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内容:所有原创文章分类汇总及配套源码,涉及Java、Docker、Kubernetes、DevOPS等;
本篇概览
- 本文是《kubebuilder实战》系列的第七篇,之前的文章咱们完成了一个Operator的设计、开发、部署、验证过程,为了让整个过程保持简洁并且篇幅不膨胀,实战中刻意跳过了一个重要的知识点:webhook,如今是时候学习它了,这是个很重要的功能;
- 本篇由以下部分构成:
- 介绍webhook;
- 结合前面的elasticweb项目,设计一个使用webhook的场景;
- 准备工作
- 生成webhook
- 开发(配置)
- 开发(编码)
- 部署
- 验证Defaulter(添加默认值)
- 验证Validator(合法性校验)
关于webhook
- 熟悉java开发的读者大多知道过滤器(Servlet Filter),如下图,外部请求会先到达过滤器,做一些统一的操作,例如转码、校验,然后才由真正的业务逻辑处理请求:
- Operator中的webhook,其作用与上述过滤器类似,外部对CRD资源的变更,在Controller处理之前都会交给webhook提前处理,流程如下图,该图来自《Getting Started with Kubernetes | Operator and Operator Framework》:
-
再来看看webhook具体做了哪些事情,如下图,kubernetes官方博客明确指出webhook可以做两件事:修改(mutating)和验证(validating)
-
kubebuilder为我们提供了生成webhook的基础文件和代码的工具,与制作API的工具类似,极大地简化了工作量,咱们只需聚焦业务实现即可;
-
基于kubebuilder制作的webhook和controller,如果是同一个资源,那么它们在同一个进程中;
设计实战场景
- 为了让实战有意义,咱们为前面的elasticweb项目上增加需求,让webhook发挥实际作用;
- 如果用户忘记输入总QPS,系统webhook负责设置默认值1300,操作如下图:
- 为了保护系统,给单个pod的QPS设置上限1000,如果外部输入的singlePodQPS值超过1000,就创建资源对象失败,如下图所示:
源码下载
- 本篇实战中的完整源码可在GitHub下载到,地址和链接信息如下表所示(https://github.com/zq2599/blog_demos):
| 名称 | 链接 | 备注 |
|---|---|---|
| 项目主页 | https://github.com/zq2599/blog_demos | 该项目在GitHub上的主页 |
| git仓库地址(https) | https://github.com/zq2599/blog_demos.git | 该项目源码的仓库地址,https协议 |
| git仓库地址(ssh) | git@github.com:zq2599/blog_demos.git | 该项目源码的仓库地址,ssh协议 |
- 这个git项目中有多个文件夹,kubebuilder相关的应用在kubebuilder文件夹下,如下图红框所示:
- kubebuilder文件夹下有多个子文件夹,本篇对应的源码在elasticweb目录下,如下图红框所示:
准备工作
- 和controller类似,webhook既能在kubernetes环境中运行,也能在kubernetes环境之外运行;
- 如果webhook在kubernetes环境之外运行,是有些麻烦的,需要将证书放在所在环境,默认地址是:
/tmp/k8s-webhook-server/serving-certs/tls.{crt,key}
- 为了省事儿,也为了更接近生产环境的用法,接下来的实战的做法是将webhook部署在kubernetes环境中
- 为了让webhook在kubernetes环境中运行,咱们要做一点准备工作安装cert manager,执行以下操作:
kubectl apply -f https://github.com/jetstack/cert-manager/releases/download/v1.2.0/cert-manager.yaml
- 上述操作完成后会新建很多资源,如namespace、rbac、pod等,以pod为例如下:
[root@hedy ~]# kubectl get pods --all-namespaces
NAMESPACE NAME READY STATUS RESTARTS AGE
cert-manager cert-manager-6588898cb4-nvnz8 1/1 Running 1 5d14h
cert-manager cert-manager-cainjector-7bcbdbd99f-q645r 1/1 Running 1 5d14h
cert-manager cert-manager-webhook-5fd9f9dd86-98tm9 1/1 Running 1 5d14h
...
- 操作完成后,准备工作结束,可以开始实战了;
生成webhook
- 进入elasticweb工程下,执行以下命令创建webhook:
kubebuilder create webhook
--group elasticweb
--version v1
--kind ElasticWeb
--defaulting
--programmatic-validation
- 上述命令执行完毕后,先去看看main.go文件,如下图红框1所示,自动增加了一段代码,作用是让webhook生效:
- 上图红框2中的elasticweb_webhook.go就是新增文件,内容如下:
package v1
import (
"k8s.io/apimachinery/pkg/runtime"
ctrl "sigs.k8s.io/controller-runtime"
logf "sigs.k8s.io/controller-runtime/pkg/log"
"sigs.k8s.io/controller-runtime/pkg/webhook"
)
// log is for logging in this package.
var elasticweblog = logf.Log.WithName("elasticweb-resource")
func (r *ElasticWeb) SetupWebhookWithManager(mgr ctrl.Manager) error {
return ctrl.NewWebhookManagedBy(mgr).
For(r).
Complete()
}
// EDIT THIS FILE! THIS IS SCAFFOLDING FOR YOU TO OWN!
// +kubebuilder:webhook:path=/mutate-elasticweb-com-bolingcavalry-v1-elasticweb,mutating=true,failurePolicy=fail,groups=elasticweb.com.bolingcavalry,resources=elasticwebs,verbs=create;update,versions=v1,name=melasticweb.kb.io
var _ webhook.Defaulter = &ElasticWeb{}
// Default implements webhook.Defaulter so a webhook will be registered for the type
func (r *ElasticWeb) Default() {
elasticweblog.Info("default", "name", r.Name)
// TODO(user): fill in your defaulting logic.
}
// TODO(user): change verbs to "verbs=create;update;delete" if you want to enable deletion validation.
// +kubebuilder:webhook:verbs=create;update,path=/validate-elasticweb-com-bolingcavalry-v1-elasticweb,mutating=false,failurePolicy=fail,groups=elasticweb.com.bolingcavalry,resources=elasticwebs,versions=v1,name=velasticweb.kb.io
var _ webhook.Validator = &ElasticWeb{}
// ValidateCreate implements webhook.Validator so a webhook will be registered for the type
func (r *ElasticWeb) ValidateCreate() error {
elasticweblog.Info("validate create", "name", r.Name)
// TODO(user): fill in your validation logic upon object creation.
return nil
}
// ValidateUpdate implements webhook.Validator so a webhook will be registered for the type
func (r *ElasticWeb) ValidateUpdate(old runtime.Object) error {
elasticweblog.Info("validate update", "name", r.Name)
// TODO(user): fill in your validation logic upon object update.
return nil
}
// ValidateDelete implements webhook.Validator so a webhook will be registered for the type
func (r *ElasticWeb) ValidateDelete() error {
elasticweblog.Info("validate delete", "name", r.Name)
// TODO(user): fill in your validation logic upon object deletion.
return nil
}
- 上述代码有两处需要注意,第一处和填写默认值有关,如下图:
- 第二处和校验有关,如下图:
- 咱们要实现的业务需求就是通过修改上述elasticweb_webhook.go的内容来实现,不过代码稍后再写,先把配置都改好;
开发(配置)
- 打开文件config/default/kustomization.yaml,下图四个红框中的内容原本都被注释了,现在请将注释符号都删掉,使其生效:
- 还是文件config/default/kustomization.yaml,节点vars下面的内容,原本全部被注释了,现在请全部放开,放开后的效果如下图:
- 配置已经完成,可以编码了;
开发(编码)
-
打开文件elasticweb_webhook.go
-
新增依赖:
apierrors "k8s.io/apimachinery/pkg/api/errors"
- 找到Default方法,改成如下内容,可见代码很简单,判断TotalQPS是否存在,若不存在就写入默认值,另外还加了两行日志:
func (r *ElasticWeb) Default() {
elasticweblog.Info("default", "name", r.Name)
// TODO(user): fill in your defaulting logic.
// 如果创建的时候没有输入总QPS,就设置个默认值
if r.Spec.TotalQPS == nil {
r.Spec.TotalQPS = new(int32)
*r.Spec.TotalQPS = 1300
elasticweblog.Info("a. TotalQPS is nil, set default value now", "TotalQPS", *r.Spec.TotalQPS)
} else {
elasticweblog.Info("b. TotalQPS exists", "TotalQPS", *r.Spec.TotalQPS)
}
}
- 接下来开发校验功能,咱们把校验功能封装成一个validateElasticWeb方法,然后在新增和修改的时候各调用一次,如下,可见最终是调用apierrors.NewInvalid生成错误实例的,而此方法接受的是多个错误,因此要为其准备切片做入参,当然了,如果是多个参数校验失败,可以都放入切片中:
func (r *ElasticWeb) validateElasticWeb() error {
var allErrs field.ErrorList
if *r.Spec.SinglePodQPS > 1000 {
elasticweblog.Info("c. Invalid SinglePodQPS")
err := field.Invalid(field.NewPath("spec").Child("singlePodQPS"),
*r.Spec.SinglePodQPS,
"d. must be less than 1000")
allErrs = append(allErrs, err)
return apierrors.NewInvalid(
schema.GroupKind{Group: "elasticweb.com.bolingcavalry", Kind: "ElasticWeb"},
r.Name,
allErrs)
} else {
elasticweblog.Info("e. SinglePodQPS is valid")
return nil
}
}
- 再找到新增和修改资源对象时被调用的方法,在里面调用validateElasticWeb:
// ValidateCreate implements webhook.Validator so a webhook will be registered for the type
func (r *ElasticWeb) ValidateCreate() error {
elasticweblog.Info("validate create", "name", r.Name)
// TODO(user): fill in your validation logic upon object creation.
return r.validateElasticWeb()
}
// ValidateUpdate implements webhook.Validator so a webhook will be registered for the type
func (r *ElasticWeb) ValidateUpdate(old runtime.Object) error {
elasticweblog.Info("validate update", "name", r.Name)
// TODO(user): fill in your validation logic upon object update.
return r.validateElasticWeb()
}
- 编码完成,可见非常简单,接下来,咱们把以前实战遗留的东西清理一下,再开始新的部署和验证;
清理工作
- 如果您是随着《kubebuilder实战》系列一路操作下来,此时系统上应该积攒了之前遗留的内容,可以通过以下步骤完成清理:
- 删除elasticweb资源对象:
kubectl delete -f config/samples/elasticweb_v1_elasticweb.yaml
- 删除controller
kustomize build config/default | kubectl delete -f -
- 删除CRD
make uninstall
- 现在万事俱备,可以部署webhook了;
部署
- 部署CRD
make install
- 构建镜像并推送到仓库(我终于受够了hub.docker.com的龟速,改为阿里云镜像仓库):
make docker-build docker-push IMG=registry.cn-hangzhou.aliyuncs.com/bolingcavalry/elasticweb:001
- 部署集成了webhook功能的controller:
make deploy IMG=registry.cn-hangzhou.aliyuncs.com/bolingcavalry/elasticweb:001
- 查看pod,确认启动成功:
zhaoqin@zhaoqindeMBP-2 ~ % kubectl get pods --all-namespaces
NAMESPACE NAME READY STATUS RESTARTS AGE
cert-manager cert-manager-6588898cb4-nvnz8 1/1 Running 1 5d21h
cert-manager cert-manager-cainjector-7bcbdbd99f-q645r 1/1 Running 1 5d21h
cert-manager cert-manager-webhook-5fd9f9dd86-98tm9 1/1 Running 1 5d21h
elasticweb-system elasticweb-controller-manager-7dcbfd4675-898gb 2/2 Running 0 20s
验证Defaulter(添加默认值)
- 修改文件config/samples/elasticweb_v1_elasticweb.yaml,修改后的内容如下,可见totalQPS字段已经被注释掉了:
apiVersion: v1
kind: Namespace
metadata:
name: dev
labels:
name: dev
---
apiVersion: elasticweb.com.bolingcavalry/v1
kind: ElasticWeb
metadata:
namespace: dev
name: elasticweb-sample
spec:
# Add fields here
image: tomcat:8.0.18-jre8
port: 30003
singlePodQPS: 500
# totalQPS: 600
- 创建一个elasticweb资源对象:
kubectl apply -f config/samples/elasticweb_v1_elasticweb.yaml
- 此时单个pod的QPS是500,如果webhook的代码生效的话,总QPS就是1300,而对应的pod数应该是3个,接下来咱们看看是否符合预期;
- 先看elasticweb、deployment、pod等资源对象是否正常,如下所示,全部符合预期:
zhaoqin@zhaoqindeMBP-2 ~ % kubectl get elasticweb -n dev
NAME AGE
elasticweb-sample 89s
zhaoqin@zhaoqindeMBP-2 ~ % kubectl get deployments -n dev
NAME READY UP-TO-DATE AVAILABLE AGE
elasticweb-sample 3/3 3 3 98s
zhaoqin@zhaoqindeMBP-2 ~ % kubectl get service -n dev
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
elasticweb-sample NodePort 10.105.125.125 <none> 8080:30003/TCP 106s
zhaoqin@zhaoqindeMBP-2 ~ % kubectl get pod -n dev
NAME READY STATUS RESTARTS AGE
elasticweb-sample-56fc5848b7-5tkxw 1/1 Running 0 113s
elasticweb-sample-56fc5848b7-blkzg 1/1 Running 0 113s
elasticweb-sample-56fc5848b7-pd7jg 1/1 Running 0 113s
- 用kubectl describe命令查看elasticweb资源对象的详情,如下所示,TotalQPS字段被webhook设置为1300,RealQPS也计算正确:
zhaoqin@zhaoqindeMBP-2 ~ % kubectl describe elasticweb elasticweb-sample -n dev
Name: elasticweb-sample
Namespace: dev
Labels: <none>
Annotations: <none>
API Version: elasticweb.com.bolingcavalry/v1
Kind: ElasticWeb
Metadata:
Creation Timestamp: 2021-02-27T16:07:34Z
Generation: 2
Managed Fields:
API Version: elasticweb.com.bolingcavalry/v1
Fields Type: FieldsV1
fieldsV1:
f:metadata:
f:annotations:
.:
f:kubectl.kubernetes.io/last-applied-configuration:
f:spec:
.:
f:image:
f:port:
f:singlePodQPS:
Manager: kubectl-client-side-apply
Operation: Update
Time: 2021-02-27T16:07:34Z
API Version: elasticweb.com.bolingcavalry/v1
Fields Type: FieldsV1
fieldsV1:
f:status:
f:realQPS:
Manager: manager
Operation: Update
Time: 2021-02-27T16:07:34Z
Resource Version: 687628
UID: 703de111-d859-4cd2-b3c4-1d201fb7bd7d
Spec:
Image: tomcat:8.0.18-jre8
Port: 30003
Single Pod QPS: 500
Total QPS: 1300
Status:
Real QPS: 1500
Events: <none>
- 再来看看controller的日志,其中的webhook部分是否符合预期,如下图红框所示,发现TotalQPS字段为空,就将设置为默认值,并且在检测的时候SinglePodQPS的值也没有超过1000:
- 最后别忘了用浏览器验证web服务是否正常,我这里的完整地址是:http://192.168.50.75:30003/
- 至此,咱们完成了webhook的Defaulter验证,接下来验证Validator
验证Validator
- 接下来该验证webhook的参数校验功能了,先验证修改时的逻辑;
- 编辑文件config/samples/update_single_pod_qps.yaml,值如下:
spec:
singlePodQPS: 1100
- 用patch命令使之生效:
kubectl patch elasticweb elasticweb-sample
-n dev
--type merge
--patch "$(cat config/samples/update_single_pod_qps.yaml)"
- 此时,控制台会输出错误信息:
Error from server (ElasticWeb.elasticweb.com.bolingcavalry "elasticweb-sample" is invalid: spec.singlePodQPS: Invalid value: 1100: d. must be less than 1000): admission webhook "velasticweb.kb.io" denied the request: ElasticWeb.elasticweb.com.bolingcavalry "elasticweb-sample" is invalid: spec.singlePodQPS: Invalid value: 1100: d. must be less than 1000
- 再用kubectl describe命令查看elasticweb资源对象的详情,如下图红框,依然是500,可见webhook已经生效,阻止了错误的发生:
- 再去看controller日志,如下图红框所示,和代码对应上了:
- 接下来再试试webhook在新增时候的校验功能;
- 清理前面创建的elastic资源对象,执行命令:
kubectl delete -f config/samples/elasticweb_v1_elasticweb.yaml
- 修改文件,如下图红框所示,咱们将singlePodQPS的值改为超过1000,看看webhook是否能检查到这个错误,并阻止资源对象的创建:
- 执行以下命令开始创建elasticweb资源对象:
kubectl apply -f config/samples/elasticweb_v1_elasticweb.yaml
- 控制台提示以下信息,包含了咱们代码中写入的错误描述,证明elasticweb资源对象创建失败,证明webhook的Validator功能已经生效:
namespace/dev created
Error from server (ElasticWeb.elasticweb.com.bolingcavalry "elasticweb-sample" is invalid: spec.singlePodQPS: Invalid value: 1500: d. must be less than 1000): error when creating "config/samples/elasticweb_v1_elasticweb.yaml": admission webhook "velasticweb.kb.io" denied the request: ElasticWeb.elasticweb.com.bolingcavalry "elasticweb-sample" is invalid: spec.singlePodQPS: Invalid value: 1500: d. must be less than 1000
- 不放心的话执行kubectl get命令检查一下,发现空空如也:
zhaoqin@zhaoqindeMBP-2 elasticweb % kubectl get elasticweb -n dev
No resources found in dev namespace.
zhaoqin@zhaoqindeMBP-2 elasticweb % kubectl get deployments -n dev
No resources found in dev namespace.
zhaoqin@zhaoqindeMBP-2 elasticweb % kubectl get service -n dev
No resources found in dev namespace.
zhaoqin@zhaoqindeMBP-2 elasticweb % kubectl get pod -n dev
No resources found in dev namespace.
- 还要看下controller日志,如下图红框所示,符合预期:
- 至此,operator的webhook的开发、部署、验证咱们就完成了,整个elasticweb也算是基本功能齐全,希望能为您的operator开发提供参考;
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