1)cpu和内存 master:至少1c2g,推荐2c4g;node:至少1c2g
2)linux系统 内核版本至少3.10,推荐CentOS7/RHEL7
3)docker 至少1.9版本,推荐1.12+ 4)etcd 至少2.0版本,推荐3.0+
kubernetes官方github地址 https://github.com/kubernetes/kubernetes/releases
部署节点------x1 : 运行这份 ansible 脚本的节点 etcd节点------x3 : 注意etcd集群必须是1,3,5,7...奇数个节点
master节点----x2 : 根据实际集群规模可以增加节点数,需要额外规划一个master VIP(虚地址)
lb节点--------x2 : 负载均衡节点两个,安装 haproxy+keepalived
node节点------x3 : 真正应用负载的节点,根据需要提升机器配置和增加节点数
机器规划:
Ip | 机名 | 角色 | 系统 |
---|---|---|---|
192.168.2.10 | master | deploy、master1、lb1、etcd | centos7.5 x86_64 |
192.168.2.11 | node1 | etcd、node | |
192.168.2.12 | node2 | etcd、node | |
192.168.2.13 | node3 | node | |
192.168.2.14 | master2 | master2、lb2 | |
192.168.2.16 | vip |
六台机器,全部执行:
yum install epel-release
yum update
yum install python
yum install -y python-pip git
pip install pip --upgrade -i http://mirrors.aliyun.com/pypi/simple/ --trusted-host mirrors.aliyun.com
pip install --no-cache-dir ansible -i http://mirrors.aliyun.com/pypi/simple/ --trusted-host mirrors.aliyun.com
奉上我使用多年的自动布置key的脚本
#!/bin/bash
keypath=/root/.ssh
[ -d ${keypath} ] || mkdir -p ${keypath}
rpm -q expect &> /dev/null || yum install expect -y
ssh-keygen -t rsa -f /root/.ssh/id_rsa -P ""
password=centos
for host in `seq 10 14`;do
expect <
执行脚本,deploy自动copy key到目标主机
[root@master ~]# sh sshkey.sh
git clone https://github.com/gjmzj/kubeasz.git
mkdir -p /etc/ansible
mv kubeasz/* /etc/ansible/
从百度云网盘下载二进制文件 https://pan.baidu.com/s/1c4RFaA#list/path=%2F
可以根据自己所需版本,下载对应的tar包,这里我下载1.12
经过一番折腾, 终把k8s.1-12-1.tar.gz的tar包放到了depoly上
tar zxvf k8s.1-12-1.tar.gz
mv bin/* /etc/ansible/bin/
Example:
[root@master ~]# rz
rz waiting to receive.
Starting zmodem transfer. Press Ctrl+C to cancel.
Transferring k8s.1-12-1.tar.gz...
100% 234969 KB 58742 KB/sec 00:00:04 0 Errors
[root@master ~]# ls
anaconda-ks.cfg ifcfg-ens192.bak k8s.1-12-1.tar.gz kubeasz
[root@master ~]# tar zxf k8s.1-12-1.tar.gz
[root@master ~]# ls
anaconda-ks.cfg bin ifcfg-ens192.bak k8s.1-12-1.tar.gz kubeasz
[root@master ~]# mv bin /etc/ansible/
mv:是否覆盖"/etc/ansible/bin/readme.md"? y
cd /etc/ansible/
cp example/hosts.m-masters.example hosts //内容根据实际情况修改
[deploy]
192.168.2.10 NTP_ENABLED=no
# 'etcd' cluster must have odd member(s) (1,3,5,...)
# variable 'NODE_NAME' is the distinct name of a member in 'etcd' cluster
[etcd]
192.168.2.10 NODE_NAME=etcd1
192.168.2.11 NODE_NAME=etcd2
192.168.2.12 NODE_NAME=etcd3
[kube-master]
192.168.2.10
# 'loadbalance' node, with 'haproxy+keepalived' installed
[lb]
192.168.2.10 LB_IF="eth0" LB_ROLE=backup # replace 'etho' with node's network interface
192.168.2.14 LB_IF="eth0" LB_ROLE=master
[kube-node]
192.168.2.11
192.168.2.12
192.168.2.13
[vip]
192.168.2.15
修改完hosts,测试
ansible all -m ping
[root@master ansible]# ansible all -m ping
192.168.2.11 | SUCCESS => {
"changed": false,
"ping": "pong"
}
192.168.2.14 | SUCCESS => {
"changed": false,
"ping": "pong"
}
192.168.2.12 | SUCCESS => {
"changed": false,
"ping": "pong"
}
192.168.2.10 | SUCCESS => {
"changed": false,
"ping": "pong"
}
192.168.2.13 | SUCCESS => {
"changed": false,
"ping": "pong"
}
192.168.2.15 | SUCCESS => {
"changed": false,
"ping": "pong"
}
ansible-playbook 01.prepare.yml
ansible-playbook 02.etcd.yml
检查etcd节点健康状况:
执行bash
for ip in 10 11 12 ; do ETCDCTL_API=3 etcdctl --endpoints=https://192.168.2.$ip:2379 --cacert=/etc/kubernetes/ssl/ca.pem --cert=/etc/etcd/ssl/etcd.pem --key=/etc/etcd/ssl/etcd-key.pem endpoint healt; done
执行后:
https://192.168.2.10:2379 is healthy: successfully committed proposal: took = 857.393µs
https://192.168.2.11:2379 is healthy: successfully committed proposal: took = 1.0619ms
https://192.168.2.12:2379 is healthy: successfully committed proposal: took = 1.19245ms
或者 添加/etc/ansible/bin环境变量:
[root@master ansible]# vim /etc/profile.d/k8s.sh
export PATH=$PATH:/etc/ansible/bin
[root@master ansible]# for ip in 10 11 12 ; do ETCDCTL_API=3 etcdctl --endpoints=https://192.168.2.$ip:2379 --cacert=/etc/kubernetes/ssl/ca.pem --cert=/etc/etcd/ssl/etcd.pem --key=/etc/etcd/ssl/etcd-key.pem endpoint healt; done
https://192.168.2.10:2379 is healthy: successfully committed proposal: took = 861.891µs
https://192.168.2.11:2379 is healthy: successfully committed proposal: took = 1.061687ms
https://192.168.2.12:2379 is healthy: successfully committed proposal: took = 909.274µs
ansible-playbook 03.docker.yml
ansible-playbook 04.kube-master.yml
kubectl get componentstatus//查看集群状态
NAME STATUS MESSAGE ERROR
controller-manager Healthy ok
scheduler Healthy ok
etcd-0 Healthy {"health":"true"}
etcd-1 Healthy {"health":"true"}
etcd-2 Healthy {"health":"true"}
ansible-playbook 05.kube-node.yml
查看node节点
kubectl get nodes
[root@master ansible]# kubectl get nodes
NAME STATUS ROLES AGE VERSION
192.168.2.10 Ready,SchedulingDisabled master 112s v1.12.1
192.168.2.11 Ready node 17s v1.12.1
192.168.2.12 Ready node 17s v1.12.1
192.168.2.13 Ready node 17s v1.12.1
192.168.2.14 Ready,SchedulingDisabled master 112s v1.12.1
ansible-playbook 06.network.yml
kubectl get pod -n kube-system //查看kube-systemnamespace上的pod,从中可以看到flannel相关的pod
[root@master ansible]# kubectl get pod -n kube-system
NAME READY STATUS RESTARTS AGE
kube-flannel-ds-5d574 1/1 Running 0 47s
kube-flannel-ds-6kpnm 1/1 Running 0 47s
kube-flannel-ds-f2nfs 1/1 Running 0 47s
kube-flannel-ds-gmbmv 1/1 Running 0 47s
kube-flannel-ds-w5st7 1/1 Running 0 47s
ansible-playbook 07.cluster-addon.yml
查看kube-system namespace下的服务
kubectl get svc -n kube-system
[root@master ~]# kubectl get svc -n kube-system
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
kube-dns ClusterIP 10.68.0.2 53/UDP,53/TCP 10h
kubernetes-dashboard NodePort 10.68.119.108 443:35065/TCP 10h
metrics-server ClusterIP 10.68.235.9 443/TCP 10h
到此为止,分步部署已经基本配置完毕了,下面就可以查找登录token登录dashboard了:
[root@master ~]# kubectl get secret -n kube-system|grep admin
admin-user-token-4zdgw kubernetes.io/service-account-token 3 9h
[root@master ~]# kubectl describe secret admin-user-token-4zdgw -n kube-system
Name: admin-user-token-4zdgw
Namespace: kube-system
Labels:
Annotations: kubernetes.io/service-account.name: admin-user
kubernetes.io/service-account.uid: 72378c78-ee7d-11e8-a2a7-000c2931fb97
Type: kubernetes.io/service-account-token
Data
====
ca.crt: 1346 bytes
namespace: 11 bytes
token: eyJhbGciOiJSUzI1NiIsImtpZCI6IiJ9.eyJpc3MiOiJrdWJlcm5ldGVzL3NlcnZpY2VhY2NvdW50Iiwia3ViZXJuZXRlcy5pby9zZXJ2aWNlYWNjb3VudC9uYW1lc3BhY2UiOiJrdWJlLXN5c3RlbSIsImt1YmVybmV0ZXMuaW8vc2VydmljZWFjY291bnQvc2VjcmV0Lm5hbWUiOiJhZG1pbi11c2VyLXRva2VuLTR6ZGd3Iiwia3ViZXJuZXRlcy5pby9zZXJ2aWNlYWNjb3VudC9zZXJ2aWNlLWFjY291bnQubmFtZSI6ImFkbWluLXVzZXIiLCJrdWJlcm5ldGVzLmlvL3NlcnZpY2VhY2NvdW50L3NlcnZpY2UtYWNjb3VudC51aWQiOiI3MjM3OGM3OC1lZTdkLTExZTgtYTJhNy0wMDBjMjkzMWZiOTciLCJzdWIiOiJzeXN0ZW06c2VydmljZWFjY291bnQ6a3ViZS1zeXN0ZW06YWRtaW4tdXNlciJ9.J0MjCSAP00RDvQgG1xBPvAYVo1oycXfoBh0dqdCzX1ByILyCHUqqxixuQdfE-pZqP15u6UV8OF3lGI_mHs5DBvNK0pCfaRICSo4SXSihJHKl_j9Bbozq9PjQ5d7CqHOFoXk04q0mWpJ5o0rJ6JX6Psx93Ch0uaXPPMLtzL0kolIF0j1tCFnsob8moczH06hfzo3sg8h0YCXyO6Z10VT7GMuLlwiG8XgWcplm-vcPoY_AWHnLV3RwAJH0u1q0IrMprvgTCuHighTaSjPeUe2VsXMhDpocJMoHQOoHirQKmiIAnanbIm4N1TO_5R1cqh-_gH7-MH8xefgWXoSrO-fo2w
登录了账号密码后,用上面token在界面上登录即可
也可以查询证.
[root@master ~]# kubectl get secret -n kube-system
NAME TYPE DATA AGE
admin-user-token-4zdgw kubernetes.io/service-account-token 3 10h
coredns-token-98zvm kubernetes.io/service-account-token 3 10h
default-token-zk5rj kubernetes.io/service-account-token 3 10h
flannel-token-4gmtz kubernetes.io/service-account-token 3 10h
kubernetes-dashboard-certs Opaque 0 10h
kubernetes-dashboard-key-holder Opaque 2 10h
kubernetes-dashboard-token-lcsd6 kubernetes.io/service-account-token 3 10h
metrics-server-token-j4s2c kubernetes.io/service-account-token 3 10h
[root@master ~]# kubectl get secret/admin-user-token-4zdgw -n kube-system -o yaml
apiVersion: v1
data:
ca.crt: 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
namespace: a3ViZS1zeXN0ZW0=
token: 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
kind: Secret
metadata:
annotations:
kubernetes.io/service-account.name: admin-user
kubernetes.io/service-account.uid: 72378c78-ee7d-11e8-a2a7-000c2931fb97
creationTimestamp: 2018-11-22T17:38:38Z
name: admin-user-token-4zdgw
namespace: kube-system
resourceVersion: "977"
selfLink: /api/v1/namespaces/kube-system/secrets/admin-user-token-4zdgw
uid: 7239bb01-ee7d-11e8-8c5c-000c29fd1c0f
type: kubernetes.io/service-account-token
ServiceAccount 是一种账号,但是不是为集群用户(管理员、运维人员等)使用的,而是给运行在集群中的 Pod 里面的进程使用的。
[root@master ~]# kubectl get serviceaccount --all-namespaces
NAMESPACE NAME SECRETS AGE
default default 1 10h
kube-public default 1 10h
kube-system admin-user 1 10h
kube-system coredns 1 10h
kube-system default 1 10h
kube-system flannel 1 10h
kube-system kubernetes-dashboard 1 10h
kube-system metrics-server 1 10h
[root@master ~]# kubectl describe serviceaccount/default -n kube-system
Name: default
Namespace: kube-system
Labels:
Annotations:
Image pull secrets:
Mountable secrets: default-token-zk5rj
Tokens: default-token-zk5rj
Events:
[root@master ~]# kubectl get secret/default-token-zk5rj -n kube-system
NAME TYPE DATA AGE
default-token-zk5rj kubernetes.io/service-account-token 3 10h
[root@master ~]# kubectl get secret/default-token-zk5rj -n kube-system -o yaml
apiVersion: v1
data:
ca.crt: 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
namespace: a3ViZS1zeXN0ZW0=
token: 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
kind: Secret
metadata:
annotations:
kubernetes.io/service-account.name: default
kubernetes.io/service-account.uid: a42a84bd-ee7c-11e8-8c5c-000c29fd1c0f
creationTimestamp: 2018-11-22T17:32:53Z
name: default-token-zk5rj
namespace: kube-system
resourceVersion: "175"
selfLink: /api/v1/namespaces/kube-system/secrets/default-token-zk5rj
uid: a42daa94-ee7c-11e8-8c5c-000c29fd1c0f
type: kubernetes.io/service-account-token
合并所有步骤的安装,和分步安装一样的效果:
ansible-playbook 90.setup.yml
查看集群信息:
kubectl cluster-info
[root@master ~]# kubectl cluster-info
Kubernetes master is running at https://192.168.2.16:8443
CoreDNS is running at https://192.168.2.16:8443/api/v1/namespaces/kube-system/services/kube-dns:dns/proxy
kubernetes-dashboard is running at https://192.168.2.16:8443/api/v1/namespaces/kube-system/services/https:kubernetes-dashboard:/proxy
查看node/pod使用资源情况:
kubectl top node
kubectl top pod --all-namespaces
a) 创建nginx service
kubectl run nginx --image=nginx --expose --port=80
b)创建alpine 测试pod
kubectl run b1 -it --rm --image=alpine /bin/sh //进入到alpine内部
nslookup nginx.default.svc.cluster.local //结果如下
Address 1: 10.68.167.102 nginx.default.svc.cluster.local
1)deploy节点免密码登录node
ssh-copy-id 新node ip
2)修改/etc/ansible/hosts
[new-node]
192.168.2.15
3)执行安装脚本
ansible-playbook /etc/ansible/20.addnode.yml
4)验证
kubectl get node
kubectl get pod -n kube-system -o wide
5)后续工作
修改/etc/ansible/hosts,将new-node里面的所有ip全部移动到kube-node组里去
增加master节点(略)
https://github.com/gjmzj/kubeasz/blob/master/docs/op/AddMaster.md 升级集群
1)备份etcd
ETCDCTL_API=3 etcdctl snapshot save backup.db
查看备份文件信息
ETCDCTL_API=3 etcdctl --write-out=table snapshot status backup.db
2
)到本项目的根目录kubeasz
cd /dir/to/kubeasz
拉取最新的代码
git pull origin master
3)下载升级目标版本的kubernetes二进制包(百度网盘https://pan.baidu.com/s/1c4RFaA#list/path=%2F)解压,并替换/etc/ansible/bin/下的二进制文件
4)docker升级(略),除非特别需要,否则不建议频繁升级docker
5)如果接受业务中断,执行:
ansible-playbook -t upgrade_k8s,restart_dockerd 22.upgrade.yml
6)不能接受短暂中断,需要这样做:
a)
ansible-playbook -t upgrade_k8s 22.upgrade.yml
b)到所有node上逐一:
kubectl cordon和kubectl drain //迁移业务pod
systemctl restart docker
kubectl uncordon //恢复pod
1)备份恢复原理:
备份,从运行的etcd集群中备份数据到磁盘文件恢复,把etcd的备份文件恢复到etcd集群中,然后据此重建整个集群
2)如果使用kubeasz项目创建的集群,除了备份etcd数据外,还需要备份CA证书文件,以及ansible的hosts文件
3)手动操作步骤:
mkdir -p ~/backup/k8s //创建备份目录
ETCDCTL_API=3 etcdctl snapshot save ~/backup/k8s/snapshot.db //备份etcd数据
cp /etc/kubernetes/ssl/ca* ~/backup/k8s/ //备份ca证书
deploy节点执行
ansible-playbook /etc/ansible/99.clean.yml //模拟集群崩
溃恢复步骤如下(在deploy节点):
a)恢复ca证书
mkdir -p /etc/kubernetes/ssl /backup/k8s
cp ~/backup/k8s/* /backup/k8s/
cp /backup/k8s/ca* /etc/kubernetes/ssl/
b)重建集群
只需执行前5步,其他的在etcd保存着。
cd /etc/ansibl
ansible-playbook 01.prepare.yml
ansible-playbook 02.etcd.yml
ansible-playbook 03.docker.yml
ansible-playbook 04.kube-master.yml
ansible-playbook 05.kube-node.yml
c)恢复etcd数据
停止服务
ansible etcd -m service -a 'name=etcd state=stopped'
清空文件
ansible etcd -m file -a 'name=/var/lib/etcd/member/ state=absent'
登录所有的etcd节点,参照本etcd节点/etc/systemd/system/etcd.service的服务文件,替换如下{{}}中变量后执行
cd /backup/k8s/
ETCDCTL_API=3 etcdctl snapshot restore snapshot.db \
-name etcd1 \
-initialcluster etcd1=https://192.168.2.10:2380,etcd2=https://192.168.2.11:2380,etcd3=https://192.168.2.12:2380 \
-initial-cluster-token etcd-cluster-0 \
--initial-advertise-peer-urls https://192.168.2.10:2380
执行上面的步骤后,会生成{{ NODE_NAME }}.etcd目录
cp -r etcd1.etcd/member /var/lib/etcd/
systemctl restart etcd
d)在deploy节点重建网络
ansible-playbook /etc/ansible/tools/change_k8s_network.yml
4)不想手动恢复,可以用ansible自动恢复
需要一键备份
ansible-playbook /etc/ansible/23.backup.yml
检查/etc/ansible/roles/cluster-backup/files目录下是否有文件
tree /etc/ansible/roles/cluster-backup/files/ //如下
├── ca #集群CA相关备份
| ├── ca-config.json
| ├── ca.csr
| ├── ca-csr.json
| ├── ca-key.pem
| └── ca.pem
├── hosts # ansible hosts备份
| ├── hosts #最近的备份
| └── hosts-201807231642
|── readme.md
└── snapshot # etcd数据备份
├── snapshot-201807231642.db
└── snapshot.db #最近的备份
模拟故障:
ansible-playbook /etc/ansible/99.clean.yml
修改文件/etc/ansible/roles/cluster-restore/defaults/main.yml,指定要恢复的etcd快照备份,如果不修改就是 新的一次
恢复操作:
ansible-playbook /etc/ansible/24.restore.yml
ansible-playbook /etc/ansible/tools/change_k8s_network.yml
对集群所有节点进行操作系统层面的安全加固
ansible-playbook roles/os-harden/os-harden.yml
,
详情请参考os-harden项目
考文档:
本文档参考 https://github.com/gjmzj/kubeasz 扩展:使用kubeadm部署集群 https://blog.frognew.com/2018/08/kubeadm-install-kubernetes-1.11.html
转载于:https://blog.51cto.com/m51cto/2344825