CentOS7部署Kubernetes集群
CentOS7部署Kubernetes集群简介
Kubernetes是什么?
Kubernetes一个用于容器集群的自动化部署、扩容以及运维的开源平台。
通过Kubernetes,你可以快速有效地响应用户需求:
a、快速而有预期地部署你的应用
b、极速地扩展你的应用
c、无缝对接新的应用功能
d、节省资源,优化硬件资源的使用
我们希望培育出一个组件及工具的生态,帮助大家减轻在公有云及私有云上运行应用的负担。
Kubernetes特点:
a、可移植: 支持公有云,私有云,混合云,多重云(multi-cloud)
b、可扩展: 模块化, 插件化, 可挂载, 可组合
c、自愈: 自动布置,自动重启,自动复制,自动扩展
Kubernetes始于Google 2014 年的一个项目。 Kubernetes的构建基于Google十多年运行大规模负载产品的经验,同时也吸取了社区中最好的意见和经验。
Kubernetes设计架构:
高清图地址:https://raw.githubusercontent.com/kubernetes/kubernetes/release-1.2/docs/design/architecture.png
Kubernetes主要由以下几个核心组件组成:
a、etcd保存了整个集群的状态;
b、apiserver提供了资源操作的唯一入口,并提供认证、授权、访问控制、API注册和发现等机制;
c、controller manager负责维护集群的状态,比如故障检测、自动扩展、滚动更新等;
d、scheduler负责资源的调度,按照预定的调度策略将Pod调度到相应的机器上;
e、kubelet负责维护容器的生命周期,同时也负责Volume(CVI)和网络(CNI)的管理;
d、Container runtime负责镜像管理以及Pod和容器的真正运行(CRI);
e、kube-proxy负责为Service提供cluster内部的服务发现和负载均衡;
除了核心组件,还有一些推荐的Add-ons:
f、kube-dns负责为整个集群提供DNS服务
g、Ingress Controller为服务提供外网入口
h、Heapster提供资源监控
i、Dashboard提供GUI
j、Federation提供跨可用区的集群
k、Fluentd-elasticsearch提供集群日志采集、存储与查询
****** 具体参考:https://www.kubernetes.org.cn/docs
一、环境介绍
Kubernetes包提供了一些服务:kube-apiserver, kube-scheduler, kube-controller-manager,kubelet,
kube-proxy。这些服务通过systemd进行管理,配置信息都集中存放在一个地方:/etc/kubernetes。我们将会把这些服务运行到不同的主机上。第一台主机,centosmaster,将是Kubernetes 集群的master主机。这台机器上将运行kube-apiserver, kubecontroller-manager和kube-scheduler这几个服务,此外,master主机上还将运行etcd。其余的主机,fed-minion,将是从节点,将会运行kubelet, proxy和docker
操作系统信息:CentOS 7 64位
Open vSwitch版本信息:2.5.0
Kubernetes版本信息:v1.5.2
Etcd版本信息:3.1.9
Docker版本信息:1.12.6
服务器信息:
192.168.80.130k8s-master
192.168.80.131k8s-node1
192.168.80.132k8s-node2
二、部署前准备
1、设置免密登录
# ssh-keygen
# ssh-copy-id -i /root/.ssh/id_rsa.pub k8s-node1
# ssh-copy-id -i /root/.ssh/id_rsa.pub k8s-node2
2、所有机器上操作
a、添加hosts
# vim /etc/hosts
192.168.80.130k8s-master
192.168.80.131k8s-node1
192.168.80.132k8s-node2
b、同步时间
# yum -y install lrzsz git wget python-devel ntp net-tools curl cmake epel-release rpmdevtools openssl-devel kernel-devel gcc redhat-rpm-config bridge-utils
# yum groupinstall "Development Tools" -y
# \cp -Rf /usr/share/zoneinfo/Asia/Shanghai /etc/localtime
# ntpdate 133.100.11.8
# sed -i 's#ZONE="America/New_York"#ZONE="Asia/Shanghai"#g' /etc/sysconfig/clock
# hwclock -w
# date -R
3、在2个Node节点安装Open Switch,这里以node1为例安装
a、安装openVswitch
# yum -y install lrzsz git wget python-devel ntp net-tools curl cmake epel-release rpmdevtools openssl-devel kernel-devel gcc redhat-rpm-config bridge-utils
# yum groupinstall "Development Tools" -y
# mkdir -p ~/rpmbuild/SOURCES
# wget http://openvswitch.org/releases/openvswitch-2.5.0.tar.gz
# cp openvswitch-2.5.0.tar.gz ~/rpmbuild/SOURCES/
# tar xfz openvswitch-2.5.0.tar.gz
# sed 's/openvswitch-kmod, //g' openvswitch-2.5.0/rhel/openvswitch.spec > openvswitch-2.5.0/rhel/openvswitch_no_kmod.spec
# rpmbuild -bb --nocheck ~/openvswitch-2.5.0/rhel/openvswitch_no_kmod.spec
# yum -y localinstall ~/rpmbuild/RPMS/x86_64/openvswitch-2.5.0-1.x86_64.rpm
# modprobe openvswitch && systemctl start openvswitch.service
b、配置GRE遂道
# ovs-vsctl add-br obr0
****** 接下来建立gre,并将新建的gre0添加到obr0,在node1上执行如下命令,
# ovs-vsctl add-port obr0 gre0 -- set Interface gre0 type=gre options:remote_ip=192.168.80.132
****** 注:remote_ip=node2_IP
# ovs-vsctl add-br obr0
****** 接下来建立gre,并将新建的gre0添加到obr0,在node1上执行如下命令,
# ovs-vsctl add-port obr0 gre0 -- set Interface gre0 type=gre options:remote_ip=192.168.80.131
****** 注:remote_ip=node1_IP
****** 至此,node1和node2之间的隧道已经建立。然后我们在node1和node2上创建网桥br0替代Docker默认的docker0,设置node1的br0的地址:172.16.1.1/24, node2的br0的地址:172.16.2.1/24,并添加obr0到br0接口,以下命令均在node1和 node2上执行,
这里以node1为例执行:
# brctl addbr br0 //创建linux bridge
# brctl addif br0 obr0 //添加obr0为br0的接口
# ip link set dev docker0 down //设置docker0为down状态
# ip link del dev docker0 //删除docker0
****** 为了使用br0在重启后也生效,我们需要在/etc/sysconfig/network-scripts下创建网卡文件ifcfg-br0
# vim /etc/sysconfig/network-scripts/ifcfg-br0
DEVICE=br0
ONBOOT=yes
BOOTPROTO=static
IPADDR=172.16.1.1
NETMASK=255.255.255.0
GATEWAY=172.16.1.0
USERCTL=no
TYPE=Bridge
IPV6INIT=no
******** Node2上也需要执行上面命令 *******
c、两台node互添路由信息:
# cd /etc/sysconfig/network-scripts/
# ls ./
# ifcfg-br0 ifcfg-ens33 ifcfg-lo
# vim route-ens33
172.16.2.0/24 via 192.168.80.132 dev ens33
******注:ens33是node1的物理网卡名称,如果你的是eth0,那么名称为:route-eth0
# service network restart
# /etc/sysconfig/network-scripts/
# vim route-ens33
172.16.1.0/24 via 192.168.80.131 dev ens33
# service network restart
d、测试gre遂道是否连通
# ping -w 4 172.16.2.1
PING 172.16.2.1 (172.16.2.1) 56(84) bytes of data.
64 bytes from 172.16.2.1: icmp_seq=1 ttl=64 time=0.652 ms
64 bytes from 172.16.2.1: icmp_seq=2 ttl=64 time=0.281 ms
64 bytes from 172.16.2.1: icmp_seq=3 ttl=64 time=0.374 ms
64 bytes from 172.16.2.1: icmp_seq=4 ttl=64 time=0.187 ms
--- 172.16.2.1 ping statistics ---
4 packets transmitted, 4 received, 0% packet loss, time 3002ms
rtt min/avg/max/mdev = 0.187/0.373/0.652/0.174 ms
三、部署Kubernetes
1、在Master机器上安装
# yum -y install etcd kubernetes
2、配置Etcd
Etcd默认的监听端口是4001,在这里修改以下信息
a、配置etcd.conf
# cp /etc/etcd/etcd.conf /etc/etcd/etcd.conf_bak
# vim /etc/etcd/etcd.conf
#
ETCD_NAME="etcd-master"
ETCD_DATA_DIR="/var/lib/etcd/default.etcd"
ETCD_LISTEN_PEER_URLS="http://0.0.0.0:2380"
ETCD_LISTEN_CLIENT_URLS="http://0.0.0.0:2379,http://0.0.0.0:4001"
#
ETCD_INITIAL_ADVERTISE_PEER_URLS="http://k8s-master:2380"
ETCD_INITIAL_CLUSTER="etcd-master=http://k8s-master:2380"
ETCD_INITIAL_CLUSTER_STATE="new"
ETCD_INITIAL_CLUSTER_TOKEN="etcd-cluster"
ETCD_ADVERTISE_CLIENT_URLS="http://k8s-master:2379,http://k8s-master:4001"
b、配置etcd.service
# cp /usr/lib/systemd/system/etcd.service /usr/lib/systemd/system/etcd.service_bak
# vim /usr/lib/systemd/system/etcd.service
ExecStart=/bin/bash -c "GOMAXPROCS=$(nproc) /usr/bin/etcd --name=\"${ETCD_NAME}\" --data-dir=\"${ETCD_DATA_DIR}\" --listen-client-urls=\"${ETCD_LISTEN_CLIENT_URLS}\" --listen-peer-urls=\"${ETCD_LISTEN_PEER_URLS}\" --advertise-client-urls=\"${ETCD_ADVERTISE_CLIENT_URLS}\" --initial-advertise-peer-urls=\"${ETCD_INITIAL_ADVERTISE_PEER_URLS}\" --initial-cluster=\"${ETCD_INITIAL_CLUSTER}\" --initial-cluster-state=\"${ETCD_INITIAL_CLUSTER_STATE}\""
****** 注:只修改里的ExecStart
# mkdir -p /export/etcd
# chown -R etcd:etcd /export/etcd
c、启动etcd服务
# systemctl daemon-reload
# systemctl enable etcd.service
# systemctl start etcd.service
d、验证是否成功
# :q
ffe21a7812eb7c5f: name=etcd-master peerURLs=http://k8s-master:2380 clientURLs=http://k8s-master:2379,http://k8s-master:4001 isLeader=true
3、配置Kubernetes
a、apiserver配置
# cd /etc/kubernetes/
# cp apiserver apiserver_bak
# vim /etc/kubernetes/apiserver
###
# kubernetes system config
#
# The following values are used to configure the kube-apiserver
#
# The address on the local server to listen to.
#KUBE_API_ADDRESS="--insecure-bind-address=127.0.0.1"
KUBE_API_ADDRESS="--insecure-bind-address=0.0.0.0"
# The port on the local server to listen on.
# KUBE_API_PORT="--port=8080"
KUBE_API_PORT="--port=8080"
# Port minions listen on
# KUBELET_PORT="--kubelet-port=10250"
KUBELET_PORT="--kubelet-port=10250"
# Comma separated list of nodes in the etcd cluster
#KUBE_ETCD_SERVERS="--etcd-servers=http://127.0.0.1:2379"
KUBE_ETCD_SERVERS="--etcd-servers=http://k8s-master:2379"
# Address range to use for services
KUBE_SERVICE_ADDRESSES="--service-cluster-ip-range=10.254.0.0/16"
# default admission control policies
KUBE_ADMISSION_CONTROL="--admission-control=NamespaceLifecycle,NamespaceExists,LimitRanger,SecurityContextDeny,ServiceAccount,ResourceQuota"
# Add your own!
KUBE_API_ARGS=""
b、配置config
# cp config config_bak
# vim /etc/kubernetes/config
###
# kubernetes system config
#
# The following values are used to configure various aspects of all
# kubernetes services, including
#
# kube-apiserver.service
# kube-controller-manager.service
# kube-scheduler.service
# kubelet.service
# kube-proxy.service
# logging to stderr means we get it in the systemd journal
KUBE_LOGTOSTDERR="--logtostderr=true"
# journal message level, 0 is debug
KUBE_LOG_LEVEL="--v=0"
# Should this cluster be allowed to run privileged docker containers
KUBE_ALLOW_PRIV="--allow-privileged=false"
# How the controller-manager, scheduler, and proxy find the apiserver
KUBE_MASTER="--master=http://k8s-master:8080"
#******** add etcd server info ********#
# Etcd Server Configure
KUBE_ETCD_SERVERS="--etcd-servers=http://k8s-master:4001"
4、启动服务
#
for SERVICES in etcd kube-apiserver kube-controller-manager kube-scheduler; do
systemctl restart $SERVICES
systemctl enable $SERVICES
systemctl status $SERVICES
done
5、Node机器只需要Kubernetes
[所有的node节点]
****** 这里以node1为例:
# yum -y install kubernetes
****** 安装k8s会自动安装docker
6、配置Node节点的Kubernetes
# cd /etc/kubernetes
# cp kubelet kubelet_bak
# vim /etc/kubernetes/kubelet
###
# kubernetes kubelet (minion) config
# The address for the info server to serve on (set to 0.0.0.0 or "" for all interfaces)
#KUBELET_ADDRESS="--address=127.0.0.1"
KUBELET_ADDRESS="--address=0.0.0.0"
# The port for the info server to serve on
# KUBELET_PORT="--port=10250"
KUBELET_PORT="--port=10250"
# You may leave this blank to use the actual hostname
#KUBELET_HOSTNAME="--hostname-override=127.0.0.1"
KUBELET_HOSTNAME="--hostname-override=k8s-node"
# location of the api-server
#KUBELET_API_SERVER="--api-servers=http://127.0.0.1:8080"
KUBELET_API_SERVER="--api-servers=http://k8s-master:8080"
# pod infrastructure container
KUBELET_POD_INFRA_CONTAINER="--pod-infra-container-image=registry.access.redhat.com/rhel7/pod-infrastructure:latest"
# Add your own!
KUBELET_ARGS=""
7、启动Node节点Kubernetes服务
#
for SERVICES in kube-proxy kubelet docker; do
systemctl restart $SERVICES
systemctl enable $SERVICES
systemctl status $SERVICES
done
8、测试
a、查看node节点:
# kubectl get nodes
NAME STATUS AGE
k8s-node1 Ready 1h
k8s-node2 Ready 1h
b、创建 nginx Pod:
# mkdir /export/kube_containers
# cd /export/kube_containers
# vim nginx.yaml
apiVersion: v1
kind: Pod
metadata:
name: nginx
labels:
name: nginx
spec:
containers:
- resources:
limits:
cpu: 1
image: nginx
name: nginx
ports:
- containerPort: 80
name: nginx
c、创建 Mysql Pod资源文件
# vim mysql.yaml
apiVersion: v1
kind: Pod
metadata:
name: mysql
labels:
name: mysql
spec:
containers:
- resources:
limits :
cpu: 0.5
image: mysql
name: mysql
env:
- name: MYSQL_ROOT_PASSWORD
value: rootpwd
ports:
- containerPort: 3306
name: mysql
volumeMounts:
# name must match the volume name below
- name: mysql-persistent-storage
# mount path within the container
mountPath: /var/lib/mysql
volumes:
- name: mysql-persistent-storage
cinder:
volumeID: bd82f7e2-wece-4c01-a505-4acf60b07f4a
fsType: ext4
d、导入资源
# kubectl create -f mysql.yaml
e、查看资源状态
# kubectl get po -o wide
NAME READY STATUS RESTARTS AGE IP NODE
mysql 0/1 ContainerCreating 0 5m k8s-node2
nginx-controller-fnttl 0/1 ContainerCreating 0 5m k8s-node2
nginx-controller-kb4hj 0/1 ContainerCreating 0 5m k8s-node1
****** 这里的STATUS的状态是:ContainerCreating,因为在此时node节点在下载images,稍等片刻就可以,如果不放心可以使用nmon监控下流量。
****** 再次查看:
# kubectl get po -o wide
NAME READY STATUS RESTARTS AGE IP NODE
mysql 1/1 Running 0 19m 172.17.0.3 k8s-node2
nginx-controller-fnttl 1/1 Running 0 19m 172.17.0.2 k8s-node2
nginx-controller-kb4hj 1/1 Running 0 19m 172.17.0.2 k8s-node1
×××××× 这里已经部署在运行了,所以是Running。Status开始是Ready。
9、查看日志
以Master机器日志为例:
# tail -f /var/log/messages | grep kube
Dec 11 09:54:11 192 kube-scheduler: I1211 09:54:11.380994 20445 event.go:203] Event(api.ObjectReference{Kind:"Pod", Namespace:"default", Name:"mysql", UID:"2f192467-a030-11e5-8a55-000c298cfaa1", APIVersion:"v1", ResourceVersion:"3522", FieldPath:""}): reason: 'scheduled' Successfully assigned mysql to dslave
四、常见错误及解决方案
1、[错误1]
# kubectl create -f mysql.yaml
Error from server (ServerTimeout): error when creating "mysql.yaml": No API token found for service account "default", retry after the token is automatically created and added to the service account
[解决方案]
# vim /etc/kubernets/apiserver
#KUBE_ADMISSION_CONTROL="--admission-control=NamespaceLifecycle,NamespaceExists,LimitRanger,SecurityContextDeny,ServiceAccount,ResourceQuota"
修改为:
KUBE_ADMISSION_CONTROL="--admission-control=NamespaceLifecycle,NamespaceExists,LimitRanger,ResourceQuota"
[重启服务]
for SERVICES in etcd kube-apiserver kube-controller-manager kube-scheduler; do
systemctl restart $SERVICES
systemctl enable $SERVICES
systemctl status $SERVICES
done
2、[错误2]
在部署Pod时,在Node机器日志中报错
Dec 11 09:30:22 dslave kubelet: E1211 09:30:22.745867 99650 manager.go:1557] Failed to create pod infra container: image pull failed for gcr.io/google_containers/pause:0.8.0, this may be because there are no credentials on this request.details: (Network timed out while trying to connect to http://gcr.io/v1/repositories/google_containers/pause/images. You may want to check your internet connection or if you are behind a proxy.); Skipping pod "mysql_default"
Dec 11 09:30:22 dslave kubelet: E1211 09:30:22.955470 99650 pod_workers.go:111] Error syncing pod bcbb3b8a-a02a-11e5-8a55-000c298cfaa1, skipping: image pull failed for gcr.io/google_containers/pause:0.8.0, this may be because there are no credentials on this request.details: (Network timed out while trying to connect to http://gcr.io/v1/repositories/google_containers/pause/images. You may want to check your internet connection or if you are behind a proxy.)
[解决方案]
原因:Google被墙了,下载资源包到本地
http://www.sunmite.com/linux/installing-kubernetes-cluster-on-centos7-to-manage-pods-and-services/attachment/pause-0-8-0/
在Node节点导入
docker load --input pause-0.8.0.tar
至此,环境已经全部搭建完毕,如有问题请联系:DBA_Master@163.com
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