mirror of https://github.com/portainer/portainer
268 lines
7.2 KiB
Go
268 lines
7.2 KiB
Go
package cli
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import (
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"context"
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"strings"
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"github.com/portainer/portainer/api/database/models"
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netv1 "k8s.io/api/networking/v1"
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metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
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)
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func (kcl *KubeClient) GetIngressControllers() models.K8sIngressControllers {
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var controllers []models.K8sIngressController
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// We know that each existing class points to a controller so we can start
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// by collecting these easy ones.
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classClient := kcl.cli.NetworkingV1().IngressClasses()
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classList, err := classClient.List(context.Background(), metav1.ListOptions{})
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if err != nil {
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return nil
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}
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// We want to know which of these controllers is in use.
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var ingresses []models.K8sIngressInfo
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namespaces, err := kcl.GetNamespaces()
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if err != nil {
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return nil
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}
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for namespace := range namespaces {
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t, err := kcl.GetIngresses(namespace)
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if err != nil {
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return nil
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}
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ingresses = append(ingresses, t...)
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}
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usedClasses := make(map[string]struct{})
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for _, ingress := range ingresses {
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usedClasses[ingress.ClassName] = struct{}{}
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}
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for _, class := range classList.Items {
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var controller models.K8sIngressController
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controller.Name = class.Spec.Controller
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controller.ClassName = class.Name
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// If the class is used mark it as such.
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if _, ok := usedClasses[class.Name]; ok {
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controller.Used = true
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}
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switch {
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case strings.Contains(controller.Name, "nginx"):
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controller.Type = "nginx"
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case strings.Contains(controller.Name, "traefik"):
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controller.Type = "traefik"
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default:
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controller.Type = "other"
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}
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controllers = append(controllers, controller)
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}
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return controllers
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}
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// GetIngresses gets all the ingresses for a given namespace in a k8s endpoint.
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func (kcl *KubeClient) GetIngresses(namespace string) ([]models.K8sIngressInfo, error) {
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// Fetch ingress classes to build a map. We will later use the map to lookup
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// each ingresses "type".
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classes := make(map[string]string)
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classClient := kcl.cli.NetworkingV1().IngressClasses()
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classList, err := classClient.List(context.Background(), metav1.ListOptions{})
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if err != nil {
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return nil, err
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}
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for _, class := range classList.Items {
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// Write the ingress classes "type" to our map.
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classes[class.Name] = class.Spec.Controller
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}
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// Fetch each ingress.
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ingressClient := kcl.cli.NetworkingV1().Ingresses(namespace)
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ingressList, err := ingressClient.List(context.Background(), metav1.ListOptions{})
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if err != nil {
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return nil, err
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}
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var infos []models.K8sIngressInfo
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for _, ingress := range ingressList.Items {
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ingressClass := ingress.Spec.IngressClassName
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var info models.K8sIngressInfo
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info.Name = ingress.Name
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info.UID = string(ingress.UID)
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info.Namespace = namespace
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info.ClassName = ""
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if ingressClass != nil {
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info.ClassName = *ingressClass
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}
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info.Type = classes[info.ClassName]
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info.Annotations = ingress.Annotations
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// Gather TLS information.
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for _, v := range ingress.Spec.TLS {
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var tls models.K8sIngressTLS
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tls.Hosts = v.Hosts
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tls.SecretName = v.SecretName
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info.TLS = append(info.TLS, tls)
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}
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// Gather list of paths and hosts.
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hosts := make(map[string]struct{})
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for _, r := range ingress.Spec.Rules {
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if r.HTTP == nil {
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continue
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}
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// There are multiple paths per rule. We want to flatten the list
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// for our frontend.
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for _, p := range r.HTTP.Paths {
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var path models.K8sIngressPath
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path.IngressName = info.Name
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path.Host = r.Host
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// We collect all exiting hosts in a map to avoid duplicates.
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// Then, later convert it to a slice for the frontend.
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hosts[r.Host] = struct{}{}
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path.Path = p.Path
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path.PathType = string(*p.PathType)
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path.ServiceName = p.Backend.Service.Name
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path.Port = int(p.Backend.Service.Port.Number)
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info.Paths = append(info.Paths, path)
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}
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}
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// Store list of hosts.
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for host := range hosts {
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info.Hosts = append(info.Hosts, host)
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}
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infos = append(infos, info)
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}
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return infos, nil
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}
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// CreateIngress creates a new ingress in a given namespace in a k8s endpoint.
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func (kcl *KubeClient) CreateIngress(namespace string, info models.K8sIngressInfo) error {
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ingressClient := kcl.cli.NetworkingV1().Ingresses(namespace)
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var ingress netv1.Ingress
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ingress.Name = info.Name
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ingress.Namespace = info.Namespace
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ingress.Spec.IngressClassName = &info.ClassName
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ingress.Annotations = info.Annotations
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// Store TLS information.
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var tls []netv1.IngressTLS
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for _, i := range info.TLS {
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tls = append(tls, netv1.IngressTLS{
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Hosts: i.Hosts,
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SecretName: i.SecretName,
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})
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}
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ingress.Spec.TLS = tls
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// Parse "paths" into rules with paths.
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rules := make(map[string][]netv1.HTTPIngressPath)
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for _, path := range info.Paths {
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pathType := netv1.PathType(path.PathType)
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rules[path.Host] = append(rules[path.Host], netv1.HTTPIngressPath{
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Path: path.Path,
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PathType: &pathType,
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Backend: netv1.IngressBackend{
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Service: &netv1.IngressServiceBackend{
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Name: path.ServiceName,
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Port: netv1.ServiceBackendPort{
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Number: int32(path.Port),
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},
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},
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},
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})
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}
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for rule, paths := range rules {
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ingress.Spec.Rules = append(ingress.Spec.Rules, netv1.IngressRule{
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Host: rule,
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IngressRuleValue: netv1.IngressRuleValue{
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HTTP: &netv1.HTTPIngressRuleValue{
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Paths: paths,
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},
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},
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})
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}
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_, err := ingressClient.Create(context.Background(), &ingress, metav1.CreateOptions{})
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return err
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}
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// DeleteIngresses processes a K8sIngressDeleteRequest by deleting each ingress
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// in its given namespace.
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func (kcl *KubeClient) DeleteIngresses(reqs models.K8sIngressDeleteRequests) error {
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var err error
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for namespace := range reqs {
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for _, ingress := range reqs[namespace] {
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ingressClient := kcl.cli.NetworkingV1().Ingresses(namespace)
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err = ingressClient.Delete(
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context.Background(),
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ingress,
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metav1.DeleteOptions{},
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)
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}
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}
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return err
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}
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// UpdateIngress updates an existing ingress in a given namespace in a k8s endpoint.
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func (kcl *KubeClient) UpdateIngress(namespace string, info models.K8sIngressInfo) error {
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ingressClient := kcl.cli.NetworkingV1().Ingresses(namespace)
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var ingress netv1.Ingress
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ingress.Name = info.Name
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ingress.Namespace = info.Namespace
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ingress.Spec.IngressClassName = &info.ClassName
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ingress.Annotations = info.Annotations
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// Store TLS information.
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var tls []netv1.IngressTLS
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for _, i := range info.TLS {
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tls = append(tls, netv1.IngressTLS{
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Hosts: i.Hosts,
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SecretName: i.SecretName,
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})
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}
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ingress.Spec.TLS = tls
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// Parse "paths" into rules with paths.
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rules := make(map[string][]netv1.HTTPIngressPath)
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for _, path := range info.Paths {
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pathType := netv1.PathType(path.PathType)
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rules[path.Host] = append(rules[path.Host], netv1.HTTPIngressPath{
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Path: path.Path,
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PathType: &pathType,
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Backend: netv1.IngressBackend{
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Service: &netv1.IngressServiceBackend{
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Name: path.ServiceName,
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Port: netv1.ServiceBackendPort{
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Number: int32(path.Port),
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},
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},
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},
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})
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}
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for rule, paths := range rules {
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ingress.Spec.Rules = append(ingress.Spec.Rules, netv1.IngressRule{
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Host: rule,
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IngressRuleValue: netv1.IngressRuleValue{
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HTTP: &netv1.HTTPIngressRuleValue{
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Paths: paths,
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},
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},
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})
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}
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_, err := ingressClient.Update(context.Background(), &ingress, metav1.UpdateOptions{})
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return err
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}
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