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pki.go
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pki.go
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package pki
import (
"context"
"crypto/rsa"
"crypto/x509"
"fmt"
"net"
"github.com/rancher/rke/hosts"
"github.com/rancher/rke/log"
"github.com/rancher/types/apis/management.cattle.io/v3"
"k8s.io/client-go/util/cert"
)
type CertificatePKI struct {
Certificate *x509.Certificate
Key *rsa.PrivateKey
Config string
Name string
CommonName string
OUName string
EnvName string
Path string
KeyEnvName string
KeyPath string
ConfigEnvName string
ConfigPath string
}
const (
etcdRole = "etcd"
controlRole = "controlplane"
workerRole = "worker"
)
func GenerateRKECerts(ctx context.Context, rkeConfig v3.RancherKubernetesEngineConfig, configPath, configDir string) (map[string]CertificatePKI, error) {
certs := make(map[string]CertificatePKI)
// generate CA certificate and key
log.Infof(ctx, "[certificates] Generating CA kubernetes certificates")
caCrt, caKey, err := generateCACertAndKey()
if err != nil {
return nil, err
}
certs[CACertName] = ToCertObject(CACertName, "", "", caCrt, caKey)
// generate API certificate and key
log.Infof(ctx, "[certificates] Generating Kubernetes API server certificates")
kubernetesServiceIP, err := GetKubernetesServiceIP(rkeConfig.Services.KubeAPI.ServiceClusterIPRange)
clusterDomain := rkeConfig.Services.Kubelet.ClusterDomain
cpHosts := hosts.NodesToHosts(rkeConfig.Nodes, controlRole)
if err != nil {
return nil, fmt.Errorf("Failed to get Kubernetes Service IP: %v", err)
}
kubeAPIAltNames := GetAltNames(cpHosts, clusterDomain, kubernetesServiceIP, rkeConfig.Authentication.SANs)
kubeAPICrt, kubeAPIKey, err := GenerateSignedCertAndKey(caCrt, caKey, true, KubeAPICertName, kubeAPIAltNames, nil, nil)
if err != nil {
return nil, err
}
certs[KubeAPICertName] = ToCertObject(KubeAPICertName, "", "", kubeAPICrt, kubeAPIKey)
// generate Kube controller-manager certificate and key
log.Infof(ctx, "[certificates] Generating Kube Controller certificates")
kubeControllerCrt, kubeControllerKey, err := GenerateSignedCertAndKey(caCrt, caKey, false, getDefaultCN(KubeControllerCertName), nil, nil, nil)
if err != nil {
return nil, err
}
certs[KubeControllerCertName] = ToCertObject(KubeControllerCertName, "", "", kubeControllerCrt, kubeControllerKey)
// generate Kube scheduler certificate and key
log.Infof(ctx, "[certificates] Generating Kube Scheduler certificates")
kubeSchedulerCrt, kubeSchedulerKey, err := GenerateSignedCertAndKey(caCrt, caKey, false, getDefaultCN(KubeSchedulerCertName), nil, nil, nil)
if err != nil {
return nil, err
}
certs[KubeSchedulerCertName] = ToCertObject(KubeSchedulerCertName, "", "", kubeSchedulerCrt, kubeSchedulerKey)
// generate Kube Proxy certificate and key
log.Infof(ctx, "[certificates] Generating Kube Proxy certificates")
kubeProxyCrt, kubeProxyKey, err := GenerateSignedCertAndKey(caCrt, caKey, false, getDefaultCN(KubeProxyCertName), nil, nil, nil)
if err != nil {
return nil, err
}
certs[KubeProxyCertName] = ToCertObject(KubeProxyCertName, "", "", kubeProxyCrt, kubeProxyKey)
// generate Kubelet certificate and key
log.Infof(ctx, "[certificates] Generating Node certificate")
nodeCrt, nodeKey, err := GenerateSignedCertAndKey(caCrt, caKey, false, KubeNodeCommonName, nil, nil, []string{KubeNodeOrganizationName})
if err != nil {
return nil, err
}
certs[KubeNodeCertName] = ToCertObject(KubeNodeCertName, KubeNodeCommonName, KubeNodeOrganizationName, nodeCrt, nodeKey)
// generate Admin certificate and key
log.Infof(ctx, "[certificates] Generating admin certificates and kubeconfig")
if len(configPath) == 0 {
configPath = ClusterConfig
}
localKubeConfigPath := GetLocalKubeConfig(configPath, configDir)
kubeAdminCrt, kubeAdminKey, err := GenerateSignedCertAndKey(caCrt, caKey, false, KubeAdminCertName, nil, nil, []string{KubeAdminOrganizationName})
if err != nil {
return nil, err
}
kubeAdminCertObj := ToCertObject(KubeAdminCertName, KubeAdminCertName, KubeAdminOrganizationName, kubeAdminCrt, kubeAdminKey)
if len(cpHosts) > 0 {
kubeAdminConfig := GetKubeConfigX509WithData(
"https://"+cpHosts[0].Address+":6443",
rkeConfig.ClusterName,
KubeAdminCertName,
string(cert.EncodeCertPEM(caCrt)),
string(cert.EncodeCertPEM(kubeAdminCrt)),
string(cert.EncodePrivateKeyPEM(kubeAdminKey)))
kubeAdminCertObj.Config = kubeAdminConfig
kubeAdminCertObj.ConfigPath = localKubeConfigPath
} else {
kubeAdminCertObj.Config = ""
}
certs[KubeAdminCertName] = kubeAdminCertObj
// generate etcd certificate and key
if len(rkeConfig.Services.Etcd.ExternalURLs) > 0 {
clientCert, err := cert.ParseCertsPEM([]byte(rkeConfig.Services.Etcd.Cert))
if err != nil {
return nil, err
}
clientKey, err := cert.ParsePrivateKeyPEM([]byte(rkeConfig.Services.Etcd.Key))
if err != nil {
return nil, err
}
certs[EtcdClientCertName] = ToCertObject(EtcdClientCertName, "", "", clientCert[0], clientKey.(*rsa.PrivateKey))
caCert, err := cert.ParseCertsPEM([]byte(rkeConfig.Services.Etcd.CACert))
if err != nil {
return nil, err
}
certs[EtcdClientCACertName] = ToCertObject(EtcdClientCACertName, "", "", caCert[0], nil)
}
etcdHosts := hosts.NodesToHosts(rkeConfig.Nodes, etcdRole)
etcdAltNames := GetAltNames(etcdHosts, clusterDomain, kubernetesServiceIP, []string{})
for _, host := range etcdHosts {
log.Infof(ctx, "[certificates] Generating etcd-%s certificate and key", host.InternalAddress)
etcdCrt, etcdKey, err := GenerateSignedCertAndKey(caCrt, caKey, true, EtcdCertName, etcdAltNames, nil, nil)
if err != nil {
return nil, err
}
etcdName := GetEtcdCrtName(host.InternalAddress)
certs[etcdName] = ToCertObject(etcdName, "", "", etcdCrt, etcdKey)
}
return certs, nil
}
func GenerateRKENodeCerts(ctx context.Context, rkeConfig v3.RancherKubernetesEngineConfig, nodeAddress string, certBundle map[string]CertificatePKI) map[string]CertificatePKI {
crtMap := make(map[string]CertificatePKI)
crtKeys := []string{}
removeCAKey := true
for _, node := range rkeConfig.Nodes {
if node.Address == nodeAddress {
for _, role := range node.Role {
switch role {
case controlRole:
keys := getControlCertKeys()
crtKeys = append(crtKeys, keys...)
removeCAKey = false
case workerRole:
keys := getWorkerCertKeys()
crtKeys = append(crtKeys, keys...)
case etcdRole:
keys := getEtcdCertKeys(rkeConfig.Nodes, etcdRole)
crtKeys = append(crtKeys, keys...)
}
}
break
}
}
for _, key := range crtKeys {
crtMap[key] = certBundle[key]
}
if removeCAKey {
caCert := crtMap[CACertName]
caCert.Key = nil
caCert.KeyEnvName = ""
caCert.KeyPath = ""
crtMap[CACertName] = caCert
}
return crtMap
}
func RegenerateEtcdCertificate(
ctx context.Context,
crtMap map[string]CertificatePKI,
etcdHost *hosts.Host,
etcdHosts []*hosts.Host,
clusterDomain string,
KubernetesServiceIP net.IP) (map[string]CertificatePKI, error) {
log.Infof(ctx, "[certificates] Regenerating new etcd-%s certificate and key", etcdHost.InternalAddress)
caCrt := crtMap[CACertName].Certificate
caKey := crtMap[CACertName].Key
etcdAltNames := GetAltNames(etcdHosts, clusterDomain, KubernetesServiceIP, []string{})
etcdCrt, etcdKey, err := GenerateSignedCertAndKey(caCrt, caKey, true, EtcdCertName, etcdAltNames, nil, nil)
if err != nil {
return nil, err
}
etcdName := GetEtcdCrtName(etcdHost.InternalAddress)
crtMap[etcdName] = ToCertObject(etcdName, "", "", etcdCrt, etcdKey)
log.Infof(ctx, "[certificates] Successfully generated new etcd-%s certificate and key", etcdHost.InternalAddress)
return crtMap, nil
}