k8s之pod调度
Pod调度
在默认情况下,一个pod在哪个node节点上运行,是由scheduler组件采用相应的算法计算出来的,这个过程是不受人工控制的。
但是在实际过程中,这并不满足需求,因为很多情况下,我们想控制某些pod到达某些节点上,那么应该怎么做呢?
这就要求了解k8s对pod的调度规则,k8s提供了四大类调度方式:
- 自动调度:运行在哪个节点上完全由scheduler经过一系列的算法得出
- 定向调度:nodename、nodeselector
- 亲和性调度:nodeaffinity、podaffinity、podantiaffinity
- 污点(容忍)调度:Taints、toleration
定向调度
定向调度,指的是利用在pod上声明nodename或者nodeselector,以此将pod调度到期望的node节点上。注意,这里的调度是强制的,
这就意味着即使要调度目标node不存在,也会向上面进行调度,只不过pod运行失败而已。
nodename
nodename用于强制约束将pod调度到指定的name的pod节点上。这种方式,其实是直接跳过scheduler的调度逻辑,直接写入podlist表
接下来,实验一下:创建一个pod-nodename.yaml文件
apiVersion: v1kind: Pod
metadata:
name: pod
-nodenamenamespace: devspec:
containers:
- name: nginximage: nginx:
1.17.1nodeName: node1 #指定调度到node1节点上
使用配置文件
[root@master ~]# kubectl create -f pod-nodename.yamlpod
/pod-nodename created[root@master
~]# kubectl get pod pod-nodename -n dev -o wideNAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
pod
-nodename 1/1 Running 0 49s 10.244.2.35 node1 <none> <none>
可以发现pod运行在node1
接下来删除pod,更改配置文件为node3
apiVersion: v1kind: Pod
metadata:
name: pod
-nodenamenamespace: devspec:
containers:
- name: nginximage: nginx:
1.17.1nodeName: node3 #指定调度到node1节点上
使用配置文件
[root@master ~]# kubectl delete -f pod-nodename.yamlpod
"pod-nodename" deleted[root@master
~]# vim pod-nodename.yaml[root@master
~]# kubectl create -f pod-nodename.yamlpod
/pod-nodename created[root@master
~]# kubectl get pod pod-nodename -n dev -o wideNAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
pod
-nodename 0/1 Pending 0 21s <none> node3 <none> <none>
可以看见虽然被指定在了node3,但是由于node3不存在,pod无法启动
nodeselector
nodeselector用于将pod调度到添加了指定标签的node节点上,它是通过k8s的label-selector机制实现的,也即是说,在pod创建之前,会由
scheduler使用matchnodeselector调度策略进行label匹配,找出目标node,然后将pod调度到目标节点,该匹配规则是强制约束
接下来,实验一下:
1.首先分别为node节点添加标签
[root@master ~]# kubectl label nodes node1 nodeenv=pronode
/node1 labeled[root@master
~]# kubectl label nodes node2 nodeenv=testnode
/node2 labeled
创建一个pod-nodeselector.yaml文件,并使用它创建pod
apiVersion: v1kind: Pod
metadata:
name: pod
-nodeselectornamespace: devspec:
containers:
- name: nginximage: nginx:
1.17.1nodeSelector:
nodeenv: pro #指定调度到具有nodeenv
=pro标签的节点上
使用配置文件(这里省略过程)
[root@master ~]# kubectl get pod pod-nodeselector -n dev -o wideNAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
pod
-nodeselector 1/1 Running 0 22m 10.244.2.36 node1 <none> <none>
可以看见pod已经被调度到了node1
亲和性调度
上面两种定向调度的方式使用起来非常方便,但是也有一定的问题,那就是如果没有满足条件的node,那么pod将不会被运行,即使在集群中还有可用的node列表也不行,这就限制了它的使用场景。
基于上面的问题,k8s还提供了一种亲和性调度,它在nodeselector的基础之上进行了扩展,可以通过配置的方式,实现优先选择满足条件的node进行调度,如果没有,也可以调度到不满足条件的节点上,使调度更加灵活。
affinity主要分为三类:
- nodeaffinity(node亲和性):以node为目标,解决node可以调度到哪些node的问题
- podaffinity(pod亲和性):以pod为目标,解决pod可以和哪些已存在的pod部署到同一个拓扑域中的问题
- podantiaffinity(pod反亲和性):以pod为目标,解决pod不能和哪些已存在的pod部署到同一个拓扑域中的问题
关于亲和性(反亲和性)使用场景的说明:
- 亲和性:如果两个应用频繁交互,那就有必要利用亲和性让两个应用尽可能地靠近,这样可以减少网络通信而带来的性能损耗。
- 反亲和性:当应用采用副本部署时,有必要采用反亲和性让各个应用实例打散分布在各个node上,这样可以提高服务的高可用性。
nodeaffinity
关系符的使用说明:
- matchExpressions:- key: nodeenv #匹配存在标签的key为nodeenv的节点operator: Exists- key: nodeenv #匹配存在标签的key为nodeenv,且value是"xxx"或"yyy"的节点operator: Invalues: [
"xxx","yyy"]- key: nodeenv #匹配存在标签的key为nodeenv,且value大于"xxx"的节点operator: Gtvalues:
"xxx"
接下来首先演示一下requireDuringSchedullingIgnoreDuringExecution
创建pod-nodeaffinity-required.yaml
apiVersion: v1kind: Pod
metadata:
name: pod
-nodeaffinity-requirednamespace: devspec:
containers:
- name: nginximage: nginx:
1.17.1affinity: #亲和性设置
nodeAffinity: #设置node亲和性
requiredDuringSchedulingIgnoredDuringExecution: #硬限制
nodeSelectorTerms:
- matchExpressions:- key: nodeenvoperator: Invalues: [
"xxx","yyy"]
创建并使用配置文件
[root@master ~]# vim pod-nodeaffinity-required.yaml[root@master
~]# kubectl create -f pod-nodeaffinity-required.yamlpod
/pod-nodeaffinity-required created[root@master
~]# kubectl get pod pod-nodeaffinity-required -n devNAME READY STATUS RESTARTS AGE
pod
-nodeaffinity-required 0/1 Pending 0 14s
发现启动失败,查看详细描述
[root@master ~]# kubectl describe pod pod-nodeaffinity-required -n devEvents:
Type Reason Age From Message
---- ------ ---- ---- -------Warning FailedScheduling
<unknown> default-scheduler 0/3 nodes are available: 3 node(s) didn"t match node selector.Warning FailedScheduling <unknown> default-scheduler 0/3 nodes are available: 3 node(s) didn"t match node selector.
删除pod,重新编辑配置文件的values
apiVersion: v1kind: Pod
metadata:
name: pod
-nodeaffinity-requirednamespace: devspec:
containers:
- name: nginximage: nginx:
1.17.1affinity: #亲和性设置
nodeAffinity: #设置node亲和性
requiredDuringSchedulingIgnoredDuringExecution: #硬限制
nodeSelectorTerms:
- matchExpressions:- key: nodeenvoperator: Invalues: [
"pro","yyy"]
[root@master ~]# kubectl delete -f pod-nodeaffinity-required.yamlpod
"pod-nodeaffinity-required" deleted[root@master
~]# vim pod-nodeaffinity-required.yaml[root@master
~]# kubectl create -f pod-nodeaffinity-required.yamlpod
/pod-nodeaffinity-required created[root@master
~]# kubectl get pod pod-nodeaffinity-required -n devNAME READY STATUS RESTARTS AGE
pod
-nodeaffinity-required 1/1 Running 0 35s
发现创建成功
接下来再演示一下preferredDuringSchedulingIgnoredDuringExecution,
创建pod-nodeaffinity-preferred.yaml
apiVersion: v1kind: Pod
metadata:
name: pod
-nodeaffinity-preferrednamespace: devspec:
containers:
- name: nginximage: nginx:
1.17.1affinity: #亲和性设置
nodeAffinity: #设置node亲和性
preferredDuringSchedulingIgnoredDuringExecution: #软限制
- weight: 1preference:
matchExpressions:
- key: nodeenvoperator: Invalues: [
"xxx","yyy"]
创建并使用配置文件
[root@master ~]# vim pod-nodeaffinity-preferred.yaml[root@master
~]# kubectl create -f pod-nodeaffinity-preferred.yamlpod
/pod-nodeaffinity-preferred created[root@master
~]# kubectl get pod pod-nodeaffinity-preferred -n dev -o wideNAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
pod
-nodeaffinity-preferred 1/1 Running 0 23s 10.244.2.38 node1 <none> <none>
发现pod被调度到了node1
nodeaffinity规则设置的注意事项:
- 如果同时定义了nodeselector和nodeaffinity,那么必须两个条件都得到满足,pod才能运行在指定的node上
- 如果nodeaffinity指定了多个nodeSelectorTerms,那么只需要其中一个能匹配成功即可
- 如果一个nodeSelectorTerms中有多个matchExpressions,则一个节点必须满足所有的才能匹配成功
- 如果一个pod所在的node再pod运行期间其标签发生了改变,不再符合该pod节点亲和性需求,则系统将忽略此变化
podaffinity
podaffinity主要实现以运行的pod为参照,实现让新创建的pod跟参照pod在一个区域的功能
topologyKey用于指定调度时作用域,例如:
- 如果指定为kubernetes.io/hostname,那就是以Node节点为区分范围
- 如果指定为beta.kubernetes.io/os,则以Node节点的操作系统类型来区分
接下来,演示下requireDuringSchedullingIgnoreDuringExecution
创建一个参照pod,pod-podaffinity-target.yaml
apiVersion: v1kind: Pod
metadata:
name: pod
-podaffinity-targetnamespace: devlabels:
podenv: pro #设置标签
spec:
containers:
- name: nginximage: nginx:
1.17.1nodeName: node1 #将目标pod明确指定到node1上
[root@master ~]# vim pod-podaffinity-target.yaml[root@master
~]# kubectl create -f pod-podaffinity-target.yamlpod
/pod-podaffinity-target created[root@master
~]# kubectl get pod pod-podaffinity-target -n dev -o wide --show-labelsNAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES LABELS
pod
-podaffinity-target 1/1 Running 0 2m47s 10.244.2.39 node1 <none> <none> podenv=pro
创建pod-podaffinity-required.yaml
apiVersion: v1kind: Pod
metadata:
name: pod
-podaffinity-requirednamespace: devspec:
containers:
- name: nginximage: nginx:
1.17.1affinity: #亲和性设置
podAffinity: #设置pod亲和性
requiredDuringSchedulingIgnoredDuringExecution: #硬限制
- labelSelector:matchExpressions: #匹配env的值在[
"xxx","yyy"]中的标签- key: podenvoperator: Invalues: [
"xxx","yyy"]topologyKey: kubernetes.io
/hostname
[root@master ~]# vim pod-podaffinity-required.yaml[root@master
~]# kubectl create -f pod-podaffinity-required.yamlpod
/pod-podaffinity-required created[root@master
~]# kubectl get pod pod-podaffinity-required -n dev -o wide --show-labelsNAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES LABELS
pod
-podaffinity-required 0/1 Pending 0 24s <none> <none> <none> <none> <none>
发现调度失败,查看调度信息
[root@master ~]# kubectl describe pod pod-podaffinity-required -n devEvents:
Type Reason Age From Message
---- ------ ---- ---- -------Warning FailedScheduling
<unknown> default-scheduler 0/3 nodes are available: 1 node(s) had taints that the pod didn"t tolerate, 2 node(s) didn"t match pod affinity rules.Warning FailedScheduling
<unknown> default-scheduler 0/3 nodes are available: 1 node(s) had taints that the pod didn"t tolerate, 2 node(s) didn"t match pod affinity rules.
删除pod,重新编辑配置文件
apiVersion: v1kind: Pod
metadata:
name: pod
-podaffinity-requirednamespace: devspec:
containers:
- name: nginximage: nginx:
1.17.1affinity: #亲和性设置
podAffinity: #设置pod亲和性
requiredDuringSchedulingIgnoredDuringExecution: #硬限制
- labelSelector:matchExpressions: #匹配env的值在[
"xxx","yyy"]中的标签- key: podenvoperator: Invalues: [
"pro","yyy"]topologyKey: kubernetes.io
/hostname
[root@master ~]# kubectl delete -f pod-podaffinity-required.yamlpod
"pod-podaffinity-required" deleted[root@master
~]# vim pod-podaffinity-required.yaml[root@master
~]# kubectl create -f pod-podaffinity-required.yamlpod
/pod-podaffinity-required created[root@master
~]# kubectl get pod pod-podaffinity-required -n dev -o wide --show-labelsNAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES LABELS
pod
-podaffinity-required 1/1 Running 0 11s 10.244.2.40 node1 <none> <none> <none>
podantiaffinity
podaniaffinity主要实现以运行的pod为参照,让新创建的pod跟参照pod不在一个区域中的功能
它的配置方式和选项跟podaffinity是一样的,这里不再做详细解释,直接做一个测试案例
继续使用上个案例中目标pod
[root@master ~]# kubectl get pod -n dev -o wide --show-labelsNAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES LABELS
pod
-podaffinity-required 1/1 Running 2 24h 10.244.2.57 node1 <none> <none> <none>pod
-podaffinity-target 1/1 Running 2 24h 10.244.2.56 node1 <none> <none> podenv=pro
创建pod-podantiaffinity-required.yaml,内容如下
apiVersion: v1kind: Pod
metadata:
name: pod
-podantiaffinity-requirednamespace: devspec:
containers:
- name: nginximage: nginx:
1.17.1affinity: #亲和性设置
podAntiAffinity: #设置pod反亲和性
requiredDuringSchedulingIgnoredDuringExecution: #硬限制
- labelSelector:matchExpressions: #匹配env的值在[
"pro"]中的标签- key: podenvoperator: Invalues: [
"pro"]topologyKey: kubernetes.io
/hostname
使用配置文件
[root@master ~]# vim pod-podantiaffinity-required.yaml[root@master
~]# kubectl create -f pod-podantiaffinity-required.yamlpod
/pod-podantiaffinity-required created[root@master
~]# kubectl get pod -n dev -o wideNAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
pod
-podaffinity-required 1/1 Running 2 24h 10.244.2.57 node1 <none> <none>pod
-podaffinity-target 1/1 Running 2 24h 10.244.2.56 node1 <none> <none>pod
-podantiaffinity-required 1/1 Running 0 10s 10.244.1.57 node2 <none> <none>
可以发现pod被调度到了pod2中
污点和容忍
污点(Taints)
前面的调度方式都是站在pod的角度上,通过在pod上添加属性,来确定pod是否要调度到指定的node上,其实我们也可以站在node的角度上,通过在node上添加
污点属性,来决定是否允许pod调度过来
node被设置上污点之后就和pod之间存在了一种相斥的关系,进而拒绝pod调度进来,甚至可以将已经存在的pod驱逐出去
污点的格式为:key=value:effect,key和value是污点的标签,effect描述污点的作用,支持如下三个选项:
- PreferNoSchedule:k8s将尽量避免把pod调度到具有该污点的node上,除非没有其他节点可以调度
- NoSchedule:k8s将不会把pod调度到具有该污点的node上,但不会影响当前node上已经存在的pod
- NoExecute:k8s将不会把Pod调度到具有该污点的node上,同时也会将Node上已存在的Pod驱离
使用kubectl设置和去除污点的命令如下:
#设置污点kubectl taint nodes nodeName key
=value:effect#去除污点
kubectl taint nodes nodeName key:effect
-#去除所有污点
kubectl taint nodes nodeName key
-
接下来,演示下污点的效果:
- 准备节点node1(为了演示效果更加明显,暂时停止node2节点)
- 为node1节点设置一个污点:tag=ayanami:PreferNoSchedule;然后创建pod1(pod1可以)
- 修改为node1节点设置一个污点:tag=ayanami:NoSchedule;然后创建pod2(pod1正常 pod2失败)
- 修改为node1节点设置一个污点:tag=ayanami:NoExecute;然后创建pod3(3个pod都失败)
为node1设置污点(PreferNoSchedule):
[root@master ~]# kubectl taint nodes node1 tag=ayanami:PreferNoSchedulenode
/node1 tainted
创建pod1
[root@master ~]# kubectl run taint1 --image=nginx:1.17.1 -n devkubectl run
--generator=deployment/apps.v1 is DEPRECATED and will be removed in a future version. Use kubectl run --generator=run-pod/v1 or kubectl create instead.[root@master
~]# kubectl get pod -n devNAME READY STATUS RESTARTS AGE
taint1
-766c47bf55-lhmcj 1/1 Running 0 6m16s
为node1设置污点(取消PreferNoSchedule设置为NoSchedule)
[root@master ~]# kubectl taint nodes node1 tag:PreferNoSchedule-node
/node1 untainted[root@master
~]# kubectl taint nodes node1 tag=ayanami:NoSchedulenode
/node1 tainted
再次查看pod,发现没有变化
[root@master ~]# kubectl get pod -n devNAME READY STATUS RESTARTS AGE
taint1
-766c47bf55-lhmcj 1/1 Running 0 10m
创建新的taint2并查看
[root@master ~]# kubectl run taint2 --image=nginx:1.17.1 -n devkubectl run
--generator=deployment/apps.v1 is DEPRECATED and will be removed in a future version. Use kubectl run --generator=run-pod/v1 or kubectl create instead.deployment.apps
/taint2 created[root@master
~]# kubectl get pod -n devNAME READY STATUS RESTARTS AGE
taint1
-766c47bf55-lhmcj 1/1 Running 0 11mtaint2
-84946958cf-h9765 0/1 Pending 0 15s
发现新的pod无法running,查看taint2
[root@master ~]# kubectl describe pod taint2 -n devEvents:
Type Reason Age From Message
---- ------ ---- ---- -------Warning FailedScheduling
<unknown> default-scheduler 0/3 nodes are available: 3 node(s) had taints that the pod didn"t tolerate.Warning FailedScheduling <unknown> default-scheduler 0/3 nodes are available: 3 node(s) had taints that the pod didn"t tolerate.
为node1设置污点(取消NoSchedule,设置为NoExecute)
[root@master ~]# kubectl taint node node1 tag:NoSchedule-node
/node1 untainted[root@master
~]# kubectl taint node node1 tag=ayanami:NoExecutenode
/node1 tainted[root@master
~]# kubectl get pod -n devNAME READY STATUS RESTARTS AGE
taint1
-766c47bf55-fdtqw 0/1 Pending 0 30staint2
-84946958cf-26rfx 0/1 Pending 0 30s
发现两个pod都停止了,再创建一个taint3
[root@master ~]# kubectl run taint3 --image=nginx:1.17.1 -n devkubectl run
--generator=deployment/apps.v1 is DEPRECATED and will be removed in a future version. Use kubectl run --generator=run-pod/v1 or kubectl create instead.[root@master
~]# kubectl get pod -n devNAME READY STATUS RESTARTS AGE
taint1
-766c47bf55-fdtqw 0/1 Pending 0 97staint2
-84946958cf-26rfx 0/1 Pending 0 97staint3
-57d45f9d4c-68pwr 0/1 Pending 0 9s
发现新的也创建不了了
拓展:
使用kubeadm搭建的集群,默认就会给master节点添加一个污点标记,所以pod就不会调度到master节点上
[root@master ~]# kubectl describe node masterTaints: node
-role.kubernetes.io/master:NoSchedule
容忍
上面介绍了污点的作用,我们可以在node上添加污点用于拒绝pod调度上来,但是如果就是想将一个pod调度到一个有污点的node上去,这时候应该怎么做呢?这就要用到容忍
污点就是拒绝,容忍就是忽略,node通过污点拒绝pod调度上去,pod通过容忍忽略拒绝
下面先通过案例看下效果:
- 上一小节,已经在node1节点上打了NoExecute的污点,此时pod是调度不上去的
- 本小节,可以通过给pod添加容忍,然后将其调度上去
创建pod-toleration.yaml,内容如下
apiVersion: v1kind: Pod
metadata:
name: pod
-tolerationnamespace: devspec:
containers:
- name: nginximage: nginx:
1.17.1tolerations: #添加容忍
- key: "tag" #要容忍的污点的keyoperator: "Equal" #操作符value:
"ayanami" #容忍的污点的valueeffect:
"NoExecute" #添加容忍的规则,这里必须和标记的污点规则相同
使用配置文件
[root@master ~]# vim pod-toleration.yaml[root@master
~]# kubectl create -f pod-toleration.yamlpod
/pod-toleration created[root@master
~]# kubectl get pod -n devNAME READY STATUS RESTARTS AGE
pod
-toleration 1/1 Running 0 9staint1
-766c47bf55-fdtqw 0/1 Pending 0 34mtaint2
-84946958cf-26rfx 0/1 Pending 0 34mtaint3
-57d45f9d4c-68pwr 0/1 Pending 0 33m
容忍的详细配置
key:对应着要容忍的污点的键,空值意味着所有的键value:意味着要容忍的污点的值
operator:key-value的运算符,支持Equal和Exists(默认)effect:对应污点的effect,空值意味着匹配所有的影响
tolerationSeconds:容忍时间,当effect为NoExecute时生效,表示pod再Node上的停留时间
以上是 k8s之pod调度 的全部内容, 来源链接: utcz.com/z/519777.html