cert-manager-webhook-example/main.go

package main

import (
	"encoding/json"
	"fmt"
	"os"

	extapi "k8s.io/apiextensions-apiserver/pkg/apis/apiextensions/v1beta1"
	//"k8s.io/client-go/kubernetes"
	"k8s.io/client-go/rest"

	"github.com/jetstack/cert-manager/pkg/acme/webhook/apis/acme/v1alpha1"
	"github.com/jetstack/cert-manager/pkg/acme/webhook/cmd"

	"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,
		&customDNSProviderSolver{},
	)
}

// customDNSProviderSolver 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 customDNSProviderSolver 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
}

// customDNSProviderConfig 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 customDNSProviderConfig 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"`

	APIKey string `json:"apikey"` //Api Key TODO: make this a secret ref and do a api get
	Server string `json:"server"` //Server Address

}

// 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 *customDNSProviderSolver) Name() string {
	return "powerdns"
}

// 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 *customDNSProviderSolver) Present(ch *v1alpha1.ChallengeRequest) error {
	cfg, err := loadConfig(ch.Config)
	if err != nil {
		return err
	}

	// TODO: do something more useful with the decoded configuration
	//fmt.Printf("Decoded configuration Key: %s, Server: %s\n", cfg.APIKey, cfg.Server)
	fmt.Printf("Presenting Record zone: %s, fqdn: %s, key: %s\n", ch.ResolvedZone, ch.ResolvedFQDN, ch.Key)

	//TODO: get a client using a secret + kubeapi
	pdns := powerdns.NewClient(cfg.Server, "", map[string]string{"X-API-Key": cfg.APIKey}, nil)

	//First Request RRSet and check if key+value exists. else add and set as new rrset.
	zone, err := pdns.Zones.Get(ch.ResolvedZone)
	if err != nil {
		fmt.Printf("Error Getting Zone: %v\n", err)
		return err
	}

	existing_keys := []string{}

	//Try find an Exsisting RRset - and record all the values.
	for _, r := range zone.RRsets {

		if *r.Name == ch.ResolvedFQDN && *r.Type == powerdns.RRTypeTXT {
			//check if the Record is already in the RRSET
			for _, record := range r.Records {
				if *record.Content == fmt.Sprintf(`"%s"`, ch.Key) {
					fmt.Printf("Challange Already in TXT Record. \n")
					return nil
				}
				existing_keys = append(existing_keys, *record.Content)
			}

		}
	}

	//Add the new key
	existing_keys = append(existing_keys, fmt.Sprintf(`"%s"`, ch.Key))
	err = pdns.Records.Change(ch.ResolvedZone, ch.ResolvedFQDN, powerdns.RRTypeTXT, 15, existing_keys)
	if err != nil {
		fmt.Printf("Error Adding Record: %+v\n", err)
		return err
	}

	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 *customDNSProviderSolver) CleanUp(ch *v1alpha1.ChallengeRequest) error {
	cfg, err := loadConfig(ch.Config)
	if err != nil {
		return err
	}

	//TODO: get a client using a secret + kubeapi
	pdns := powerdns.NewClient(cfg.Server, "", map[string]string{"X-API-Key": cfg.APIKey}, nil)
	zone, err := pdns.Zones.Get(ch.ResolvedZone)
	if err != nil {
		fmt.Printf("Error Getting Zone: %v\n", err)
		return err
	}

	remaining_keys := []string{}

	//Make a list of keys that should remain after this cleanup
	for _, r := range zone.RRsets {
		if *r.Name == ch.ResolvedFQDN && *r.Type == powerdns.RRTypeTXT {
			for _, record := range r.Records {
				//Remove the matching key
				if *record.Content != fmt.Sprintf(`"%s"`, ch.Key) {
					remaining_keys = append(remaining_keys, *record.Content)
				}
			}

		}
	}

	err = pdns.Records.Change(ch.ResolvedZone, ch.ResolvedFQDN, powerdns.RRTypeTXT, 15, remaining_keys)
	if err != nil {
		fmt.Printf("Error Removing Record: %v\n", err)
		return err
	}

	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 *customDNSProviderSolver) 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)
	//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) (customDNSProviderConfig, error) {
	cfg := customDNSProviderConfig{}
	// 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 {
		return cfg, fmt.Errorf("error decoding solver config: %v", err)
	}

	return cfg, nil
}