Kubernetes-9:Service介绍及演示
ServiceKubernetes 的Service定义了这样一种抽象:一个 Pod 的逻辑分组,一种可以访问他们的策略 —— 微服务,这一组Pod能够被Service访问到,通常是通过tabel Selector匹配。 Service 能够提供负载均衡的能力,但是在使用上有以下的限制:
Service的类型
示例clusterIPvim svc-deployment.yml apiVersion: apps/v1 kind: Deployment metadata: name: myapp-deploy namespace: default spec: replicas: 3 selector: matchLabels: app: myapp release: stabel template: metadata: labels: app: myapp release: stabel version: v1 spec: containers: - name: myapp image: hub.vfancloud.com/test/myapp:v1 imagePullPolicy: IfNotPresent ports: - name: http containerPort: 80 --- apiVersion: v1 kind: Service metadata: name: svc-cluster namespace: default spec: type: ClusterIP selector: app: myapp release: stabel ports: - name: http port: 80 targetPort: 80 创建、测试[root@Centos8 k8sYaml]# kubectl create -f svc-deployment.yml deployment.apps/myapp-deploy created service/svc-cluster created [root@Centos8 k8sYaml]# kubectl get deployment NAME READY UP-TO-DATE AVAILABLE AGE myapp-deploy 3/3 3 2m38s [root@Centos8 k8sYaml]# kubectl get svc NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE kubernetes ClusterIP 10.96.0.1 <none> 443/TCP 49d svc-cluster ClusterIP 10.102.16.24 <none> 80/TCP 78s [root@Centos8 k8sYaml]# kubectl get pod NAME READY STATUS RESTARTS AGE myapp-deploy-b4d49f555-czbb5 1/1 Running 0 2m47s myapp-deploy-b4d49f555-p97dk 2m47s myapp-deploy-b4d49f555-zcjtq 2m47s [root@Centos8 k8sYaml]# curl http://10.102.16.24/hostname.html myapp-deploy-b4d49f555-zcjtq [root@Centos8 k8sYaml]# curl http:czbb5 [root@Centos8 k8sYaml]# curl http:10.102.16.24/hostname.html myapp-deploy-b4d49f555-p97dk ?不需要负载以及单独的ClusterIP时vim svc-cluNone.yml apiVersion: v1 kind: Service metadata: name: svc-clunone spec: clusterIP: "None" selector: app: myapp release: stabel ports: - port: 80 ?NodePortvim svc-nodeport.yml nodePort namespace: default spec: type: NodePort selector: app: myapp release: stabel ports: - # 用于k8s集群内部服务之间相互访问端口 targetPort: # 实际web容器expose的端口 nodePort: 30001 # 用于外部client访问,其会在k8s每个node节点开启30001 创建、测试[root@Centos8 k8sYaml]# kubectl create -f svc-nodeport.yml service/svc-nodeport created [root@Centos8 k8sYaml]# kubectl get svc NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE kubernetes ClusterIP 0.1 <none> TCP 49d svc-clunone ClusterIP None <none> TCP 7m37s svc-cluster ClusterIP 16.24 <none> TCP 29m svc-nodeport NodePort 10.98.165.226 <none> 80:30001/TCP 6s [root@Centos8 k8sYaml]# ipvsadm -ln | grep -A5 165.226 TCP 165.226: rr -> 10.244.3.78:80 Masq 1 0 0 -> 3.79:3.80: ### 外网访问可以在浏览器中输入nodeip+端口即可 ### 若网络不可达,在确认自己的svc创建全部正确的情况下,执行: iptables -P FORWARD ACCEPT ### 执行完毕后,再次测试 ?LoadBalancer此Service类型主要功能为在Node的外部做一个负载均衡器,但是需要收费,了解即可。 ?ExternalNameexternal
namespace: default
spec:
type: ExternalName
externalName: hub.vfancloud.com
? Pod访问svc的方式当有需求Pod需要访问svc时,可以通过直接访问svc ip和svc name两种方式访问。 但由于svc ip是不固定的,当svc删除或者重建的时候,ip会发生改变,所以如果想固定的访问此svc,要使用coredns的方式,也就是访问svc name。
## 当前svc [root@Centos8 http]# kubectl get svc NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE ingress-svc1 ClusterIP 201.28 <none> TCP 25m ingress-svc2 ClusterIP 10.104.176.12 <none> 8080/TCP 11m ## 当前pod [root@Centos8 http]# kubectl get pod NAME READY STATUS RESTARTS AGE ingress-http1-549f9d6cdf-5d5wf 25m ingress-http1-549f9d6cdf-9bhkx 25m ingress-http1-549f9d6cdf-t75tw 25m ingress-http2-84b79f86c8-55hhw 11m ingress-http2-84b79f86c8-6jhl4 11m ingress-http2-84b79f86c8-7bf8w 11m ### 前往ingress-svc2的pod内,访问ingress-svc1 ## 第一种,访问ip [root@Centos8 http]# kubectl exec -it ingress-http2-84b79f86c8-55hhw -- ping 201.28 PING 201.28 (201.28): 56 data bytes 64 bytes from 201.28: seq=0 ttl=64 time=0.114 ms 1 ttl=0.0912 ttl=0.082 ms ## 第二种,访问svc name,访问通,并成功解析到ip [root@Centos8 http]# kubectl exec -it ingress-http2-84b79f86c8-55hhw -- ping ingress-svc1 PING ingress-svc1 (0.1030.1490.087 ms (编辑:李大同) 【声明】本站内容均来自网络,其相关言论仅代表作者个人观点,不代表本站立场。若无意侵犯到您的权利,请及时与联系站长删除相关内容! |