hello-operator
前置条件
- 安装 Docker Desktop,并启动内置的 Kubernetes 集群
- 注册一个 hub.docker.com 账户,需要将本地构建好的镜像推送至公开仓库中
- 安装 operator SDK CLI:
brew install operator-sdk
- 安装 Go:
brew install go
本示例推荐的依赖版本:
- Docker Desktop: >= 4.0.0
- Kubernetes: >= 1.21.4
- Operator-SDK: >= 1.11.0
- Go: >= 1.17
jxlwqq 为笔者的 ID,命令行和代码中涉及的个人 ID,均需要替换为读者自己的,包括
--domain=
--repo=
//+kubebuilder:rbac:groups=
IMAGE_TAG_BASE ?=
创建项目
使用 Operator SDK CLI 创建名为 hello-operator 的项目。
mkdir -p $HOME/projects/hello-operator
cd $HOME/projects/hello-operator
go env -w GOPROXY=https://goproxy.cn,direct
```shell
operator-sdk init --domain=jxlwqq.github.io \
--repo=github.com/jxlwqq/hello-operator \
--skip-go-version-check
创建 API 和控制器
使用 Operator SDK CLI 创建自定义资源定义(CRD)API 和控制器。
运行以下命令创建带有组 app、版本 v1alpha1 和种类 Hello 的 API:
operator-sdk create api \
--resource=true \
--controller=true \
--group=app \
--version=v1alpha1 \
--kind=Hello
定义 Hello 自定义资源(CR)的 API。
修改 api/v1alpha1/hello_types.go 中的 Go 类型定义,使其具有以下 spec 和 status
type HellloSpec struct {
Size int32 `json:"size"`
Version string `json:"version"`
}
为资源类型更新生成的代码:
make generate
运行以下命令以生成和更新 CRD 清单:
make manifests
运行以下命令以生成和更新 CRD 清单:
make manifests
实现控制器
由于逻辑较为复杂,代码较为庞大,所以无法在此全部展示,完整的操作器代码请参见 controllers 目录。
在本例中,将生成的控制器文件 controllers/hello_controller.go 替换为以下示例实现:
/*
Copyright 2021.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package controllers
import (
"context"
appsv1 "k8s.io/api/apps/v1"
corev1 "k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/api/errors"
"k8s.io/apimachinery/pkg/runtime"
ctrl "sigs.k8s.io/controller-runtime"
"sigs.k8s.io/controller-runtime/pkg/client"
"sigs.k8s.io/controller-runtime/pkg/log"
appv1alpha1 "github.com/jxlwqq/hello-operator/api/v1alpha1"
)
// HelloReconciler reconciles a Hello object
type HelloReconciler struct {
client.Client
Scheme *runtime.Scheme
}
//+kubebuilder:rbac:groups=app.jxlwqq.github.io,resources=hellos,verbs=get;list;watch;create;update;patch;delete
//+kubebuilder:rbac:groups=app.jxlwqq.github.io,resources=hellos/status,verbs=get;update;patch
//+kubebuilder:rbac:groups=app.jxlwqq.github.io,resources=hellos/finalizers,verbs=update
//+kubebuilder:rbac:groups=apps,resources=deployments,verbs=get;list;watch;create;update;patch;delete
//+kubebuilder:rbac:groups=core,resources=services,verbs=get;list;watch;create;update;patch;delete
// Reconcile is part of the main kubernetes reconciliation loop which aims to
// move the current state of the cluster closer to the desired state.
// TODO(user): Modify the Reconcile function to compare the state specified by
// the Hello object against the actual cluster state, and then
// perform operations to make the cluster state reflect the state specified by
// the user.
//
// For more details, check Reconcile and its Result here:
// - https://pkg.go.dev/sigs.k8s.io/controller-runtime@v0.9.2/pkg/reconcile
func (r *HelloReconciler) Reconcile(ctx context.Context, req ctrl.Request) (ctrl.Result, error) {
reqLogger := log.FromContext(ctx)
reqLogger.Info("Reconciling Hello")
hello := &appv1alpha1.Hello{}
err := r.Client.Get(context.TODO(), req.NamespacedName, hello)
if err != nil {
if errors.IsNotFound(err) {
return ctrl.Result{}, nil
}
return ctrl.Result{}, err
}
var result *ctrl.Result
reqLogger.Info("---Frontend Deployment---")
result, err = r.ensureDeployment(r.frontendDeployment(hello))
if result != nil {
return *result, err
}
reqLogger.Info("---Frontend Service---")
result, err = r.ensureService(r.frontendService(hello))
if result != nil {
return *result, err
}
reqLogger.Info("---Frontend Change Handler---")
result, err = r.handleFrontendChanges(hello)
if result != nil {
return *result, err
}
return ctrl.Result{}, nil
}
// SetupWithManager sets up the controller with the Manager.
func (r *HelloReconciler) SetupWithManager(mgr ctrl.Manager) error {
return ctrl.NewControllerManagedBy(mgr).
For(&appv1alpha1.Hello{}).
Owns(&appsv1.Deployment{}).
Owns(&corev1.Service{}).
Complete(r)
}
运行以下命令以生成和更新 CRD 清单:
make manifests
运行 Operator
捆绑 Operator,并使用 Operator Lifecycle Manager(OLM)在集群中部署。
修改 Makefile 中 IMAGE_TAG_BASE 和 IMG:
IMAGE_TAG_BASE ?= docker.io/jxlwqq/hello-operator
IMG ?= $(IMAGE_TAG_BASE):latest
构建镜像:
make docker-build
将镜像推送到镜像仓库:
make docker-push
成功后访问:https://hub.docker.com/r/jxlwqq/hello-operator
运行 make bundle 命令创建 Operator 捆绑包清单,并依次填入名称、作者等必要信息:
make bundle
构建捆绑包镜像:
make bundle-build
推送捆绑包镜像:
make bundle-push
成功后访问:https://hub.docker.com/r/jxlwqq/hello-operator-bundle
使用 Operator Lifecycle Manager 部署 Operator:
# 切换至本地集群
kubectl config use-context docker-desktop
# 安装 olm
operator-sdk olm install
# 使用 Operator SDK 中的 OLM 集成在集群中运行 Operator
operator-sdk run bundle docker.io/jxlwqq/hello-operator-bundle:v0.0.1
创建自定义资源
编辑 config/samples/app_v1alpha1_hello.yaml 上的 Hello CR 清单示例,使其包含以下规格:
apiVersion: app.jxlwqq.github.io/v1alpha1
kind: Hello
metadata:
name: hello-sample
spec:
# Add fields here
size: 2
version: "1.9"
创建 CR:
kubectl apply -f config/samples/app_v1alpha1_hello.yaml
查看 Pod:
NAME READY STATUS RESTARTS AGE
hello-5cdd78d697-8jz8k 1/1 Running 0 9s
hello-5cdd78d697-rmrhd 1/1 Running 0 9s
查看 Service:
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
hello-svc NodePort 10.98.205.249 <none> 8080:30691/TCP 18s
kubernetes ClusterIP 10.96.0.1 <none> 443/TCP 3h9m
浏览器访问:http://localhost:30691
网页上会显示出 Hello world! 的欢迎页面。
更新 CR:
# 修改副本数和 Hello 版本
kubectl patch hello hello-sample -p '{"spec":{"size": 3, "version": "1.10"}}' --type=merge
查看 Pod:
NAME READY STATUS RESTARTS AGE
hello-5bcdc7b75f-p4ktw 1/1 Running 0 7s
hello-5bcdc7b75f-p5tkx 1/1 Running 0 7s
hello-5bcdc7b75f-qswxd 1/1 Running 0 7s
做好清理
operator-sdk cleanup hello-operator
operator-sdk olm uninstall
更多
更多经典示例请参考:https://github.com/jxlwqq/kubernetes-examples