跟我一块儿学Knative(6)--部署gRPC服务

本文主要利用Knative Serving 部署一个gRPC服务。

此示例可用于在knative服务中试用gRPC，HTTP / 2和自定义端口配置。

容器镜像由两个二进制文件构建：服务器和客户端。这样作是为了便于测试，不建议将其用于生产容器。

构建和部署示例代码

1：clone代码仓库

git clone -b "release-0.14" https://github.com/knative/docs knative-docs
cd knative-docs/docs/serving/samples/grpc-ping-go

使用Docker来为此服务构建容器镜像，并将其推送到Docker Hub。

将{username}替换为您的Docker Hub用户名，而后运行如下命令：

# Build the container on your local machine.
docker build --tag "{username}/grpc-ping-go" .

# Push the container to docker registry.
docker push "{username}/grpc-ping-go"

3: 更新项目中的service.yaml文件以引用步骤1中发布的镜像。

用您的Docker Hub用户名替换service.yaml中的{username}：

apiVersion: serving.knative.dev/v1
kind: Service
metadata:
  name: grpc-ping
  namespace: default
spec:
  template:
    spec:
      containers:
      - image: docker.io/{username}/grpc-ping-go
        ports:
          - name: h2c
            containerPort: 8080

4：使用 kubectl部署服务

kubectl apply --filename service.yaml 

service.serving.knative.dev/grpc-ping created

Exploring

部署后，您能够使用kubectl命令检查建立的资源：

首先查看knative service：

# This will show the Knative service that we created:
kubectl get ksvc grpc-ping --output yaml

apiVersion: serving.knative.dev/v1
kind: Service
metadata:
  annotations:
    serving.knative.dev/creator: jenkins
    serving.knative.dev/lastModifier: jenkins
  creationTimestamp: "2020-05-13T01:55:44Z"
  generation: 1
  name: grpc-ping
  namespace: default
  resourceVersion: "2201773"
  selfLink: /apis/serving.knative.dev/v1/namespaces/default/services/grpc-ping
  uid: 7977a697-c413-459f-852c-60e5adf3dccc
spec:
  template:
    metadata:
      creationTimestamp: null
    spec:
      containerConcurrency: 0
      containers:
      - image: docker.io/iyacontrol/grpc-ping-go
        name: user-container
        ports:
        - containerPort: 8080
          name: h2c
        readinessProbe:
          successThreshold: 1
          tcpSocket:
            port: 0
        resources: {}
      timeoutSeconds: 300
  traffic:
  - latestRevision: true
    percent: 100
status:
  address:
    url: http://grpc-ping.default.svc.cluster.local
  conditions:
  - lastTransitionTime: "2020-05-13T01:55:54Z"
    status: "True"
    type: ConfigurationsReady
  - lastTransitionTime: "2020-05-13T01:55:54Z"
    status: "True"
    type: Ready
  - lastTransitionTime: "2020-05-13T01:55:54Z"
    status: "True"
    type: RoutesReady
  latestCreatedRevisionName: grpc-ping-gcltn
  latestReadyRevisionName: grpc-ping-gcltn
  observedGeneration: 1
  traffic:
  - latestRevision: true
    percent: 100
    revisionName: grpc-ping-gcltn
  url: http://grpc-ping.default.serverless.xx.me

查看knative route：

# This will show the Route, created by the service:
kubectl get route grpc-ping --output yaml

apiVersion: serving.knative.dev/v1
kind: Route
metadata:
  annotations:
    serving.knative.dev/creator: jenkins
    serving.knative.dev/lastModifier: jenkins
  creationTimestamp: "2020-05-13T01:55:44Z"
  finalizers:
  - routes.serving.knative.dev
  generation: 1
  labels:
    serving.knative.dev/service: grpc-ping
  name: grpc-ping
  namespace: default
  ownerReferences:
  - apiVersion: serving.knative.dev/v1
    blockOwnerDeletion: true
    controller: true
    kind: Service
    name: grpc-ping
    uid: 7977a697-c413-459f-852c-60e5adf3dccc
  resourceVersion: "2201772"
  selfLink: /apis/serving.knative.dev/v1/namespaces/default/routes/grpc-ping
  uid: 8455e488-2ac2-4e1e-8b51-8d20e1836801
spec:
  traffic:
  - configurationName: grpc-ping
    latestRevision: true
    percent: 100
status:
  address:
    url: http://grpc-ping.default.svc.cluster.local
  conditions:
  - lastTransitionTime: "2020-05-13T01:55:54Z"
    status: "True"
    type: AllTrafficAssigned
  - lastTransitionTime: "2020-05-13T01:55:54Z"
    status: "True"
    type: IngressReady
  - lastTransitionTime: "2020-05-13T01:55:54Z"
    status: "True"
    type: Ready
  observedGeneration: 1
  traffic:
  - latestRevision: true
    percent: 100
    revisionName: grpc-ping-gcltn
  url: http://grpc-ping.default.serverless.xx.me

查看knative configurations：

# This will show the Configuration, created by the service:
kubectl get configurations grpc-ping --output yaml

apiVersion: serving.knative.dev/v1
kind: Configuration
metadata:
  annotations:
    serving.knative.dev/creator: jenkins
    serving.knative.dev/lastModifier: jenkins
  creationTimestamp: "2020-05-13T01:55:44Z"
  generation: 1
  labels:
    serving.knative.dev/route: grpc-ping
    serving.knative.dev/service: grpc-ping
  name: grpc-ping
  namespace: default
  ownerReferences:
  - apiVersion: serving.knative.dev/v1
    blockOwnerDeletion: true
    controller: true
    kind: Service
    name: grpc-ping
    uid: 7977a697-c413-459f-852c-60e5adf3dccc
  resourceVersion: "2201750"
  selfLink: /apis/serving.knative.dev/v1/namespaces/default/configurations/grpc-ping
  uid: 1a8ab033-7a28-41f8-97ab-cc00560bf613
spec:
  template:
    metadata:
      creationTimestamp: null
    spec:
      containerConcurrency: 0
      containers:
      - image: docker.io/iyacontrol/grpc-ping-go
        name: user-container
        ports:
        - containerPort: 8080
          name: h2c
        readinessProbe:
          successThreshold: 1
          tcpSocket:
            port: 0
        resources: {}
      timeoutSeconds: 300
status:
  conditions:
  - lastTransitionTime: "2020-05-13T01:55:54Z"
    status: "True"
    type: Ready
  latestCreatedRevisionName: grpc-ping-gcltn
  latestReadyRevisionName: grpc-ping-gcltn
  observedGeneration: 1

经过configurations咱们能够知道revision的名字是grpc-ping-gcltn，咱们的查看 knative revision：

# This will show the Revision, created by the Configuration:
kubectl get revisions grpc-ping-gcltn -o yaml

apiVersion: serving.knative.dev/v1
kind: Revision
metadata:
  annotations:
    serving.knative.dev/creator: jenkins
    serving.knative.dev/lastPinned: "1589334954"
  creationTimestamp: "2020-05-13T01:55:44Z"
  generateName: grpc-ping-
  generation: 1
  labels:
    serving.knative.dev/configuration: grpc-ping
    serving.knative.dev/configurationGeneration: "1"
    serving.knative.dev/route: grpc-ping
    serving.knative.dev/service: grpc-ping
  name: grpc-ping-gcltn
  namespace: default
  ownerReferences:
  - apiVersion: serving.knative.dev/v1
    blockOwnerDeletion: true
    controller: true
    kind: Configuration
    name: grpc-ping
    uid: 1a8ab033-7a28-41f8-97ab-cc00560bf613
  resourceVersion: "2201933"
  selfLink: /apis/serving.knative.dev/v1/namespaces/default/revisions/grpc-ping-gcltn
  uid: d3d13c00-1aa9-44e6-979d-60b50d40b519
spec:
  containerConcurrency: 0
  containers:
  - image: docker.io/iyacontrol/grpc-ping-go
    name: user-container
    ports:
    - containerPort: 8080
      name: h2c
    readinessProbe:
      successThreshold: 1
      tcpSocket:
        port: 0
    resources: {}
  timeoutSeconds: 300
status:
  conditions:
  - lastTransitionTime: "2020-05-13T01:56:54Z"
    message: The target is not receiving traffic.
    reason: NoTraffic
    severity: Info
    status: "False"
    type: Active
  - lastTransitionTime: "2020-05-13T01:55:54Z"
    status: "True"
    type: ContainerHealthy
  - lastTransitionTime: "2020-05-13T01:55:54Z"
    status: "True"
    type: Ready
  - lastTransitionTime: "2020-05-13T01:55:54Z"
    status: "True"
    type: ResourcesAvailable
  imageDigest: index.docker.io/iyacontrol/grpc-ping-go@sha256:bfe8362fd0f7ccf18502688baca084b6ea63b5725bfef287d8d7dcef9320a17b
  logUrl: http://localhost:8001/api/v1/namespaces/knative-monitoring/services/kibana-logging/proxy/app/kibana#/discover?_a=(query:(match:(kubernetes.labels.knative-dev%2FrevisionUID:(query:'d3d13c00-1aa9-44e6-979d-60b50d40b519',type:phrase))))
  observedGeneration: 1
  serviceName: grpc-ping-gcltn

测试服务

测试gRPC服务须要使用根据服务器使用的相同protobuf定义构建的gRPC客户端。

Dockerfile构建客户端二进制文件。要运行客户端，您将使用为服务器部署的相同容器镜像，并带有对entrypoint命令的覆盖，以使用客户端二进制文件而不是服务器二进制文件。

将{username}替换为您的Docker Hub用户名，而后运行如下命令：

docker run --rm {username}/grpc-ping-go \
  /client \
  -server_addr="grpc-ping.default.serverless.xx.me:80" \
  -insecure

使用容器标签{username} / grpc-ping-go以后的参数代替Dockerfile CMD语句中定义的入口点命令。

运行测试以后有相似以下输出：

2020/05/13 02:06:43 Ping got hello - pong
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466829984 +0000 UTC m=+1.361228108
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466881062 +0000 UTC m=+1.361279193
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466890156 +0000 UTC m=+1.361288283
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466896804 +0000 UTC m=+1.361294929
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466908132 +0000 UTC m=+1.361306260
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466915748 +0000 UTC m=+1.361313871
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466926437 +0000 UTC m=+1.361324564
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466934259 +0000 UTC m=+1.361332383
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466945454 +0000 UTC m=+1.361343587
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466953871 +0000 UTC m=+1.361351996
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.4669644 +0000 UTC m=+1.361362524
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466971662 +0000 UTC m=+1.361369790
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466985621 +0000 UTC m=+1.361383746
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.466993072 +0000 UTC m=+1.361391202
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.467000507 +0000 UTC m=+1.361398632
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.467007443 +0000 UTC m=+1.361405566
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.467026014 +0000 UTC m=+1.361424141
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.467034894 +0000 UTC m=+1.361433022
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.467044127 +0000 UTC m=+1.361442256
2020/05/13 02:06:43 Got pong 2020-05-13 02:06:43.467052183 +0000 UTC m=+1.361450308

测试经过。

结论

当咱们部署一个gRPC项目的时候，须要在service中spec的port作一些特殊的处理

ports:
          - name: h2c
            containerPort: 8080

name 是h2c。h2 is HTTP/2 over TLS (protocol negotiation via ALPN)，h2c is HTTP/2 over TCP。