资讯专栏INFORMATION COLUMN

kubeadm源码分析(kubernetes离线安装包,三步安装)

Heier / 3331人阅读

摘要:离线安装包三步安装,简单到难以置信源码分析说句实在话,的代码写的真心一般,质量不是很高。然后给该租户绑定角色。

k8s离线安装包 三步安装,简单到难以置信

kubeadm源码分析

说句实在话,kubeadm的代码写的真心一般,质量不是很高。

几个关键点来先说一下kubeadm干的几个核心的事:

kubeadm 生成证书在/etc/kubernetes/pki目录下

kubeadm 生成static pod yaml配置,全部在/etc/kubernetes/manifasts下

kubeadm 生成kubelet配置,kubectl配置等 在/etc/kubernetes下

kubeadm 通过client go去启动dns

kubeadm init

代码入口 cmd/kubeadm/app/cmd/init.go 建议大家去看看cobra

找到Run函数来分析下主要流程:

如果证书不存在,就创建证书,所以如果我们有自己的证书可以把它放在/etc/kubernetes/pki下即可, 下文细看如果生成证书
    if res, _ := certsphase.UsingExternalCA(i.cfg); !res {
        if err := certsphase.CreatePKIAssets(i.cfg); err != nil {
            return err
        }
创建kubeconfig文件
        if err := kubeconfigphase.CreateInitKubeConfigFiles(kubeConfigDir, i.cfg); err != nil {
            return err
        }
创建manifest文件,etcd apiserver manager scheduler都在这里创建, 可以看到如果你的配置文件里已经写了etcd的地址了,就不创建了,这我们就可以自己装etcd集群,而不用默认单点的etcd,很有用
controlplanephase.CreateInitStaticPodManifestFiles(manifestDir, i.cfg); 
if len(i.cfg.Etcd.Endpoints) == 0 {
    if err := etcdphase.CreateLocalEtcdStaticPodManifestFile(manifestDir, i.cfg); err != nil {
        return fmt.Errorf("error creating local etcd static pod manifest file: %v", err)
    }
}
等待APIserver和kubelet启动成功,这里就会遇到我们经常遇到的镜像拉不下来的错误,其实有时kubelet因为别的原因也会报这个错,让人误以为是镜像弄不下来
if err := waitForAPIAndKubelet(waiter); err != nil {
    ctx := map[string]string{
        "Error":                  fmt.Sprintf("%v", err),
        "APIServerImage":         images.GetCoreImage(kubeadmconstants.KubeAPIServer, i.cfg.GetControlPlaneImageRepository(), i.cfg.KubernetesVersion, i.cfg.UnifiedControlPlaneImage),
        "ControllerManagerImage": images.GetCoreImage(kubeadmconstants.KubeControllerManager, i.cfg.GetControlPlaneImageRepository(), i.cfg.KubernetesVersion, i.cfg.UnifiedControlPlaneImage),
        "SchedulerImage":         images.GetCoreImage(kubeadmconstants.KubeScheduler, i.cfg.GetControlPlaneImageRepository(), i.cfg.KubernetesVersion, i.cfg.UnifiedControlPlaneImage),
    }

    kubeletFailTempl.Execute(out, ctx)

    return fmt.Errorf("couldn"t initialize a Kubernetes cluster")
}
给master加标签,加污点, 所以想要pod调度到master上可以把污点清除了
if err := markmasterphase.MarkMaster(client, i.cfg.NodeName); err != nil {
    return fmt.Errorf("error marking master: %v", err)
}
生成tocken
if err := nodebootstraptokenphase.UpdateOrCreateToken(client, i.cfg.Token, false, i.cfg.TokenTTL.Duration, kubeadmconstants.DefaultTokenUsages, []string{kubeadmconstants.NodeBootstrapTokenAuthGroup}, tokenDescription); err != nil {
    return fmt.Errorf("error updating or creating token: %v", err)
}
调用clientgo创建dns和kube-proxy
if err := dnsaddonphase.EnsureDNSAddon(i.cfg, client); err != nil {
    return fmt.Errorf("error ensuring dns addon: %v", err)
}

if err := proxyaddonphase.EnsureProxyAddon(i.cfg, client); err != nil {
    return fmt.Errorf("error ensuring proxy addon: %v", err)
}

笔者批判代码无脑式的一个流程到底,要是笔者操刀定抽象成接口 RenderConf Save Run Clean等,DNS kube-porxy以及其它组件去实现,然后问题就是没把dns和kubeproxy的配置渲染出来,可能是它们不是static pod的原因, 然后就是join时的bug下文提到

证书生成

循环的调用了这一坨函数,我们只需要看其中一两个即可,其它的都差不多

certActions := []func(cfg *kubeadmapi.MasterConfiguration) error{
    CreateCACertAndKeyfiles,
    CreateAPIServerCertAndKeyFiles,
    CreateAPIServerKubeletClientCertAndKeyFiles,
    CreateServiceAccountKeyAndPublicKeyFiles,
    CreateFrontProxyCACertAndKeyFiles,
    CreateFrontProxyClientCertAndKeyFiles,
}

根证书生成:

//返回了根证书的公钥和私钥
func NewCACertAndKey() (*x509.Certificate, *rsa.PrivateKey, error) {

    caCert, caKey, err := pkiutil.NewCertificateAuthority()
    if err != nil {
        return nil, nil, fmt.Errorf("failure while generating CA certificate and key: %v", err)
    }

    return caCert, caKey, nil
}

k8s.io/client-go/util/cert 这个库里面有两个函数,一个生成key的一个生成cert的:

key, err := certutil.NewPrivateKey()
config := certutil.Config{
    CommonName: "kubernetes",
}
cert, err := certutil.NewSelfSignedCACert(config, key)

config里面我们也可以填充一些别的证书信息:

type Config struct {
    CommonName   string
    Organization []string
    AltNames     AltNames
    Usages       []x509.ExtKeyUsage
}

私钥就是封装了rsa库里面的函数:

    "crypto/rsa"
    "crypto/x509"
func NewPrivateKey() (*rsa.PrivateKey, error) {
    return rsa.GenerateKey(cryptorand.Reader, rsaKeySize)
}

自签证书,所以根证书里只有CommonName信息,Organization相当于没设置:

func NewSelfSignedCACert(cfg Config, key *rsa.PrivateKey) (*x509.Certificate, error) {
    now := time.Now()
    tmpl := x509.Certificate{
        SerialNumber: new(big.Int).SetInt64(0),
        Subject: pkix.Name{
            CommonName:   cfg.CommonName,
            Organization: cfg.Organization,
        },
        NotBefore:             now.UTC(),
        NotAfter:              now.Add(duration365d * 10).UTC(),
        KeyUsage:              x509.KeyUsageKeyEncipherment | x509.KeyUsageDigitalSignature | x509.KeyUsageCertSign,
        BasicConstraintsValid: true,
        IsCA: true,
    }

    certDERBytes, err := x509.CreateCertificate(cryptorand.Reader, &tmpl, &tmpl, key.Public(), key)
    if err != nil {
        return nil, err
    }
    return x509.ParseCertificate(certDERBytes)
}

生成好之后把之写入文件:

 pkiutil.WriteCertAndKey(pkiDir, baseName, cert, key);
certutil.WriteCert(certificatePath, certutil.EncodeCertPEM(cert))

这里调用了pem库进行了编码

encoding/pem

func EncodeCertPEM(cert *x509.Certificate) []byte {
    block := pem.Block{
        Type:  CertificateBlockType,
        Bytes: cert.Raw,
    }
    return pem.EncodeToMemory(&block)
}

然后我们看apiserver的证书生成:

caCert, caKey, err := loadCertificateAuthorithy(cfg.CertificatesDir, kubeadmconstants.CACertAndKeyBaseName)
//从根证书生成apiserver证书
apiCert, apiKey, err := NewAPIServerCertAndKey(cfg, caCert, caKey)

这时需要关注AltNames了比较重要,所有需要访问master的地址域名都得加进去,对应配置文件中apiServerCertSANs字段,其它东西与根证书无差别

config := certutil.Config{
    CommonName: kubeadmconstants.APIServerCertCommonName,
    AltNames:   *altNames,
    Usages:     []x509.ExtKeyUsage{x509.ExtKeyUsageServerAuth},
}
创建k8s配置文件

可以看到创建了这些文件

return createKubeConfigFiles(
    outDir,
    cfg,
    kubeadmconstants.AdminKubeConfigFileName,
    kubeadmconstants.KubeletKubeConfigFileName,
    kubeadmconstants.ControllerManagerKubeConfigFileName,
    kubeadmconstants.SchedulerKubeConfigFileName,
)

k8s封装了两个渲染配置的函数:
区别是你的kubeconfig文件里会不会产生token,比如你进入dashboard需要一个token,或者你调用api需要一个token那么请生成带token的配置
生成的conf文件基本一直只是比如ClientName这些东西不同,所以加密后的证书也不同,ClientName会被加密到证书里,然后k8s取出来当用户使用

所以重点来了,我们做多租户时也要这样去生成。然后给该租户绑定角色。

return kubeconfigutil.CreateWithToken(
    spec.APIServer,
    "kubernetes",
    spec.ClientName,
    certutil.EncodeCertPEM(spec.CACert),
    spec.TokenAuth.Token,
), nil

return kubeconfigutil.CreateWithCerts(
    spec.APIServer,
    "kubernetes",
    spec.ClientName,
    certutil.EncodeCertPEM(spec.CACert),
    certutil.EncodePrivateKeyPEM(clientKey),
    certutil.EncodeCertPEM(clientCert),
), nil

然后就是填充Config结构体喽, 最后写到文件里,略

"k8s.io/client-go/tools/clientcmd/api
return &clientcmdapi.Config{
    Clusters: map[string]*clientcmdapi.Cluster{
        clusterName: {
            Server: serverURL,
            CertificateAuthorityData: caCert,
        },
    },
    Contexts: map[string]*clientcmdapi.Context{
        contextName: {
            Cluster:  clusterName,
            AuthInfo: userName,
        },
    },
    AuthInfos:      map[string]*clientcmdapi.AuthInfo{},
    CurrentContext: contextName,
}
创建static pod yaml文件

这里返回了apiserver manager scheduler的pod结构体,

specs := GetStaticPodSpecs(cfg, k8sVersion)
staticPodSpecs := map[string]v1.Pod{
    kubeadmconstants.KubeAPIServer: staticpodutil.ComponentPod(v1.Container{
        Name:          kubeadmconstants.KubeAPIServer,
        Image:         images.GetCoreImage(kubeadmconstants.KubeAPIServer, cfg.GetControlPlaneImageRepository(), cfg.KubernetesVersion, cfg.UnifiedControlPlaneImage),
        Command:       getAPIServerCommand(cfg, k8sVersion),
        VolumeMounts:  staticpodutil.VolumeMountMapToSlice(mounts.GetVolumeMounts(kubeadmconstants.KubeAPIServer)),
        LivenessProbe: staticpodutil.ComponentProbe(cfg, kubeadmconstants.KubeAPIServer, int(cfg.API.BindPort), "/healthz", v1.URISchemeHTTPS),
        Resources:     staticpodutil.ComponentResources("250m"),
        Env:           getProxyEnvVars(),
    }, mounts.GetVolumes(kubeadmconstants.KubeAPIServer)),
    kubeadmconstants.KubeControllerManager: staticpodutil.ComponentPod(v1.Container{
        Name:          kubeadmconstants.KubeControllerManager,
        Image:         images.GetCoreImage(kubeadmconstants.KubeControllerManager, cfg.GetControlPlaneImageRepository(), cfg.KubernetesVersion, cfg.UnifiedControlPlaneImage),
        Command:       getControllerManagerCommand(cfg, k8sVersion),
        VolumeMounts:  staticpodutil.VolumeMountMapToSlice(mounts.GetVolumeMounts(kubeadmconstants.KubeControllerManager)),
        LivenessProbe: staticpodutil.ComponentProbe(cfg, kubeadmconstants.KubeControllerManager, 10252, "/healthz", v1.URISchemeHTTP),
        Resources:     staticpodutil.ComponentResources("200m"),
        Env:           getProxyEnvVars(),
    }, mounts.GetVolumes(kubeadmconstants.KubeControllerManager)),
    kubeadmconstants.KubeScheduler: staticpodutil.ComponentPod(v1.Container{
        Name:          kubeadmconstants.KubeScheduler,
        Image:         images.GetCoreImage(kubeadmconstants.KubeScheduler, cfg.GetControlPlaneImageRepository(), cfg.KubernetesVersion, cfg.UnifiedControlPlaneImage),
        Command:       getSchedulerCommand(cfg),
        VolumeMounts:  staticpodutil.VolumeMountMapToSlice(mounts.GetVolumeMounts(kubeadmconstants.KubeScheduler)),
        LivenessProbe: staticpodutil.ComponentProbe(cfg, kubeadmconstants.KubeScheduler, 10251, "/healthz", v1.URISchemeHTTP),
        Resources:     staticpodutil.ComponentResources("100m"),
        Env:           getProxyEnvVars(),
    }, mounts.GetVolumes(kubeadmconstants.KubeScheduler)),
}

//获取特定版本的镜像
func GetCoreImage(image, repoPrefix, k8sVersion, overrideImage string) string {
    if overrideImage != "" {
        return overrideImage
    }
    kubernetesImageTag := kubeadmutil.KubernetesVersionToImageTag(k8sVersion)
    etcdImageTag := constants.DefaultEtcdVersion
    etcdImageVersion, err := constants.EtcdSupportedVersion(k8sVersion)
    if err == nil {
        etcdImageTag = etcdImageVersion.String()
    }
    return map[string]string{
        constants.Etcd:                  fmt.Sprintf("%s/%s-%s:%s", repoPrefix, "etcd", runtime.GOARCH, etcdImageTag),
        constants.KubeAPIServer:         fmt.Sprintf("%s/%s-%s:%s", repoPrefix, "kube-apiserver", runtime.GOARCH, kubernetesImageTag),
        constants.KubeControllerManager: fmt.Sprintf("%s/%s-%s:%s", repoPrefix, "kube-controller-manager", runtime.GOARCH, kubernetesImageTag),
        constants.KubeScheduler:         fmt.Sprintf("%s/%s-%s:%s", repoPrefix, "kube-scheduler", runtime.GOARCH, kubernetesImageTag),
    }[image]
}
//然后就把这个pod写到文件里了,比较简单
 staticpodutil.WriteStaticPodToDisk(componentName, manifestDir, spec); 

创建etcd的一样,不多废话

等待kubelet启动成功

这个错误非常容易遇到,看到这个基本就是kubelet没起来,我们需要检查:selinux swap 和Cgroup driver是不是一致
setenforce 0 && swapoff -a && systemctl restart kubelet如果不行请保证 kubelet的Cgroup driver与docker一致,docker info|grep Cg

go func(errC chan error, waiter apiclient.Waiter) {
    // This goroutine can only make kubeadm init fail. If this check succeeds, it won"t do anything special
    if err := waiter.WaitForHealthyKubelet(40*time.Second, "http://localhost:10255/healthz"); err != nil {
        errC <- err
    }
}(errorChan, waiter)

go func(errC chan error, waiter apiclient.Waiter) {
    // This goroutine can only make kubeadm init fail. If this check succeeds, it won"t do anything special
    if err := waiter.WaitForHealthyKubelet(60*time.Second, "http://localhost:10255/healthz/syncloop"); err != nil {
        errC <- err
    }
}(errorChan, waiter)
创建DNS和kubeproxy

我就是在此发现coreDNS的

if features.Enabled(cfg.FeatureGates, features.CoreDNS) {
    return coreDNSAddon(cfg, client, k8sVersion)
}
return kubeDNSAddon(cfg, client, k8sVersion)

然后coreDNS的yaml配置模板直接是写在代码里的:
/app/phases/addons/dns/manifests.go

    CoreDNSDeployment = `
apiVersion: apps/v1beta2
kind: Deployment
metadata:
  name: coredns
  namespace: kube-system
  labels:
    k8s-app: kube-dns
spec:
  replicas: 1
  selector:
    matchLabels:
      k8s-app: kube-dns
  template:
    metadata:
      labels:
        k8s-app: kube-dns
    spec:
      serviceAccountName: coredns
      tolerations:
      - key: CriticalAddonsOnly
        operator: Exists
      - key: {{ .MasterTaintKey }}
...

然后渲染模板,最后调用k8sapi创建,这种创建方式可以学习一下,虽然有点拙劣,这地方写的远不如kubectl好

coreDNSConfigMap := &v1.ConfigMap{}
if err := kuberuntime.DecodeInto(legacyscheme.Codecs.UniversalDecoder(), configBytes, coreDNSConfigMap); err != nil {
    return fmt.Errorf("unable to decode CoreDNS configmap %v", err)
}

// Create the ConfigMap for CoreDNS or update it in case it already exists
if err := apiclient.CreateOrUpdateConfigMap(client, coreDNSConfigMap); err != nil {
    return err
}

coreDNSClusterRoles := &rbac.ClusterRole{}
if err := kuberuntime.DecodeInto(legacyscheme.Codecs.UniversalDecoder(), []byte(CoreDNSClusterRole), coreDNSClusterRoles); err != nil {
    return fmt.Errorf("unable to decode CoreDNS clusterroles %v", err)
}
...

这里值得一提的是kubeproxy的configmap真应该把apiserver地址传入进来,允许自定义,因为做高可用时需要指定虚拟ip,得修改,很麻烦
kubeproxy大差不差,不说了,想改的话改: app/phases/addons/proxy/manifests.go

kubeadm join

kubeadm join比较简单,一句话就可以说清楚,获取cluster info, 创建kubeconfig,怎么创建的kubeinit里面已经说了。带上token让kubeadm有权限
可以拉取

return https.RetrieveValidatedClusterInfo(cfg.DiscoveryFile)

cluster info内容
type Cluster struct {
    // LocationOfOrigin indicates where this object came from.  It is used for round tripping config post-merge, but never serialized.
    LocationOfOrigin string
    // Server is the address of the kubernetes cluster (https://hostname:port).
    Server string `json:"server"`
    // InsecureSkipTLSVerify skips the validity check for the server"s certificate. This will make your HTTPS connections insecure.
    // +optional
    InsecureSkipTLSVerify bool `json:"insecure-skip-tls-verify,omitempty"`
    // CertificateAuthority is the path to a cert file for the certificate authority.
    // +optional
    CertificateAuthority string `json:"certificate-authority,omitempty"`
    // CertificateAuthorityData contains PEM-encoded certificate authority certificates. Overrides CertificateAuthority
    // +optional
    CertificateAuthorityData []byte `json:"certificate-authority-data,omitempty"`
    // Extensions holds additional information. This is useful for extenders so that reads and writes don"t clobber unknown fields
    // +optional
    Extensions map[string]runtime.Object `json:"extensions,omitempty"`
}

return kubeconfigutil.CreateWithToken(
    clusterinfo.Server,
    "kubernetes",
    TokenUser,
    clusterinfo.CertificateAuthorityData,
    cfg.TLSBootstrapToken,
), nil

CreateWithToken上文提到了不再赘述,这样就能去生成kubelet配置文件了,然后把kubelet启动起来即可

kubeadm join的问题就是渲染配置时没有使用命令行传入的apiserver地址,而用clusterinfo里的地址,这不利于我们做高可用,可能我们传入一个虚拟ip,但是配置里还是apiser的地址

文章版权归作者所有,未经允许请勿转载,若此文章存在违规行为,您可以联系管理员删除。

转载请注明本文地址:https://www.ucloud.cn/yun/32676.html

相关文章

  • kubeadm源码分析kubernetes离线安装三步安装

    摘要:离线安装包三步安装,简单到难以置信源码分析说句实在话,的代码写的真心一般,质量不是很高。然后给该租户绑定角色。 k8s离线安装包 三步安装,简单到难以置信 kubeadm源码分析 说句实在话,kubeadm的代码写的真心一般,质量不是很高。 几个关键点来先说一下kubeadm干的几个核心的事: kubeadm 生成证书在/etc/kubernetes/pki目录下 kubeadm 生...

    Eirunye 评论0 收藏0
  • 最简单的kubernetes HA安装方式-sealos详解

    摘要:集群三步安装概述本文教你如何用一条命令构建高可用集群且不依赖和,也无需。通过内核对进行负载均衡,并且带健康检测。当然你也可以把用于一些其它场景,比如代理自己的服务等 kubernetes集群三步安装 概述 本文教你如何用一条命令构建k8s高可用集群且不依赖haproxy和keepalived,也无需ansible。通过内核ipvs对apiserver进行负载均衡,并且带apiserve...

    spacewander 评论0 收藏0
  • kubernetes1.9.2基于kubeadm高可用安装教程,离线安装,支持简单快速安装,含

    摘要:使用安装安全高可用集群安装包地址如非高可用安装请忽略此教程,直接看产品页的三步安装。 使用kubeadm安装安全高可用kubernetes集群 安装包地址 如非高可用安装请忽略此教程,直接看产品页的三步安装。 单个master流程: 单master视频教程 解压后在master 上 cd shell && sh init.sh ,然后sh master.sh(注意因为脚本用的相...

    explorer_ddf 评论0 收藏0
  • kubernetes1.9.2基于kubeadm高可用安装教程,离线安装,支持简单快速安装,含

    摘要:使用安装安全高可用集群安装包地址如非高可用安装请忽略此教程,直接看产品页的三步安装。 使用kubeadm安装安全高可用kubernetes集群 安装包地址 如非高可用安装请忽略此教程,直接看产品页的三步安装。 单个master流程: 单master视频教程 解压后在master 上 cd shell && sh init.sh ,然后sh master.sh(注意因为脚本用的相...

    AlphaGooo 评论0 收藏0
  • kubernetes1.9.2基于kubeadm高可用安装教程,离线安装,支持简单快速安装,含

    摘要:使用安装安全高可用集群安装包地址如非高可用安装请忽略此教程,直接看产品页的三步安装。 使用kubeadm安装安全高可用kubernetes集群 安装包地址 如非高可用安装请忽略此教程,直接看产品页的三步安装。 单个master流程: 单master视频教程 解压后在master 上 cd shell && sh init.sh ,然后sh master.sh(注意因为脚本用的相...

    jimhs 评论0 收藏0

发表评论

0条评论

最新活动
阅读需要支付1元查看
<