Shell脚本快速部署Kubernetes集群系统
Posted
tags:
篇首语:本文由小常识网(cha138.com)小编为大家整理,主要介绍了Shell脚本快速部署Kubernetes集群系统相关的知识,希望对你有一定的参考价值。
本文紧跟上节所讲的手动部署Kubernetes管理Docker篇所写,本篇主要内容利用Shell脚本完成快速部署Kubernetes集群。上节博文看过的朋友也能感觉到部署过程相对比较简单,那么,出于简化工作流程,推进运维自动化角度来说,于是花了2/3天时间写这个部署Kubernetes脚本。
运维工作中,常常会遇到部署各种各样的服务,建议:常规部署都应该尽量使用脚本完成,一方面提高自身脚本编写能力,另一方面推进运维自动化。
详细部署说明文档:http://lizhenliang.blog.51cto.com/7876557/1736572
提醒:即使按照本篇文章一步一步做,也不一定部署成功。原因你懂得!如果失败,也建议你仔细看看脚本内容,从中寻找解决办法。同时,相信你也会从脚本中获取到其他有价值的信息。
实验环境:
操作系统:Ubuntu14.04_x64
master:192.168.1.150
minion01 : 192.168.1.151 容器网段:172.17.1.0/24
minion02 : 192.168.1.152 容器网段:172.17.2.0/24
安装包下载:
etcd:http://pan.baidu.com/s/1c1wITMw
kubernetes:http://pan.baidu.com/s/1kUoxgYb
相关脚本下载:http://pan.baidu.com/s/1o7nEaca
脚本说明:
config_ssh_root_remote.sh #配置root SSH登录(默认ubuntu系统禁止root SSH登录)
ssh_keypair_auth.sh #配置master主机与minion主机SSH免交互认证
kubernetes-install.sh #安装kubernetes的master端与minion端
config_gre_channel.sh #配置两台Docker主机容器实现跨主机访问(OVS)
安装步骤(请按照步骤做):
1)在minion主机root权限开启root允许SSH远程登录
操作命令:$ sudo bash config_ssh_root_remote.sh
脚本内容:$ cat config_ssh_root_remote.sh
#!/bin/bash # Description: configuration root account ssh remote login if [ $USER != "root" ]; then echo "Please use root account operation or sudo!" exit 1 fi function color_echo() { if [ $1 == "green" ]; then echo -e "\033[32;40m$2\033[0m" elif [ $1 == "red" ]; then echo -e "\033[31;40m$2\033[0m" fi } function check_pkg() { if ! $(dpkg -l $PKG_NAME >/dev/null 2>&1); then echo no else echo yes fi } function install_pkg() { local PKG_NAME=$1 if [ $(check_pkg $PKG_NAME) == "no" ]; then apt-get install $PKG_NAME -y if [ $(check_pkg $PKG_NAME) == "no" ]; then color_echo green "$PKG_NAME installation failure! Try to install again." apt-get autoremove && apt-get update apt-get install $PKG_NAME --force-yes -y [ $(check_pkg $PKG_NAME) == "no" ] && color_echo red "The $PKG_NAME installation failure!" && exit 1 fi fi } install_pkg expect # modify ssh config file sed -r -i ‘s/(PermitRootLogin).*/\1 yes/‘ /etc/ssh/sshd_config service ssh restart >/dev/null # set root account password echo "------------------------------------------------------>" while true; do read -p "Please enter you want to set the root account password: " ROOT_PASS if [ -n "$ROOT_PASS" ]; then break else color_echo red "Password cannot be empty!" continue fi done expect -c " spawn passwd root expect { \"Enter new UNIX password:\" {send \"$ROOT_PASS\r\"; exp_continue} \"Retype new UNIX password:\" {send \"$ROOT_PASS\r\"} } expect eof " >/dev/null color_echo green "The root account password is: $ROOT_PASS"
2)在master主机切换到root用户执行脚本与minion主机root用户建立SSH免交互登录
操作命令:# bash ssh_keypair_auth.sh [email protected]@123
脚本内容:# cat ssh_keypair_auth.sh
#!/bin/bash # Description: configuration local host and remote host ssh keypair authentication, Support Ubuntu and CentOS operation system. function color_echo() { if [ $1 == "green" ]; then echo -e "\033[32;40m$2\033[0m" elif [ $1 == "red" ]; then echo -e "\033[31;40m$2\033[0m" fi } function os_version() { local OS_V=$(cat /etc/issue |awk ‘NR==1{print $1}‘) if [ $OS_V == "\S" -o $OS_V == "CentOS" ]; then echo "CentOS" elif [ $OS_V == "Ubuntu" ]; then echo "Ubuntu" fi } function check_ssh_auth() { if $(grep "Permission denied" $EXP_TMP_FILE >/dev/null); then color_echo red "Host $IP SSH authentication failure! Login password error." exit 1 elif $(ssh $INFO ‘echo yes >/dev/null‘); then color_echo green "Host $IP SSH authentication successfully." fi rm $EXP_TMP_FILE >/dev/null } function check_pkg() { local PKG_NAME=$1 if [ $(os_version) == "CentOS" ]; then if ! $(rpm -ql $PKG_NAME >/dev/null 2>&1); then echo no else echo yes fi elif [ $(os_version) == "Ubuntu" ]; then if ! $(dpkg -l $PKG_NAME >/dev/null 2>&1); then echo no else echo yes fi fi } function install_pkg() { local PKG_NAME=$1 if [ $(os_version) == "CentOS" ]; then if [ $(check_pkg $PKG_NAME) == "no" ]; then yum install $PKG_NAME -y if [ $(check_pkg $PKG_NAME) == "no" ]; then color_echo green "The $PKG_NAME installation failure! Try to install again." yum makecache yum install $PKG_NAME -y [ $(check_pkg $PKG_NAME) == "no" ] && color_echo red "The $PKG_NAME installation failure!" && exit 1 fi fi elif [ $(os_version) == "Ubuntu" ]; then if [ $(check_pkg $PKG_NAME) == "no" ]; then apt-get install $PKG_NAME -y if [ $(check_pkg $PKG_NAME) == "no" ]; then color_echo green "$PKG_NAME installation failure! Try to install again." apt-get autoremove && apt-get update apt-get install $PKG_NAME --force-yes -y [ $(check_pkg $PKG_NAME) == "no" ] && color_echo red "The $PKG_NAME installation failure!" && exit 1 fi fi fi } function generate_keypair() { if [ ! -e ~/.ssh/id_rsa.pub ]; then color_echo green "The public/private rsa key pair not exist, start Generating..." expect -c " spawn ssh-keygen expect { \"ssh/id_rsa):\" {send \"\r\";exp_continue} \"passphrase):\" {send \"\r\";exp_continue} \"again:\" {send \"\r\";exp_continue} } " >/dev/null 2>&1 if [ -e ~/.ssh/id_rsa.pub ]; then color_echo green "Generating public/private rsa key pair successfully." else color_echo red "Generating public/private rsa key pair failure!" exit 1 fi fi } EXP_TMP_FILE=/tmp/expect_ssh.tmp if [[ $1 =~ ^[a-z][email protected][0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}@.* ]]; then install_pkg expect ; generate_keypair for i in [email protected]; do USER=$(echo $i|cut [email protected] -f1) IP=$(echo $i|cut [email protected] -f2) PASS=$(echo $i|cut [email protected] -f3) [email protected]$IP expect -c " spawn ssh-copy-id $INFO expect { \"(yes/no)?\" {send \"yes\r\";exp_continue} \"password:\" {send \"$PASS\r\";exp_continue} } " > $EXP_TMP_FILE # if login failed, login error info append temp file check_ssh_auth done elif [[ $1 =~ ^[a-z][email protected][0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}-[0-9]{1,3}@.* ]]; then install_pkg expect ; generate_keypair START_IP_NUM=$(echo $1|sed -r ‘s/.*\.(.*)-(.*)@.*/\1/‘) END_IP_NUM=$(echo $1|sed -r ‘s/.*\.(.*)-(.*)@.*/\2/‘) for ((i=$START_IP_NUM;i<=$END_IP_NUM;i++)); do USER=$(echo $1|cut [email protected] -f1) PASS=$(echo $1|cut [email protected] -f3) IP_RANGE=$(echo $1|sed -r ‘s/.*@(.*\.).*/\1/‘) IP=$IP_RANGE$i [email protected]$IP_RANGE$i expect -c " spawn ssh-copy-id $INFO expect { \"(yes/no)?\" {send \"yes\r\";exp_continue} \"password:\" {send \"$PASS\r\";exp_continue} } " > $EXP_TMP_FILE check_ssh_auth done else echo "Example1: $0 <[email protected]@password>" echo "Example2: $0 <[email protected]@password>" echo "Example3: $0 [[email protected]@password [email protected]@password [email protected]@password ...]" fi
3)在master主机root权限执行脚本安装master端服务
操作命令:$ sudo bash kubernetes-install.sh master
脚本内容:$ cat kubernetes-install.sh
#!/bin/bash # Description: Installation Kubernetes1.1.3 # Etcd Download: https://github.com/coreos/etcd/releases/download/v2.2.2/etcd-v2.2.2-linux-amd64.tar.gz # K8S Download: https://storage.googleapis.com/kubernetes-release/release/v1.1.3/kubernetes.tar.gz . /lib/lsb/init-functions if [ $(cat /etc/issue |awk ‘{print $1}‘) != "Ubuntu" ]; then echo "Only support ubuntu operating system!" exit 1 fi if [ $USER != "root" ]; then echo "Please use root account operation!" exit 1 fi function color_echo() { if [ $1 == "green" ]; then echo -e "\033[32;40m$2\033[0m" elif [ $1 == "red" ]; then echo -e "\033[31;40m$2\033[0m" fi } function check_install_pkg() { if [ ! -e $ETCD_FILE -a ! -e $K8S_FILE ]; then color_echo red "$ETCD_FILE and $K8S_FILE file not exist!" exit 1 elif [ ! -e $ETCD_FILE ]; then color_echo red "$ETCD_FILE file not exist!" exit 1 elif [ ! -e $K8S_FILE ]; then color_echo red "$K8S_FILE file not exist!" exit 1 fi } function local_ip() { local NUM ARRAY_LENGTH NUM=0 for NIC_NAME in $(ls /sys/class/net|grep -vE "lo|docker0"); do NIC_IP=$(ifconfig $NIC_NAME |awk -F‘[: ]+‘ ‘/inet addr/{print $4}‘) if [ -n "$NIC_IP" ]; then NIC_IP_ARRAY[$NUM]="$NIC_NAME:$NIC_IP" let NUM++ fi done ARRAY_LENGTH=${#NIC_IP_ARRAY[*]} if [ $ARRAY_LENGTH -eq 1 ]; then LOCAL_IP=${NIC_IP_ARRAY[0]#*:} return 0 elif [ $ARRAY_LENGTH -eq 0 ]; then color_echo red "No available network card!" exit 1 else # multi network card select for NIC in ${NIC_IP_ARRAY[*]}; do echo $NIC done while true; do read -p "Please enter local use to network card name: " INPUT_NIC_NAME for NIC in ${NIC_IP_ARRAY[*]}; do NIC_NAME=${NIC%:*} if [ $NIC_NAME == "$INPUT_NIC_NAME" ]; then LOCAL_IP=${NIC_IP_ARRAY[0]#*:} return 0 fi done echo "Not match! Please input again." done fi } function check_ip() { local IP=$1 VALID_CHECK=$(echo $IP|awk -F. ‘$1<=255&&$2<=255&&$3<=255&&$4<=255{print "yes"}‘) if echo $IP|grep -E "^[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}$" >/dev/null; then if [ ${VALID_CHECK:-no} == "yes" ]; then return 0 else echo "IP $IP not available!" return 1 fi else echo "IP format error!" return 1 fi } function cluster_ip() { if [ $1 == "master" ]; then while true; do read -p "Please enter master IP: " MASTER_IP check_ip $MASTER_IP [ $? -eq 0 ] && break done elif [ $1 == "minion" ]; then while true; do local MINION_NUM read -p "Please enter cluster minion node number: " MINION_NUM if [[ $MINION_NUM =~ ^[0-9]+$ ]]; then break else color_echo red "Format error!" fi done NUM=1 while [ $NUM -le $MINION_NUM ]; do local MINION_IP read -p "Please enter minion host $NUM IP: " MINION_IP check_ip $MINION_IP if [ $? -eq 0 ]; then let NUM++ MINION_IP_ARRAY+=($MINION_IP) fi done fi } function modify_init_script() { if [ $1 == "master" ]; then cd $MASTER_MODULE_INIT_SCRIPT_DIR elif [ $1 == "minion" ]; then cd $MINION_MODULE_INIT_SCRIPT_DIR fi for MODULE_INIT_SCRIPT in $(ls|grep -v etcd); do if [ -x $MODULE_INIT_SCRIPT ]; then sed -r -i ‘/\/sbin\/initctl/{s/(if)(.*)/\1 false \&\&\2/}‘ $MODULE_INIT_SCRIPT fi done } function check_service_status() { sleep 1 if [ $(ps -ef |grep -v grep|grep -c "$BIN_DIR/$MODULE_INIT_SCRIPT") -eq 1 ]; then log_begin_msg "Starting $MODULE_INIT_SCRIPT" log_end_msg 0 # 0 is the right command execution status else log_failure_msg "$(color_echo red "Starting $MODULE_INIT_SCRIPT")" log_end_msg 1 # 1 is the wrong command execution status fi } function check_exec_status() { if [ $? -ne 0 ]; then color_echo green "Please try to run the script!" exit 1 fi } BASE_DIR=$PWD ETCD_FILE=$BASE_DIR/etcd-v2.2.2-linux-amd64.tar.gz K8S_FILE=$BASE_DIR/kubernetes.tar.gz BIN_DIR=/opt/bin INIT_SCRIPT_DIR=/etc/init.d OPTS_FILE_DIR=/etc/default MODULE_BIN_DIR=$BASE_DIR/kubernetes/server/bin MASTER_MODULE_INIT_SCRIPT_DIR=$BASE_DIR/kubernetes/cluster/ubuntu/master/init_scripts MINION_MODULE_INIT_SCRIPT_DIR=$BASE_DIR/kubernetes/cluster/ubuntu/minion/init_scripts case $1 in master) check_install_pkg pkill etcd ; pkill kube cluster_ip minion # Create binary file directory [ ! -d $BIN_DIR ] && mkdir $BIN_DIR # Installation storage system etcd log_action_msg "Unzip the $ETCD_FILE" tar zxf $ETCD_FILE ; check_exec_status cp $BASE_DIR/etcd-v2.2.2-linux-amd64/etc* $BIN_DIR ; check_exec_status echo " ETCD_OPTS=\" --listen-client-urls http://0.0.0.0:4001 --advertise-client-urls http://0.0.0.0:4001 --data-dir /var/lib/etcd/default.etcd\" " > $OPTS_FILE_DIR/etcd # Installation module kube-apiserver kube-scheduler and kube-controller-manager log_action_msg "Unzip the $K8S_FILE" tar zxf $BASE_DIR/kubernetes.tar.gz ; check_exec_status tar zxf $BASE_DIR/kubernetes/server/kubernetes-server-linux-amd64.tar.gz ; check_exec_status cd $MODULE_BIN_DIR && cp -a kubectl kube-apiserver kube-scheduler kube-controller-manager $BIN_DIR ; check_exec_status # Configure init scripts modify_init_script master cp -a etcd kube-* $INIT_SCRIPT_DIR ; check_exec_status sed -i ‘63s/.*/"/‘ $INIT_SCRIPT_DIR/etcd #Remove the append log file,Otherwise etcd may cannot be started # Module Configure option log_action_msg "Create $OPTS_FILE_DIR/kube-apiserver startup options file ..." echo " KUBE_APISERVER_OPTS=\" --insecure-bind-address=0.0.0.0 --insecure-port=8080 --service-cluster-ip-range=10.0.0.0/16 --etcd_servers=http://127.0.0.1:4001 --logtostderr=true\" " > $OPTS_FILE_DIR/kube-apiserver check_exec_status log_action_msg "Create $OPTS_FILE_DIR/kube-controller-manager startup options file ..." echo " KUBE_CONTROLLER_MANAGER_OPTS=\" --master=127.0.0.1:8080 --logtostderr=true\" " > $OPTS_FILE_DIR/kube-controller-manager log_action_msg "Create $OPTS_FILE_DIR/kube-scheduler startup options file ..." echo " KUBE_SCHEDULER_OPTS=\" --master=127.0.0.1:8080 --logtostderr=true\" " > $OPTS_FILE_DIR/kube-scheduler # Starting module for MODULE_INIT_SCRIPT in $(ls $INIT_SCRIPT_DIR|grep -E "(etcd|kube.*)"); do service $MODULE_INIT_SCRIPT start >/dev/null check_service_status done # set variable echo "export PATH=$PATH:$BIN_DIR" >> /etc/profile . /etc/profile # Copy module kubelet and kube-proxy to minion SSH_OPTS="-o ConnectTimeout=1 -o ConnectionAttempts=3" cd $MODULE_BIN_DIR for MINION_IP in ${MINION_IP_ARRAY[*]}; do log_action_msg "Copy module to $MINION_IP:$BIN_DIR ..." ssh $SSH_OPTS [email protected]$MINION_IP "[ ! -d $BIN_DIR ] && mkdir $BIN_DIR" ; check_exec_status scp $SSH_OPTS kubelet kube-proxy [email protected]$MINION_IP:$BIN_DIR done # Copy module init scripts to minion modify_init_script minion cd $MINION_MODULE_INIT_SCRIPT_DIR for MINION_IP in ${MINION_IP_ARRAY[*]}; do log_action_msg "Copy module init scripts to $MINION_IP:$INIT_SCRIPT_DIR ..." scp $SSH_OPTS kubelet kube-proxy [email protected]$MINION_IP:$INIT_SCRIPT_DIR ; check_exec_status done color_echo green "Kubernetes master installation complete." ;; minion) cluster_ip master # Notice input master ip local_ip pkill kube # Install Docker if ! $(dpkg -l docker-engine >/dev/null 2>&1) && ! $(docker info >/dev/null 2>&1); then log_action_msg "Start the installation Docker ..." apt-key adv --keyserver hkp://p80.pool.sks-keyservers.net:80 --recv-keys 58118E89F3A912897C070ADBF76221572C52609D >/dev/null 2>&1 [ $? -ne 0 ] && echo "Docker source secret key register failure!" DOCKER_U_SOURCE=/tmp/docker_source.tmp echo " deb https://apt.dockerproject.org/repo ubuntu-precise main deb https://apt.dockerproject.org/repo ubuntu-trusty main deb https://apt.dockerproject.org/repo ubuntu-vivid main deb https://apt.dockerproject.org/repo ubuntu-wily main " > $DOCKER_U_SOURCE OS_CODE_V=$(lsb_release -cs) DOKER_SOURCE=$(grep $OS_CODE_V $DOCKER_U_SOURCE) echo "$DOKER_SOURCE" > /etc/apt/sources.list.d/docker.list rm $DOCKER_U_SOURCE apt-get update apt-get install docker-engine -y if $(dpkg -l docker-engine >/dev/null) && $(docker info >/dev/null); then color_echo green "Docker installation successfully." else apt-get remove ; apt-get install docker-engine --force-yes -y if ! $(dpkg -l docker-engine >/dev/null) && ! $(docker info >/dev/null); then color_echo red "Docker installation failure!" exit 1 fi fi fi # Module Configure option log_action_msg "Create $OPTS_FILE_DIR/kubelet startup options file ..." echo " KUBELET_OPTS=\" --address=0.0.0.0 --port=10250 --hostname_override=$LOCAL_IP --api_servers=http://$MASTER_IP:8080 --pod-infra-container-image=docker.io/kubernetes/pause:latest --logtostderr=true\" " > $OPTS_FILE_DIR/kubelet log_action_msg "Create $OPTS_FILE_DIR/kube-proxy startup options file ..." echo " KUBE_PROXY_OPTS=\" --master=http://$MASTER_IP:8080 --proxy-mode=iptables --logtostderr=true\" " > $OPTS_FILE_DIR/kube-proxy # Starting module for MODULE_INIT_SCRIPT in $(ls $INIT_SCRIPT_DIR|grep kube.*); do service $MODULE_INIT_SCRIPT start >/dev/null check_service_status done color_echo green "Kubernetes minion installation complete." ;; *) echo "Usage: $0 {master|minion}" exit 1 ;; esac
4)在minion主机root权限执行脚本安装minion端服务
操作命令:$ sudo bash kubernetes-install.sh minion
脚本内容:同上
5)在minion主机root权限执行脚本创建GRE通道
操作命令:$ sudo bash config_gre_channel.sh
脚本内容:$ cat config_gre_channel.sh
#!/bin/bash # Description: configuration docker host between GRE Channel if [ $(cat /etc/issue |awk ‘{print $1}‘) != "Ubuntu" ]; then echo "Only support ubuntu operating system!" exit 1 fi if [ $USER != "root" ]; then echo "Please use root account operation!" exit 1 fi function color_echo() { if [ $1 == "green" ]; then echo -e "\033[32;40m$2\033[0m" elif [ $1 == "red" ]; then echo -e "\033[31;40m$2\033[0m" fi } function check_ip() { local IP=$1 local VALID_CHECK=$(echo $IP|awk -F. ‘$1<=255&&$2<=255&&$3<=255&&$4<=255{print "yes"}‘) if echo $IP|grep -E "^[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}$" >/dev/null; then if [ ${VALID_CHECK:-no} == "yes" ]; then return 0 else echo "IP $IP not available!" return 1 fi else echo "IP format error!" return 1 fi } function docker_host_ip() { color_echo green "Notice: Only support two Docker host configuration GRE Channel!" NUM=1 while [ $NUM -le 2 ]; do local DOCKER_IP read -p "Please enter Docker host $NUM IP: " DOCKER_HOST_IP check_ip $DOCKER_HOST_IP if [ $? -eq 0 ]; then let NUM++ DOCKER_HOST_IP_ARRAY+=($DOCKER_HOST_IP) fi done } function local_nic_info() { local NUM ARRAY_LENGTH NUM=0 for NIC_NAME in $(ls /sys/class/net|grep -vE "lo|docker0"); do NIC_IP=$(ifconfig $NIC_NAME |awk -F‘[: ]+‘ ‘/inet addr/{print $4}‘) if [ -n "$NIC_IP" ]; then NIC_IP_ARRAY[$NUM]="$NIC_NAME:$NIC_IP" let NUM++ fi done ARRAY_LENGTH=${#NIC_IP_ARRAY[*]} if [ $ARRAY_LENGTH -eq 1 ]; then LOCAL_NIC=${NIC_IP_ARRAY[0]%:*} LOCAL_IP=${NIC_IP_ARRAY[0]#*:} return 0 elif [ $ARRAY_LENGTH -eq 0 ]; then color_echo red "No available network card!" exit 1 else # multi network card select for NIC in ${NIC_IP_ARRAY[*]}; do echo $NIC done while true; do read -p "Please enter local use to network card name: " INPUT_NIC_NAME for NIC in ${NIC_IP_ARRAY[*]}; do NIC_NAME=${NIC%:*} if [ $NIC_NAME == "$INPUT_NIC_NAME" ]; then LOCAL_NIC=${NIC_IP_ARRAY[0]%:*} LOCAL_IP=${NIC_IP_ARRAY[0]#*:} return 0 fi done echo "Not match! Please input again." done fi } function check_pkg() { if ! $(dpkg -l $PKG_NAME >/dev/null 2>&1); then echo no else echo yes fi } function install_pkg() { local PKG_NAME=$1 if [ $(check_pkg $PKG_NAME) == "no" ]; then apt-get install $PKG_NAME -y if [ $(check_pkg $PKG_NAME) == "no" ]; then color_echo green "The $PKG_NAME installation failure! Try to install again." apt-get autoremove && apt-get update apt-get install $PKG_NAME --force-yes -y [ $(check_pkg $PKG_NAME) == "no" ] && color_echo red "The $PKG_NAME installation failure!" && exit 1 fi fi } function config_gre_channel() { install_pkg openvswitch-switch install_pkg bridge-utils if [ ${DOCKER_HOST_IP_ARRAY[0]} == "$LOCAL_IP" ]; then REMOTE_HOST_IP=${DOCKER_HOST_IP_ARRAY[1]} # remote host ip REMOTE_DOCKER_IP="172.17.2.0/24" # remote docker host default container ip range LOCAL_DOCKER_IP="172.17.1.0" # kbr0 gateway elif [ ${DOCKER_HOST_IP_ARRAY[1]} == "$LOCAL_IP" ]; then REMOTE_HOST_IP=${DOCKER_HOST_IP_ARRAY[0]} REMOTE_DOCKER_IP="172.17.1.0/24" LOCAL_DOCKER_IP="172.17.2.0" else echo "IP not match! Please input again." exit 1 fi ovs-vsctl add-br obr0 2>/dev/null ovs-vsctl add-port obr0 gre0 -- set Interface gre0 type=gre options:remote_ip=$REMOTE_HOST_IP 2>/dev/null brctl addbr kbr0 2>/dev/null brctl addif kbr0 obr0 2>/dev/null ip link set dev kbr0 up if [ $(grep -cE "kbr0" /etc/network/interfaces) -ne 2 ]; then echo " auto kbr0 iface kbr0 inet static address $(echo $LOCAL_DOCKER_IP|sed ‘s/0$/1/‘) netmask 255.255.255.0 gateway $LOCAL_DOCKER_IP bridge_ports obr0 " >> /etc/network/interfaces fi if $(ls /sys/class/net|grep docker0 >/dev/null); then service docker stop >/dev/null ip link set dev docker0 down ip link delete dev docker0 echo "DOCKER_OPTS=\"-b=kbr0\"" > /etc/default/docker service docker start >/dev/null fi ifdown kbr0 >/dev/null 2>&1;ifup kbr0 >/dev/null 2>&1 # reboot invalid # ip route add $REMOTE_DOCKER_IP via $REMOTE_HOST_IP dev $LOCAL_NIC 2>/dev/null # permanent valid if ! $(grep "$REMOTE_DOCKER_IP via $REMOTE_HOST_IP" /etc/rc.local >/dev/null); then sed -i "$i\ip route add $REMOTE_DOCKER_IP via $REMOTE_HOST_IP dev $LOCAL_NIC" /etc/rc.local fi } # main docker_host_ip echo "--------------------------------------------" local_nic_info config_gre_channel color_echo green "GRE Channel configuration complete." brctl show echo "-------------------------------------------------" ovs-vsctl show
1、配置minion主机root SSH登录
先将config_gre_channel.sh、config_ssh_root_remote.sh和kubernetes-install.sh这三个文件上传各自的minion主机,以备后用。
说明:操作成功,root密码为123
2、配置master主机与minion主机SSH免交互认证
将kubernetes-install.sh、ssh_keypair_auth.sh和etcd-v2.2.2-linux-amd64.tar.gz、kubernetes.tar.gz安装包上传到master主机
3、安装master端
说明:先解压文件,在创建启动选项文件,再启动服务,最后将minion相关包通过scp工具拷贝过去。通过ps工具看到服务进程已经启动。
4、安装minion端
Kubernetes最新版本1.15.1,shell脚本一键部署,刚刚完成测试,实用。
使用FIT2CLOUD在青云QingCloud快速部署和管理Kubernetes集群