一、statefulset简介
从前面的学习我们知道使用Deployment创建的pod是无状态的,当挂载了Volume之后,如果该pod挂了,Replication Controller会再启动一个pod来保证可用性,但是由于pod是无状态的,pod挂了就会和之前的Volume的关系断开,新创建的Pod无法找到之前的Pod。但是对于用户而言,他们对底层的Pod挂了是没有感知的,但是当Pod挂了之后就无法再使用之前挂载的存储卷。
为了解决这一问题,就引入了StatefulSet用于保留Pod的状态信息。
StatefulSet是为了解决有状态服务的问题(对应Deployments和ReplicaSets是为无状态服务而设计),其应用场景包括:
- 1、稳定的持久化存储,即Pod重新调度后还是能访问到相同的持久化数据,基于PVC来实现
- 2、稳定的网络标志,即Pod重新调度后其PodName和HostName不变,基于Headless Service(即没有Cluster IP的Service)来实现
- 3、有序部署,有序扩展,即Pod是有顺序的,在部署或者扩展的时候要依据定义的顺序依次依次进行(即从0到N-1,在下一个Pod运行之前所有之前的Pod必须都是Running和Ready状态),基于init containers来实现
- 4、有序收缩,有序删除(即从N-1到0)
- 5、有序的滚动更新
从上面的应用场景可以发现,StatefulSet由以下几个部分组成:
- Headless Service(无头服务)用于为Pod资源标识符生成可解析的DNS记录。
- volumeClaimTemplates (存储卷申请模板)基于静态或动态PV供给方式为Pod资源提供专有的固定存储。
- StatefulSet,用于管控Pod资源。
二、为什么要有headless??
在deployment中,每一个pod是没有名称,是随机字符串,是无序的。而statefulset中是要求有序的,每一个pod的名称必须是固定的。当节点挂了,重建之后的标识符是不变的,每一个节点的节点名称是不能改变的。pod名称是作为pod识别的唯一标识符,必须保证其标识符的稳定并且唯一。
为了实现标识符的稳定,这时候就需要一个headless service 解析直达到pod,还需要给pod配置一个唯一的名称。
三、为什么要 有volumeClainTemplate??
大部分有状态副本集都会用到持久存储,比如分布式系统来说,由于数据是不一样的,每个节点都需要自己专用的存储节点。而在deployment中pod模板中创建的存储卷是一个共享的存储卷,多个pod使用同一个存储卷,而statefulset定义中的每一个pod都不能使用同一个存储卷,由此基于pod模板创建pod是不适应的,这就需要引入volumeClainTemplate,当在使用statefulset创建pod时,会自动生成一个PVC,从而请求绑定一个PV,从而有自己专用的存储卷。Pod名称、PVC和PV关系图如下:
四、statefulSet使用演示
在创建StatefulSet之前需要准备的东西,值得注意的是创建顺序非常关键,创建顺序如下:
1、 Volume;
2、 PersistentVolume;
3、 PersistentVolumeClaim;
4、 Service;
5、 StatefulSet;
Volume可以有很多种类型,比如nfs、glusterfs等,我们这里使用的ceph RBD来创建。
(1)查看statefulset的定义
[root@k8s-master ~]# kubectl explain statefulset
KIND: StatefulSet
VERSION: apps/v1
DESCRIPTION:
StatefulSet represents a set of pods with consistent identities. Identities
are defined as: - Network: A single stable DNS and hostname. - Storage: As
many VolumeClaims as requested. The StatefulSet guarantees that a given
network identity will always map to the same storage identity.
FIELDS:
apiVersion <string>
kind <string>
metadata <Object>
spec <Object>
status <Object>
[root@k8s-master ~]# kubectl explain statefulset.spec
KIND: StatefulSet
VERSION: apps/v1
RESOURCE: spec <Object>
DESCRIPTION:
Spec defines the desired identities of pods in this set.
A StatefulSetSpec is the specification of a StatefulSet.
FIELDS:
podManagementPolicy <string> Pod管理策略
replicas <integer> 副本数量
revisionHistoryLimit <integer> 历史版本限制
selector <Object> -required- 选择器,必选项
serviceName <string> -required- 服务名称,必选项
template <Object> -required- 模板,必选项
updateStrategy <Object> 更新策略
volumeClaimTemplates <[]Object> 存储卷申请模板,列表对象形式
(2)清单定义StatefulSet
如上所述,一个完整的StatefulSet控制器由一个Headless Service、一个StatefulSet和一个volumeClaimTemplate组成。如下资源清单中的定义:
[root@k8s-master mainfests]# vim stateful-demo.yaml
apiVersion: v1
kind: Service
metadata:
name: myapp-svc
labels:
app: myapp-svc
spec:
ports:
- port: 80
name: web
clusterIP: None
selector:
app: myapp-pod
---
apiVersion: apps/v1
kind: StatefulSet
metadata:
name: myapp
spec:
serviceName: myapp-svc
replicas: 3
selector:
matchLabels:
app: myapp-pod
template:
metadata:
labels:
app: myapp-pod
spec:
containers:
- name: myapp
image: ikubernetes/myapp:v1
ports:
- containerPort: 80
name: web
volumeMounts:
- name: myappdata
mountPath: /usr/share/nginx/html
volumeClaimTemplates:
- metadata:
name: myappdata
spec:
accessModes: ["ReadWriteOnce"]
resources:
requests:
storage: 2Gi
解析上例:由于StatefulSet资源依赖于一个实现存在的Headless类型的Service资源,所以需要先定义一个名为myapp-svc的Headless Service资源,用于为关联到每个Pod资源创建DNS资源记录。接着定义了一个名为myapp的StatefulSet资源,它通过Pod模板创建了3个Pod资源副本,并基于volumeClaimTemplates向前面创建的PV进行了请求大小为2Gi的专用存储卷。
(3)删除前期的操作
[root@k8s-master mainfests]# kubectl get pv
NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE
pv001 1Gi RWO,RWX Retain Available 23h
pv002 2Gi RWO Retain Available 23h
pv003 2Gi RWO,RWX Retain Bound default/mypvc 23h
pv004 4Gi RWO,RWX Retain Available 23h
pv005 5Gi RWO,RWX Retain Available 23h
[root@k8s-master mainfests]# kubectl delete pods pod-vol-pvc
pod "pod-vol-pvc" deleted
[root@k8s-master mainfests]# kubectl delete pods/pod-cm-3 pods/pod-secret-env pods/pod-vol-hostpath
pod "pod-cm-3" deleted
pod "pod-secret-env" deleted
pod "pod-vol-hostpath" deleted
[root@k8s-master mainfests]# kubectl delete deploy/myapp-backend-pod deploy/tomcat-deploy
deployment.extensions "myapp-backend-pod" deleted
deployment.extensions "tomcat-deploy" deleted
[root@k8s-master mainfests]# kubectl delete pods pod-vol-pvc
pod "pod-vol-pvc" deleted
[root@k8s-master mainfests]# kubectl delete pods/pod-cm-3 pods/pod-secret-env pods/pod-vol-hostpath
pod "pod-cm-3" deleted
pod "pod-secret-env" deleted
pod "pod-vol-hostpath" deleted
[root@k8s-master mainfests]# kubectl delete deploy/myapp-backend-pod deploy/tomcat-deploy
deployment.extensions "myapp-backend-pod" deleted
deployment.extensions "tomcat-deploy" deleted
persistentvolumeclaim "mypvc" deleted
[root@k8s-master mainfests]# kubectl delete pv --all
persistentvolume "pv001" deleted
persistentvolume "pv002" deleted
persistentvolume "pv003" deleted
persistentvolume "pv004" deleted
persistentvolume "pv005" deleted
(4)修改pv的大小为2Gi
[root@k8s-master ~]# cd mainfests/volumes
[root@k8s-master volumes]# vim pv-demo.yaml
[root@k8s-master volumes]# kubectl apply -f pv-demo.yaml
persistentvolume/pv001 created
persistentvolume/pv002 created
persistentvolume/pv003 created
persistentvolume/pv004 created
persistentvolume/pv005 created
[root@k8s-master volumes]# kubectl get pv
NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE
pv001 1Gi RWO,RWX Retain Available 5s
pv002 2Gi RWO Retain Available 5s
pv003 2Gi RWO,RWX Retain Available 5s
pv004 2Gi RWO,RWX Retain Available 5s
pv005 2Gi RWO,RWX Retain Available 5s
(5)创建statefulset
[root@k8s-master mainfests]# kubectl apply -f stateful-demo.yaml
service/myapp-svc created
statefulset.apps/myapp created
[root@k8s-master mainfests]# kubectl get svc 查看创建的无头服务myapp-svc
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
kubernetes ClusterIP 10.96.0.1 <none> 443/TCP 50d
myapp-svc ClusterIP None <none> 80/TCP 38s
[root@k8s-master mainfests]# kubectl get sts 查看statefulset
NAME DESIRED CURRENT AGE
myapp 3 3 55s
[root@k8s-master mainfests]# kubectl get pvc 查看pvc绑定
NAME STATUS VOLUME CAPACITY ACCESS MODES STORAGECLASS AGE
myappdata-myapp-0 Bound pv002 2Gi RWO 1m
myappdata-myapp-1 Bound pv003 2Gi RWO,RWX 1m
myappdata-myapp-2 Bound pv004 2Gi RWO,RWX 1m
[root@k8s-master mainfests]# kubectl get pv 查看pv绑定
NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE
pv001 1Gi RWO,RWX Retain Available 6m
pv002 2Gi RWO Retain Bound default/myappdata-myapp-0 6m
pv003 2Gi RWO,RWX Retain Bound default/myappdata-myapp-1 6m
pv004 2Gi RWO,RWX Retain Bound default/myappdata-myapp-2 6m
pv005 2Gi RWO,RWX Retain Available 6m
[root@k8s-master mainfests]# kubectl get pods 查看Pod信息
NAME READY STATUS RESTARTS AGE
myapp-0 1/1 Running 0 2m
myapp-1 1/1 Running 0 2m
myapp-2 1/1 Running 0 2m
pod-vol-demo 2/2 Running 0 1d
redis-5b5d6fbbbd-q8ppz 1/1 Running 1 2d
当删除的时候是从myapp-2开始进行删除的,关闭是逆向关闭
[root@k8s-master mainfests]# kubectl delete -f stateful-demo.yaml
service "myapp-svc" deleted
statefulset.apps "myapp" deleted
[root@k8s-master ~]# kubectl get pods -w
NAME READY STATUS RESTARTS AGE
filebeat-ds-hxgdx 1/1 Running 1 33d
filebeat-ds-s466l 1/1 Running 2 33d
myapp-0 1/1 Running 0 3m
myapp-1 1/1 Running 0 3m
myapp-2 1/1 Running 0 3m
pod-vol-demo 2/2 Running 0 1d
redis-5b5d6fbbbd-q8ppz 1/1 Running 1 2d
myapp-0 1/1 Terminating 0 3m
myapp-2 1/1 Terminating 0 3m
myapp-1 1/1 Terminating 0 3m
myapp-1 0/1 Terminating 0 3m
myapp-0 0/1 Terminating 0 3m
myapp-2 0/1 Terminating 0 3m
myapp-1 0/1 Terminating 0 3m
myapp-1 0/1 Terminating 0 3m
myapp-0 0/1 Terminating 0 4m
myapp-0 0/1 Terminating 0 4m
myapp-2 0/1 Terminating 0 3m
myapp-2 0/1 Terminating 0 3m
此时PVC依旧存在的,再重新创建pod时,依旧会重新去绑定原来的pvc
[root@k8s-master mainfests]# kubectl apply -f stateful-demo.yaml
service/myapp-svc created
statefulset.apps/myapp created
[root@k8s-master mainfests]# kubectl get pvc
NAME STATUS VOLUME CAPACITY ACCESS MODES STORAGECLASS AGE
myappdata-myapp-0 Bound pv002 2Gi RWO 5m
myappdata-myapp-1 Bound pv003 2Gi RWO,RWX 5m
myappdata-myapp-2 Bound pv004 2Gi RWO,RWX 5m
[root@k8s-master mainfests]# kubectl delete -f stateful-demo.yaml
service "myapp-svc" deleted
statefulset.apps "myapp" deleted
[root@k8s-master ~]# kubectl get pods -w
NAME READY STATUS RESTARTS AGE
filebeat-ds-hxgdx 1/1 Running 1 33d
filebeat-ds-s466l 1/1 Running 2 33d
myapp-0 1/1 Running 0 3m
myapp-1 1/1 Running 0 3m
myapp-2 1/1 Running 0 3m
pod-vol-demo 2/2 Running 0 1d
redis-5b5d6fbbbd-q8ppz 1/1 Running 1 2d
myapp-0 1/1 Terminating 0 3m
myapp-2 1/1 Terminating 0 3m
myapp-1 1/1 Terminating 0 3m
myapp-1 0/1 Terminating 0 3m
myapp-0 0/1 Terminating 0 3m
myapp-2 0/1 Terminating 0 3m
myapp-1 0/1 Terminating 0 3m
myapp-1 0/1 Terminating 0 3m
myapp-0 0/1 Terminating 0 4m
myapp-0 0/1 Terminating 0 4m
myapp-2 0/1 Terminating 0 3m
myapp-2 0/1 Terminating 0 3m
此时PVC依旧存在的,再重新创建pod时,依旧会重新去绑定原来的pvc
[root@k8s-master mainfests]# kubectl apply -f stateful-demo.yaml
service/myapp-svc created
statefulset.apps/myapp created
[root@k8s-master mainfests]# kubectl get pvc
NAME STATUS VOLUME CAPACITY ACCESS MODES STORAGECLASS AGE
myappdata-myapp-0 Bound pv002 2Gi RWO 5m
myappdata-myapp-1 Bound pv003 2Gi RWO,RWX 5m
myappdata-myapp-2 Bound pv004 2Gi RWO,RWX 5m
[root@k8s-master mainfests]# kubectl delete -f stateful-demo.yaml
service "myapp-svc" deleted
statefulset.apps "myapp" deleted
[root@k8s-master ~]# kubectl get pods -w
NAME READY STATUS RESTARTS AGE
filebeat-ds-hxgdx 1/1 Running 1 33d
filebeat-ds-s466l 1/1 Running 2 33d
myapp-0 1/1 Running 0 3m
myapp-1 1/1 Running 0 3m
myapp-2 1/1 Running 0 3m
pod-vol-demo 2/2 Running 0 1d
redis-5b5d6fbbbd-q8ppz 1/1 Running 1 2d
myapp-0 1/1 Terminating 0 3m
myapp-2 1/1 Terminating 0 3m
myapp-1 1/1 Terminating 0 3m
myapp-1 0/1 Terminating 0 3m
myapp-0 0/1 Terminating 0 3m
myapp-2 0/1 Terminating 0 3m
myapp-1 0/1 Terminating 0 3m
myapp-1 0/1 Terminating 0 3m
myapp-0 0/1 Terminating 0 4m
myapp-0 0/1 Terminating 0 4m
myapp-2 0/1 Terminating 0 3m
myapp-2 0/1 Terminating 0 3m
此时PVC依旧存在的,再重新创建pod时,依旧会重新去绑定原来的pvc
[root@k8s-master mainfests]# kubectl apply -f stateful-demo.yaml
service/myapp-svc created
statefulset.apps/myapp created
[root@k8s-master mainfests]# kubectl get pvc
NAME STATUS VOLUME CAPACITY ACCESS MODES STORAGECLASS AGE
myappdata-myapp-0 Bound pv002 2Gi RWO 5m
myappdata-myapp-1 Bound pv003 2Gi RWO,RWX 5m
myappdata-myapp-2 Bound pv004 2Gi RWO,RWX 5m
五、滚动更新、扩展伸缩、版本升级、修改更新策略
1、滚动更新
RollingUpdate 更新策略在 StatefulSet 中实现 Pod 的自动滚动更新。 当StatefulSet的 .spec.updateStrategy.type 设置为 RollingUpdate 时,默认为:RollingUpdate。StatefulSet 控制器将在 StatefulSet 中删除并重新创建每个 Pod。 它将以与 Pod 终止相同的顺序进行(从最大的序数到最小的序数),每次更新一个 Pod。 在更新其前身之前,它将等待正在更新的 Pod 状态变成正在运行并就绪。如下操作的滚动更新是有2-0的顺序更新。
[root@k8s-master mainfests]# vim stateful-demo.yaml 修改image版本为v2
.....
image: ikubernetes/myapp:v2
....
[root@k8s-master mainfests]# kubectl apply -f stateful-demo.yaml
service/myapp-svc unchanged
statefulset.apps/myapp configured
[root@k8s-master ~]# kubectl get pods -w 查看滚动更新的过程
NAME READY STATUS RESTARTS AGE
myapp-0 1/1 Running 0 36m
myapp-1 1/1 Running 0 36m
myapp-2 1/1 Running 0 36m
myapp-2 1/1 Terminating 0 36m
myapp-2 0/1 Terminating 0 36m
myapp-2 0/1 Terminating 0 36m
myapp-2 0/1 Terminating 0 36m
myapp-2 0/1 Pending 0 0s
myapp-2 0/1 Pending 0 0s
myapp-2 0/1 ContainerCreating 0 0s
myapp-2 1/1 Running 0 2s
myapp-1 1/1 Terminating 0 36m
myapp-1 0/1 Terminating 0 36m
myapp-1 0/1 Terminating 0 36m
myapp-1 0/1 Terminating 0 36m
myapp-1 0/1 Pending 0 0s
myapp-1 0/1 Pending 0 0s
myapp-1 0/1 ContainerCreating 0 0s
myapp-1 1/1 Running 0 1s
myapp-0 1/1 Terminating 0 37m
myapp-0 0/1 Terminating 0 37m
myapp-0 0/1 Terminating 0 37m
myapp-0 0/1 Terminating 0 37m
在创建的每一个Pod中,每一个pod自己的名称都是可以被解析的,如下:
[root@k8s-master ~]# kubectl get pods -o wide
NAME READY STATUS RESTARTS AGE IP NODE
myapp-0 1/1 Running 0 8m 10.244.1.62 k8s-node01
myapp-1 1/1 Running 0 8m 10.244.2.49 k8s-node02
myapp-2 1/1 Running 0 8m 10.244.1.61 k8s-node01
[root@k8s-master mainfests]# kubectl exec -it myapp-0 -- /bin/sh
/ nslookup myapp-0.myapp-svc.default.svc.cluster.local
nslookup: can't resolve '(null)': Name does not resolve
Name: myapp-0.myapp-svc.default.svc.cluster.local
Address 1: 10.244.1.62 myapp-0.myapp-svc.default.svc.cluster.local
/ nslookup myapp-1.myapp-svc.default.svc.cluster.local
nslookup: can't resolve '(null)': Name does not resolve
Name: myapp-1.myapp-svc.default.svc.cluster.local
Address 1: 10.244.2.49 myapp-1.myapp-svc.default.svc.cluster.local
/ nslookup myapp-2.myapp-svc.default.svc.cluster.local
nslookup: can't resolve '(null)': Name does not resolve
Name: myapp-2.myapp-svc.default.svc.cluster.local
Address 1: 10.244.1.61 myapp-2.myapp-svc.default.svc.cluster.local
从上面的解析,我们可以看到在容器当中可以通过对Pod的名称进行解析到ip。其解析的域名格式如下:
pod_name.service_name.ns_name.svc.cluster.local
eg: myapp-0.myapp.default.svc.cluster.local
2、扩展伸缩
[root@k8s-master mainfests]# kubectl scale sts myapp --replicas=4 扩容副本增加到4个
statefulset.apps/myapp scaled
[root@k8s-master ~]# kubectl get pods -w 动态查看扩容
NAME READY STATUS RESTARTS AGE
myapp-0 1/1 Running 0 23m
myapp-1 1/1 Running 0 23m
myapp-2 1/1 Running 0 23m
myapp-3 0/1 Pending 0 0s
myapp-3 0/1 Pending 0 0s
myapp-3 0/1 ContainerCreating 0 0s
myapp-3 1/1 Running 0 1s
[root@k8s-master mainfests]# kubectl get pv 查看pv绑定
NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE
pv001 1Gi RWO,RWX Retain Available 1h
pv002 2Gi RWO Retain Bound default/myappdata-myapp-0 1h
pv003 2Gi RWO,RWX Retain Bound default/myappdata-myapp-1 1h
pv004 2Gi RWO,RWX Retain Bound default/myappdata-myapp-2 1h
pv005 2Gi RWO,RWX Retain Bound default/myappdata-myapp-3 1h
[root@k8s-master mainfests]# kubectl patch sts myapp -p '{"spec":{"replicas":2}}' 打补丁方式缩容
statefulset.apps/myapp patched
[root@k8s-master ~]# kubectl get pods -w 动态查看缩容
NAME READY STATUS RESTARTS AGE
myapp-0 1/1 Running 0 25m
myapp-1 1/1 Running 0 25m
myapp-2 1/1 Running 0 25m
myapp-3 1/1 Running 0 1m
myapp-3 1/1 Terminating 0 2m
myapp-3 0/1 Terminating 0 2m
myapp-3 0/1 Terminating 0 2m
myapp-3 0/1 Terminating 0 2m
myapp-2 1/1 Terminating 0 26m
myapp-2 0/1 Terminating 0 26m
myapp-2 0/1 Terminating 0 27m
myapp-2 0/1 Terminating 0 27m
3、更新策略和版本升级
修改更新策略,以partition方式进行更新,更新值为2,只有myapp编号大于等于2的才会进行更新。类似于金丝雀部署方式。
[root@k8s-master mainfests]# kubectl patch sts myapp -p '{"spec":{"updateStrategy":{"rollingUpdate":{"partition":2}}}}'
statefulset.apps/myapp patched
[root@k8s-master ~]# kubectl get sts myapp
NAME DESIRED CURRENT AGE
myapp 4 4 1h
[root@k8s-master ~]# kubectl describe sts myapp
Name: myapp
Namespace: default
CreationTimestamp: Wed, 10 Oct 2018 21:58:24 -0400
Selector: app=myapp-pod
Labels: <none>
Annotations: kubectl.kubernetes.io/last-applied-configuration={"apiVersion":"apps/v1","kind":"StatefulSet","metadata":{"annotations":{},"name":"myapp","namespace":"default"},"spec":{"replicas":3,"selector":{"match...
Replicas: 4 desired | 4 total
Update Strategy: RollingUpdate
Partition: 2
......
版本升级,将image的版本升级为v3,升级后对比myapp-2和myapp-1的image版本是不同的。这样就实现了金丝雀发布的效果。
[root@k8s-master mainfests]# kubectl set image sts/myapp myapp=ikubernetes/myapp:v3
statefulset.apps/myapp image updated
[root@k8s-master ~]# kubectl get sts -o wide
NAME DESIRED CURRENT AGE CONTAINERS IMAGES
myapp 4 4 1h myapp ikubernetes/myapp:v3
[root@k8s-master ~]# kubectl get pods myapp-2 -o yaml |grep image
- image: ikubernetes/myapp:v3
imagePullPolicy: IfNotPresent
image: ikubernetes/myapp:v3
imageID: docker-pullable://ikubernetes/myapp@sha256:b8d74db2515d3c1391c78c5768272b9344428035ef6d72158fd9f6c4239b2c69
[root@k8s-master ~]# kubectl get pods myapp-1 -o yaml |grep image
- image: ikubernetes/myapp:v2
imagePullPolicy: IfNotPresent
image: ikubernetes/myapp:v2
imageID: docker-pullable://ikubernetes/myapp@sha256:85a2b81a62f09a414ea33b74fb8aa686ed9b168294b26b4c819df0be0712d358
将剩余的Pod也更新版本,只需要将更新策略的partition值改为0即可,如下:
[root@k8s-master mainfests]# kubectl patch sts myapp -p '{"spec":{"updateStrategy":{"rollingUpdate":{"partition":0}}}}'
statefulset.apps/myapp patched
[root@k8s-master ~]# kubectl get pods -w
NAME READY STATUS RESTARTS AGE
myapp-0 1/1 Running 0 58m
myapp-1 1/1 Running 0 58m
myapp-2 1/1 Running 0 13m
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