package main import ( "context" "encoding/json" "fmt" "os" extapi "k8s.io/apiextensions-apiserver/pkg/apis/apiextensions/v1beta1" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/client-go/kubernetes" "k8s.io/client-go/rest" "k8s.io/klog" "github.com/jetstack/cert-manager/pkg/acme/webhook/apis/acme/v1alpha1" "github.com/jetstack/cert-manager/pkg/acme/webhook/cmd" "github.com/lordofsystem/cert-manager-webhook-powerdns/internal" "github.com/joeig/go-powerdns/v2" ) var GroupName = os.Getenv("GROUP_NAME") func main() { if GroupName == "" { panic("GROUP_NAME must be specified") } // This will register our custom DNS provider with the webhook serving // library, making it available as an API under the provided GroupName. // You can register multiple DNS provider implementations with a single // webhook, where the Name() method will be used to disambiguate between // the different implementations. cmd.RunWebhookServer(GroupName, &pdnsDNSProviderSolver{}, ) } // pdnsDNSProviderSolver implements the provider-specific logic needed to // 'present' an ACME challenge TXT record for your own DNS provider. // To do so, it must implement the `github.com/jetstack/cert-manager/pkg/acme/webhook.Solver` // interface. type pdnsDNSProviderSolver struct { // If a Kubernetes 'clientset' is needed, you must: // 1. uncomment the additional `client` field in this structure below // 2. uncomment the "k8s.io/client-go/kubernetes" import at the top of the file // 3. uncomment the relevant code in the Initialize method below // 4. ensure your webhook's service account has the required RBAC role // assigned to it for interacting with the Kubernetes APIs you need. client *kubernetes.Clientset } // pdnsDNSProviderConfig is a structure that is used to decode into when // solving a DNS01 challenge. // This information is provided by cert-manager, and may be a reference to // additional configuration that's needed to solve the challenge for this // particular certificate or issuer. // This typically includes references to Secret resources containing DNS // provider credentials, in cases where a 'multi-tenant' DNS solver is being // created. // If you do *not* require per-issuer or per-certificate configuration to be // provided to your webhook, you can skip decoding altogether in favour of // using CLI flags or similar to provide configuration. // You should not include sensitive information here. If credentials need to // be used by your provider here, you should reference a Kubernetes Secret // resource and fetch these credentials using a Kubernetes clientset. type pdnsDNSProviderConfig struct { // Change the two fields below according to the format of the configuration // to be decoded. // These fields will be set by users in the // `issuer.spec.acme.dns01.providers.webhook.config` field. //Email string `json:"email"` //APIKeySecretRef v1alpha1.SecretKeySelector `json:"apiKeySecretRef"` SecretRef string `json:"secretName"` ZoneName string `json:"zoneName"` ServerName string `json:"server"` ApiUrl string `json:"apiUrl"` } // Name is used as the name for this DNS solver when referencing it on the ACME // Issuer resource. // This should be unique **within the group name**, i.e. you can have two // solvers configured with the same Name() **so long as they do not co-exist // within a single webhook deployment**. // For example, `cloudflare` may be used as the name of a solver. func (c *pdnsDNSProviderSolver) Name() string { return "pdns" } // Present is responsible for actually presenting the DNS record with the // DNS provider. // This method should tolerate being called multiple times with the same value. // cert-manager itself will later perform a self check to ensure that the // solver has correctly configured the DNS provider. func (c *pdnsDNSProviderSolver) Present(ch *v1alpha1.ChallengeRequest) error { klog.Infof("call function Present: namespace=%s, zone=%s, fqdn=%s", ch.ResourceNamespace, ch.ResolvedZone, ch.ResolvedFQDN) config, err := clientConfig(c, ch) key := fmt.Sprintf("\"%s\"", ch.Key) if err != nil { klog.Errorf("unable to get secret `%s`; %v", ch.ResourceNamespace, err) } pdns := powerdns.NewClient(config.ApiUrl, config.ServerName, map[string]string{"X-API-Key": config.ApiKey}, nil) p_err := pdns.Records.Add(config.ZoneName, ch.ResolvedFQDN, powerdns.RRTypeTXT, 120, []string{key}) if p_err != nil { klog.Errorf("Pdns client error: %v", p_err) } klog.Infof("Presented txt record %v", ch.ResolvedFQDN) return nil } // CleanUp should delete the relevant TXT record from the DNS provider console. // If multiple TXT records exist with the same record name (e.g. // _acme-challenge.example.com) then **only** the record with the same `key` // value provided on the ChallengeRequest should be cleaned up. // This is in order to facilitate multiple DNS validations for the same domain // concurrently. func (c *pdnsDNSProviderSolver) CleanUp(ch *v1alpha1.ChallengeRequest) error { // TODO: add code that deletes a record from the DNS provider's console config, err := clientConfig(c, ch) if err != nil { klog.Errorf("unable to get secret `%s`; %v", ch.ResourceNamespace, err) } pdns := powerdns.NewClient(config.ApiUrl, config.ServerName, map[string]string{"X-API-Key": config.ApiKey}, nil) p_err := pdns.Records.Delete(config.ZoneName, ch.ResolvedFQDN, powerdns.RRTypeTXT) if p_err != nil { klog.Error(p_err) } klog.Infof("Delete TXT record result: %s", ch.ResolvedFQDN) return nil } // Initialize will be called when the webhook first starts. // This method can be used to instantiate the webhook, i.e. initialising // connections or warming up caches. // Typically, the kubeClientConfig parameter is used to build a Kubernetes // client that can be used to fetch resources from the Kubernetes API, e.g. // Secret resources containing credentials used to authenticate with DNS // provider accounts. // The stopCh can be used to handle early termination of the webhook, in cases // where a SIGTERM or similar signal is sent to the webhook process. func (c *pdnsDNSProviderSolver) Initialize(kubeClientConfig *rest.Config, stopCh <-chan struct{}) error { ///// UNCOMMENT THE BELOW CODE TO MAKE A KUBERNETES CLIENTSET AVAILABLE TO ///// YOUR CUSTOM DNS PROVIDER cl, err := kubernetes.NewForConfig(kubeClientConfig) klog.V(6).Infof("Input variable stopCh is %d length", len(stopCh)) if err != nil { return err } c.client = cl ///// END OF CODE TO MAKE KUBERNETES CLIENTSET AVAILABLE return nil } // loadConfig is a small helper function that decodes JSON configuration into // the typed config struct. func loadConfig(cfgJSON *extapi.JSON) (pdnsDNSProviderConfig, error) { cfg := pdnsDNSProviderConfig{} // handle the 'base case' where no configuration has been provided if cfgJSON == nil { return cfg, nil } if err := json.Unmarshal(cfgJSON.Raw, &cfg); err != nil { klog.Errorf("error decoding solver config: %v", err) return cfg, fmt.Errorf("error decoding solver config: %v", err) } return cfg, nil } func stringFromSecretData(secretData *map[string][]byte, key string) (string, error) { data, ok := (*secretData)[key] if !ok { return "", fmt.Errorf("key %q not found in secret data", key) } return string(data), nil } func clientConfig(c *pdnsDNSProviderSolver, ch *v1alpha1.ChallengeRequest) (internal.Config, error) { var config internal.Config cfg, err := loadConfig(ch.Config) if err != nil { return config, err } config.ZoneName = cfg.ZoneName config.ApiUrl = cfg.ApiUrl config.ServerName = cfg.ServerName secretName := cfg.SecretRef sec, err := c.client.CoreV1().Secrets(ch.ResourceNamespace).Get(context.Background(), secretName, metav1.GetOptions{}) if err != nil { return config, fmt.Errorf("unable to get secret `%s/%s`; %v", secretName, ch.ResourceNamespace, err) } apiKey, err := stringFromSecretData(&sec.Data, "api-key") config.ApiKey = apiKey if err != nil { return config, fmt.Errorf("unable to get api-key from secret `%s/%s`; %v", secretName, ch.ResourceNamespace, err) } return config, nil }