package kubernetes import ( "strings" "time" "github.com/micro/go-micro/runtime" "github.com/micro/go-micro/runtime/kubernetes/client" "github.com/micro/go-micro/util/log" ) type service struct { // service to manage *runtime.Service // Kubernetes service kservice *client.Service // Kubernetes deployment kdeploy *client.Deployment } func newService(s *runtime.Service, c runtime.CreateOptions) *service { // use pre-formatted name/version name := client.Format(s.Name) version := client.Format(s.Version) kservice := client.NewService(name, version) kdeploy := client.NewDeployment(name, version) // attach our values to the deployment; name, version, source kdeploy.Metadata.Annotations["name"] = s.Name kdeploy.Metadata.Annotations["version"] = s.Version kdeploy.Metadata.Annotations["source"] = s.Source // associate owner:group to be later augmented kdeploy.Metadata.Annotations["owner"] = "micro" kdeploy.Metadata.Annotations["group"] = "micro" // set a build timestamp to the current time if kdeploy.Spec.Template.Metadata.Annotations == nil { kdeploy.Spec.Template.Metadata.Annotations = make(map[string]string) } kdeploy.Spec.Template.Metadata.Annotations["build"] = time.Now().Format(time.RFC3339) // define the environment values used by the container env := make([]client.EnvVar, 0, len(c.Env)) for _, evar := range c.Env { evarPair := strings.Split(evar, "=") env = append(env, client.EnvVar{Name: evarPair[0], Value: evarPair[1]}) } // if environment has been supplied update deployment default environment if len(env) > 0 { kdeploy.Spec.Template.PodSpec.Containers[0].Env = append(kdeploy.Spec.Template.PodSpec.Containers[0].Env, env...) } // if Exec/Command has been supplied override the default command if len(s.Exec) > 0 { kdeploy.Spec.Template.PodSpec.Containers[0].Command = s.Exec } else if len(c.Command) > 0 { kdeploy.Spec.Template.PodSpec.Containers[0].Command = c.Command } else if len(s.Source) > 0 { // default command for our k8s service should be source kdeploy.Spec.Template.PodSpec.Containers[0].Command = []string{"go", "run", s.Source} } return &service{ Service: s, kservice: kservice, kdeploy: kdeploy, } } func deploymentResource(d *client.Deployment) *client.Resource { return &client.Resource{ Name: d.Metadata.Name, Kind: "deployment", Value: d, } } func serviceResource(s *client.Service) *client.Resource { return &client.Resource{ Name: s.Metadata.Name, Kind: "service", Value: s, } } // Start starts the Kubernetes service. It creates new kubernetes deployment and service API objects func (s *service) Start(k client.Kubernetes) error { // create deployment first; if we fail, we dont create service if err := k.Create(deploymentResource(s.kdeploy)); err != nil { log.Debugf("Runtime failed to create deployment: %v", err) return err } // create service now that the deployment has been created if err := k.Create(serviceResource(s.kservice)); err != nil { log.Debugf("Runtime failed to create service: %v", err) return err } return nil } func (s *service) Stop(k client.Kubernetes) error { // first attempt to delete service if err := k.Delete(serviceResource(s.kservice)); err != nil { log.Debugf("Runtime failed to delete service: %v", err) return err } // delete deployment once the service has been deleted if err := k.Delete(deploymentResource(s.kdeploy)); err != nil { log.Debugf("Runtime failed to delete deployment: %v", err) return err } return nil } func (s *service) Update(k client.Kubernetes) error { if err := k.Update(deploymentResource(s.kdeploy)); err != nil { log.Debugf("Runtime failed to update deployment: %v", err) return err } if err := k.Update(serviceResource(s.kservice)); err != nil { log.Debugf("Runtime failed to update service: %v", err) return err } return nil }