubectl get pod
NAME READY STATUS RESTARTS AGE
busybox 1/1 Running 0 6m25s
nginx-deployment-9456bbbf9-4bmvk 1/1 Running 0 8s
nginx-deployment-9456bbbf9-9rcdk 1/1 Running 0 8s
nginx-deployment-9456bbbf9-dqv8s 1/1 Running 0 8s
# 删除 nginx
[root@k8s-master01 ~]# kubectl delete -f deployments.yaml 13. 装置 dashboard
helm repo add kubernetes-dashboard https://kubernetes.github.io/dashboard/
helm install kubernetes-dashboard kubernetes-dashboard/kubernetes-dashboard --namespace kube-system13.1 更改 dashboard 的 svc 为 NodePort,如果已是请疏忽
kubectl edit svc kubernetes-dashboard -n kube-system
type: NodePort13.2 查看端口号
kubectl get svc kubernetes-dashboard -n kube-system
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
kubernetes-dashboard NodePort 10.108.120.110 <none> 443:30034/TCP 34s13.3 创立 token
cat > dashboard-user.yaml << EOF
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
EOF
kubectl apply -f dashboard-user.yaml
# 创立 token
kubectl -n kube-system create token admin-user
eyJhbGciOiJSUzI1NiIsImtpZCI6IlhWQmNELWlxWWRXeDZwTm5iTU9jbTNfMWMxaUhoZkdTYlFaaFg0SVVGT0EifQ.eyJhdWQiOlsiaHR0cHM6Ly9rdWJlcm5ldGVzLmRlZmF1bHQuc3ZjLmNsdXN0ZXIubG9jYWwiXSwiZXhwIjoxNjgxNTQ4NjQzLCJpYXQiOjE2ODE1NDUwNDMsImlzcyI6Imh0dHBzOi8va3ViZXJuZXRlcy5kZWZhdWx0LnN2Yy5jbHVzdGVyLmxvY2FsIiwia3ViZXJuZXRlcy5pbyI6eyJuYW1lc3BhY2UiOiJrdWJlLXN5c3RlbSIsInNlcnZpY2VhY2NvdW50Ijp7Im5hbWUiOiJhZG1pbi11c2VyIiwidWlkIjoiNzY1ZTU2MjMtZjIyYy00ZGM3LTliODEtYjU4MGY5ZDllZWQ2In19LCJuYmYiOjE2ODE1NDUwNDMsInN1YiI6InN5c3RlbTpzZXJ2aWNlYWNjb3VudDprdWJlLXN5c3RlbTphZG1pbi11c2VyIn0.Pqzj9L0rO6FXCpy6yRBx700CjlOpfmXXKG-LIds1lGnz0m1bYwLZpq5RDPWrv_in2NuVu-O3Ej9q1-LExFNhoWWOKdjntRrm4fCRS1JZATcXZdk-ND_dNOVcoyOgon54krXrnmU8kDgcpMJrn7TL03rSn1loVMI0ZL53aRM7JrGFkAnCytkr0vdqZRBnUwvPMDFD9D5wetBGXoaI3fI257w4jp0mRj5nICl5pliMBX2MLM2RfhGVoLkfZdHN83kr597lOkR2UExEBH3qq-vS4tjX7YWrSHgBkKwfaQTv8RpMQYH4StJcsYALlatnG6-ZUBE7mI8d1fl2qSvT7qbjrQ13.3 登录 dashboard
https://192.168.0.31:30034/
14.ingress 装置
14.1 执行部署
wget https://mirrors.chenby.cn/https://raw.githubusercontent.com/kubernetes/ingress-nginx/main/deploy/static/provider/cloud/deploy.yaml
vim deploy.yaml
cat deploy.yaml | grep image:
image: registry.cn-hangzhou.aliyuncs.com/chenby/controller:v1.7.0
image: registry.cn-hangzhou.aliyuncs.com/chenby/kube-webhook-certgen:v1.3.0
image: registry.cn-hangzhou.aliyuncs.com/chenby/kube-webhook-certgen:v1.3.0
cat > backend.yaml << EOF
apiVersion: apps/v1
kind: Deployment
metadata:
name: default-http-backend
labels:
app.kubernetes.io/name: default-http-backend
namespace: kube-system
spec:
replicas: 1
selector:
matchLabels:
app.kubernetes.io/name: default-http-backend
template:
metadata:
labels:
app.kubernetes.io/name: default-http-backend
spec:
terminationGracePeriodSeconds: 60
containers:
- name: default-http-backend
image: registry.cn-hangzhou.aliyuncs.com/chenby/defaultbackend-amd64:1.5
livenessProbe:
httpGet:
path: /healthz
port: 8080
scheme: HTTP
initialDelaySeconds: 30
timeoutSeconds: 5
ports:
- containerPort: 8080
resources:
limits:
cpu: 10m
memory: 20Mi
requests:
cpu: 10m
memory: 20Mi
---
apiVersion: v1
kind: Service
metadata:
name: default-http-backend
namespace: kube-system
labels:
app.kubernetes.io/name: default-http-backend
spec:
ports:
- port: 80
targetPort: 8080
selector:
app.kubernetes.io/name: default-http-backend
EOF
kubectl apply -f deploy.yaml
kubectl apply -f backend.yaml
cat > backend.yaml << EOF
apiVersion: apps/v1
kind: Deployment
metadata:
name: hello-server
spec:
replicas: 2
selector:
matchLabels:
app: hello-server
template:
metadata:
labels:
app: hello-server
spec:
containers:
- name: hello-server
image: registry.cn-hangzhou.aliyuncs.com/lfy_k8s_images/hello-server
ports:
- containerPort: 9000
---
apiVersion: apps/v1
kind: Deployment
metadata:
labels:
app: nginx-demo
name: nginx-demo
spec:
replicas: 2
selector:
matchLabels:
app: nginx-demo
template:
metadata:
labels:
app: nginx-demo
spec:
containers:
- image: nginx
name: nginx
---
apiVersion: v1
kind: Service
metadata:
labels:
app: nginx-demo
name: nginx-demo
spec:
selector:
app: nginx-demo
ports:
- port: 8000
protocol: TCP
targetPort: 80
---
apiVersion: v1
kind: Service
metadata:
labels:
app: hello-server
name: hello-server
spec:
selector:
app: hello-server
ports:
- port: 8000
protocol: TCP
targetPort: 9000
---
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: ingress-host-bar
spec:
ingressClassName: nginx
rules:
- host: "hello.chenby.cn"
http:
paths:
- pathType: Prefix
path: "/"
backend:
service:
name: hello-server
port:
number: 8000
- host: "demo.chenby.cn"
http:
paths:
- pathType: Prefix
path: "/nginx"
backend:
service:
name: nginx-demo
port:
number: 8000
EOF
# 等创立实现后在执行:kubectl apply -f ingress-demo-app.yaml
kubectl get ingress
NAME CLASS HOSTS ADDRESS PORTS AGE
ingress-host-bar nginx hello.chenby.cn,demo.chenby.cn 192.168.0.32 80 7s
14.2 过滤查看 ingress 端口
[root@hello ~/yaml]# kubectl get svc -A | grep ingress
ingress-nginx ingress-nginx-controller NodePort 10.104.231.36 <none> 80:32636/TCP,443:30579/TCP 104s
ingress-nginx ingress-nginx-controller-admission ClusterIP 10.101.85.88 <none> 443/TCP 105s
[root@hello ~/yaml]#15.IPv6 测试
# 部署利用
cat<<EOF | kubectl apply -f -
apiVersion: apps/v1
kind: Deployment
metadata:
name: chenby
spec:
replicas: 3
selector:
matchLabels:
app: chenby
template:
metadata:
labels:
app: chenby
spec:
containers:
- name: chenby
image: docker.io/library/nginx
resources:
limits:
memory: "128Mi"
cpu: "500m"
ports:
- containerPort: 80
---
apiVersion: v1
kind: Service
metadata:
name: chenby
spec:
ipFamilyPolicy: PreferDualStack
ipFamilies:
- IPv6
- IPv4
type: NodePort
selector:
app: chenby
ports:
- port: 80
targetPort: 80
EOF
#查看端口
[root@k8s-master01 ~]# kubectl get svc
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
chenby NodePort fd00::a29c <none> 80:30779/TCP 5s
[root@k8s-master01 ~]#
#应用内网拜访
[root@localhost yaml]# curl -I http://[fd00::a29c]
HTTP/1.1 200 OK
Server: nginx/1.21.6
Date: Thu, 05 May 2022 10:20:35 GMT
Content-Type: text/html
Content-Length: 615
Last-Modified: Tue, 25 Jan 2022 15:03:52 GMT
Connection: keep-alive
ETag: "61f01158-267"
Accept-Ranges: bytes
[root@localhost yaml]# curl -I http://192.168.0.31:30779
HTTP/1.1 200 OK
Server: nginx/1.21.6
Date: Thu, 05 May 2022 10:20:59 GMT
Content-Type: text/html
Content-Length: 615
Last-Modified: Tue, 25 Jan 2022 15:03:52 GMT
Connection: keep-alive
ETag: "61f01158-267"
Accept-Ranges: bytes
[root@localhost yaml]#
#应用公网拜访
[root@localhost yaml]# curl -I http://[2409:8a10:9e18:9020::10]:30779
HTTP/1.1 200 OK
Server: nginx/1.21.6
Date: Thu, 05 May 2022 10:20:54 GMT
Content-Type: text/html
Content-Length: 615
Last-Modified: Tue, 25 Jan 2022 15:03:52 GMT
Connection: keep-alive
ETag: "61f01158-267"
Accept-Ranges: bytes16. 装置命令行主动补全性能
yum install bash-completion -y
source /usr/share/bash-completion/bash_completion
source <(kubectl completion bash)
echo "source <(kubectl completion bash)" >> ~/.bashrc附录
镜像版本要自行查看,因为镜像版本是随时更新的,文档无奈做到实时更新
# docker pull 镜像
docker pull registry.cn-hangzhou.aliyuncs.com/chenby/cni:master
docker pull registry.cn-hangzhou.aliyuncs.com/chenby/node:master
docker pull registry.cn-hangzhou.aliyuncs.com/chenby/kube-controllers:master
docker pull registry.cn-hangzhou.aliyuncs.com/chenby/typha:master
docker pull registry.cn-hangzhou.aliyuncs.com/chenby/coredns:v1.10.0
docker pull registry.cn-hangzhou.aliyuncs.com/chenby/pause:3.6
docker pull registry.cn-hangzhou.aliyuncs.com/chenby/metrics-server:v0.5.2
docker pull kubernetesui/dashboard:v2.7.0
docker pull kubernetesui/metrics-scraper:v1.0.8
docker pull quay.io/cilium/cilium:v1.12.6
docker pull quay.io/cilium/certgen:v0.1.8
docker pull quay.io/cilium/hubble-relay:v1.12.6
docker pull quay.io/cilium/hubble-ui-backend:v0.9.2
docker pull quay.io/cilium/hubble-ui:v0.9.2
docker pull quay.io/cilium/cilium-etcd-operator:v2.0.7
docker pull quay.io/cilium/operator:v1.12.6
docker pull quay.io/cilium/clustermesh-apiserver:v1.12.6
docker pull quay.io/coreos/etcd:v3.5.4
docker pull quay.io/cilium/startup-script:d69851597ea019af980891a4628fb36b7880ec26
# docker 保留镜像
docker save registry.cn-hangzhou.aliyuncs.com/chenby/cni:master -o cni.tar
docker save registry.cn-hangzhou.aliyuncs.com/chenby/node:master -o node.tar
docker save registry.cn-hangzhou.aliyuncs.com/chenby/typha:master -o typha.tar
docker save registry.cn-hangzhou.aliyuncs.com/chenby/kube-controllers:master -o kube-controllers.tar
docker save registry.cn-hangzhou.aliyuncs.com/chenby/coredns:v1.10.0 -o coredns.tar
docker save registry.cn-hangzhou.aliyuncs.com/chenby/pause:3.6 -o pause.tar
docker save registry.cn-hangzhou.aliyuncs.com/chenby/metrics-server:v0.5.2 -o metrics-server.tar
docker save kubernetesui/dashboard:v2.7.0 -o dashboard.tar
docker save kubernetesui/metrics-scraper:v1.0.8 -o metrics-scraper.tar
docker save quay.io/cilium/cilium:v1.12.6 -o cilium.tar
docker save quay.io/cilium/certgen:v0.1.8 -o certgen.tar
docker save quay.io/cilium/hubble-relay:v1.12.6 -o hubble-relay.tar
docker save quay.io/cilium/hubble-ui-backend:v0.9.2 -o hubble-ui-backend.tar
docker save quay.io/cilium/hubble-ui:v0.9.2 -o hubble-ui.tar
docker save quay.io/cilium/cilium-etcd-operator:v2.0.7 -o cilium-etcd-operator.tar
docker save quay.io/cilium/operator:v1.12.6 -o operator.tar
docker save quay.io/cilium/clustermesh-apiserver:v1.12.6 -o clustermesh-apiserver.tar
docker save quay.io/coreos/etcd:v3.5.4 -o etcd.tar
docker save quay.io/cilium/startup-script:d69851597ea019af980891a4628fb36b7880ec26 -o startup-script.tar
# 传输到各个节点
for NODE in k8s-master01 k8s-master02 k8s-master03 k8s-node01 k8s-node02; do scp -r images/ $NODE:/root/ ; done
# 创立命名空间
ctr ns create k8s.io
# 导入镜像
ctr --namespace k8s.io image import images/cni.tar
ctr --namespace k8s.io image import images/node.tar
ctr --namespace k8s.io image import images/typha.tar
ctr --namespace k8s.io image import images/kube-controllers.tar
ctr --namespace k8s.io image import images/coredns.tar
ctr --namespace k8s.io image import images/pause.tar
ctr --namespace k8s.io image import images/metrics-server.tar
ctr --namespace k8s.io image import images/dashboard.tar
ctr --namespace k8s.io image import images/metrics-scraper.tar
ctr --namespace k8s.io image import images/dashboard.tar
ctr --namespace k8s.io image import images/metrics-scraper.tar
ctr --namespace k8s.io image import images/cilium.tar
ctr --namespace k8s.io image import images/certgen.tar
ctr --namespace k8s.io image import images/hubble-relay.tar
ctr --namespace k8s.io image import images/hubble-ui-backend.tar
ctr --namespace k8s.io image import images/hubble-ui.tar
ctr --namespace k8s.io image import images/cilium-etcd-operator.tar
ctr --namespace k8s.io image import images/operator.tar
ctr --namespace k8s.io image import images/clustermesh-apiserver.tar
ctr --namespace k8s.io image import images/etcd.tar
ctr --namespace k8s.io image import images/startup-script.tar
# pull tar 包 解压后
helm pull cilium/cilium
# 查看镜像版本
root@hello:~/cilium# cat values.yaml| grep tag: -C1
repository: "quay.io/cilium/cilium"
tag: "v1.12.6"
pullPolicy: "IfNotPresent"
--
repository: "quay.io/cilium/certgen"
tag: "v0.1.8@sha256:4a456552a5f192992a6edcec2febb1c54870d665173a33dc7d876129b199ddbd"
pullPolicy: "IfNotPresent"
--
repository: "quay.io/cilium/hubble-relay"
tag: "v1.12.6"
# hubble-relay-digest
--
repository: "quay.io/cilium/hubble-ui-backend"
tag: "v0.9.2@sha256:a3ac4d5b87889c9f7cc6323e86d3126b0d382933bd64f44382a92778b0cde5d7"
pullPolicy: "IfNotPresent"
--
repository: "quay.io/cilium/hubble-ui"
tag: "v0.9.2@sha256:d3596efc94a41c6b772b9afe6fe47c17417658956e04c3e2a28d293f2670663e"
pullPolicy: "IfNotPresent"
--
repository: "quay.io/cilium/cilium-etcd-operator"
tag: "v2.0.7@sha256:04b8327f7f992693c2cb483b999041ed8f92efc8e14f2a5f3ab95574a65ea2dc"
pullPolicy: "IfNotPresent"
--
repository: "quay.io/cilium/operator"
tag: "v1.12.6"
# operator-generic-digest
--
repository: "quay.io/cilium/startup-script"
tag: "d69851597ea019af980891a4628fb36b7880ec26"
pullPolicy: "IfNotPresent"
--
repository: "quay.io/cilium/cilium"
tag: "v1.12.6"
# cilium-digest
--
repository: "quay.io/cilium/clustermesh-apiserver"
tag: "v1.12.6"
# clustermesh-apiserver-digest
--
repository: "quay.io/coreos/etcd"
tag: "v3.5.4@sha256:795d8660c48c439a7c3764c2330ed9222ab5db5bb524d8d0607cac76f7ba82a3"
pullPolicy: "IfNotPresent"
对于
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