ContainerImage.Pinniped/internal/controller/impersonatorconfig/impersonator_config.go

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// Copyright 2021 the Pinniped contributors. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package impersonatorconfig
import (
"context"
"crypto/tls"
"crypto/x509"
"crypto/x509/pkix"
"encoding/base64"
"encoding/pem"
"fmt"
"net"
"strings"
"time"
v1 "k8s.io/api/core/v1"
k8serrors "k8s.io/apimachinery/pkg/api/errors"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/util/clock"
"k8s.io/apimachinery/pkg/util/errors"
"k8s.io/apimachinery/pkg/util/intstr"
"k8s.io/apimachinery/pkg/util/sets"
corev1informers "k8s.io/client-go/informers/core/v1"
"k8s.io/client-go/kubernetes"
"go.pinniped.dev/generated/latest/apis/concierge/config/v1alpha1"
pinnipedclientset "go.pinniped.dev/generated/latest/client/concierge/clientset/versioned"
"go.pinniped.dev/internal/certauthority"
"go.pinniped.dev/internal/clusterhost"
"go.pinniped.dev/internal/concierge/impersonator"
"go.pinniped.dev/internal/constable"
pinnipedcontroller "go.pinniped.dev/internal/controller"
"go.pinniped.dev/internal/controller/apicerts"
"go.pinniped.dev/internal/controller/issuerconfig"
"go.pinniped.dev/internal/controllerlib"
"go.pinniped.dev/internal/dynamiccert"
"go.pinniped.dev/internal/plog"
)
const (
impersonationProxyPort = 8444
defaultHTTPSPort = 443
oneHundredYears = 100 * 365 * 24 * time.Hour
caCommonName = "Pinniped Impersonation Proxy CA"
caCrtKey = "ca.crt"
caKeyKey = "ca.key"
appLabelKey = "app"
)
type impersonatorConfigController struct {
namespace string
configMapResourceName string
credentialIssuerResourceName string
generatedLoadBalancerServiceName string
tlsSecretName string
caSecretName string
impersonationSignerSecretName string
k8sClient kubernetes.Interface
pinnipedAPIClient pinnipedclientset.Interface
configMapsInformer corev1informers.ConfigMapInformer
servicesInformer corev1informers.ServiceInformer
secretsInformer corev1informers.SecretInformer
labels map[string]string
clock clock.Clock
impersonationSigningCertProvider dynamiccert.Provider
impersonatorFunc impersonator.FactoryFunc
hasControlPlaneNodes *bool
serverStopCh chan struct{}
errorCh chan error
tlsServingCertDynamicCertProvider dynamiccert.Provider
}
func NewImpersonatorConfigController(
namespace string,
configMapResourceName string,
credentialIssuerResourceName string,
k8sClient kubernetes.Interface,
pinnipedAPIClient pinnipedclientset.Interface,
configMapsInformer corev1informers.ConfigMapInformer,
servicesInformer corev1informers.ServiceInformer,
secretsInformer corev1informers.SecretInformer,
withInformer pinnipedcontroller.WithInformerOptionFunc,
withInitialEvent pinnipedcontroller.WithInitialEventOptionFunc,
generatedLoadBalancerServiceName string,
tlsSecretName string,
caSecretName string,
labels map[string]string,
clock clock.Clock,
impersonatorFunc impersonator.FactoryFunc,
impersonationSignerSecretName string,
impersonationSigningCertProvider dynamiccert.Provider,
) controllerlib.Controller {
secretNames := sets.NewString(tlsSecretName, caSecretName, impersonationSignerSecretName)
return controllerlib.New(
controllerlib.Config{
Name: "impersonator-config-controller",
Syncer: &impersonatorConfigController{
namespace: namespace,
configMapResourceName: configMapResourceName,
credentialIssuerResourceName: credentialIssuerResourceName,
generatedLoadBalancerServiceName: generatedLoadBalancerServiceName,
tlsSecretName: tlsSecretName,
caSecretName: caSecretName,
impersonationSignerSecretName: impersonationSignerSecretName,
k8sClient: k8sClient,
pinnipedAPIClient: pinnipedAPIClient,
configMapsInformer: configMapsInformer,
servicesInformer: servicesInformer,
secretsInformer: secretsInformer,
labels: labels,
clock: clock,
impersonationSigningCertProvider: impersonationSigningCertProvider,
impersonatorFunc: impersonatorFunc,
tlsServingCertDynamicCertProvider: dynamiccert.New("impersonation-proxy-serving-cert"),
},
},
withInformer(
configMapsInformer,
pinnipedcontroller.NameAndNamespaceExactMatchFilterFactory(configMapResourceName, namespace),
controllerlib.InformerOption{},
),
withInformer(
servicesInformer,
pinnipedcontroller.NameAndNamespaceExactMatchFilterFactory(generatedLoadBalancerServiceName, namespace),
controllerlib.InformerOption{},
),
withInformer(
secretsInformer,
pinnipedcontroller.SimpleFilter(func(obj metav1.Object) bool {
return obj.GetNamespace() == namespace && secretNames.Has(obj.GetName())
}, nil),
controllerlib.InformerOption{},
),
// Be sure to run once even if the ConfigMap that the informer is watching doesn't exist so we can implement
// the default configuration behavior.
withInitialEvent(controllerlib.Key{
Namespace: namespace,
Name: configMapResourceName,
}),
// TODO fix these controller options to make this a singleton queue
)
}
func (c *impersonatorConfigController) Sync(syncCtx controllerlib.Context) error {
plog.Debug("Starting impersonatorConfigController Sync")
strategy, err := c.doSync(syncCtx)
if err != nil {
strategy = &v1alpha1.CredentialIssuerStrategy{
Type: v1alpha1.ImpersonationProxyStrategyType,
Status: v1alpha1.ErrorStrategyStatus,
Reason: v1alpha1.ErrorDuringSetupStrategyReason,
Message: err.Error(),
LastUpdateTime: metav1.NewTime(c.clock.Now()),
}
// The impersonator is not ready, so clear the signer CA from the dynamic provider.
c.clearSignerCA()
}
updateStrategyErr := c.updateStrategy(syncCtx.Context, strategy)
if updateStrategyErr != nil {
plog.Error("error while updating the CredentialIssuer status", err)
if err == nil {
err = updateStrategyErr
}
}
if err == nil {
plog.Debug("Successfully finished impersonatorConfigController Sync")
}
return err
}
type certNameInfo struct {
// ready will be true when the certificate name information is known.
// ready will be false when it is pending because we are waiting for a load balancer to get assigned an ip/hostname.
// When false, the other fields in this struct should not be considered meaningful and may be zero values.
ready bool
// The IP address or hostname which was selected to be used as the name in the cert.
// Either selectedIP or selectedHostname will be set, but not both.
selectedIP net.IP
selectedHostname string
// The name of the endpoint to which a client should connect to talk to the impersonator.
// This may be a hostname or an IP, and may include a port number.
clientEndpoint string
}
func (c *impersonatorConfigController) doSync(syncCtx controllerlib.Context) (*v1alpha1.CredentialIssuerStrategy, error) {
ctx := syncCtx.Context
config, err := c.loadImpersonationProxyConfiguration()
if err != nil {
return nil, err
}
// Make a live API call to avoid the cost of having an informer watch all node changes on the cluster,
// since there could be lots and we don't especially care about node changes.
// Once we have concluded that there is or is not a visible control plane, then cache that decision
// to avoid listing nodes very often.
if c.hasControlPlaneNodes == nil {
hasControlPlaneNodes, err := clusterhost.New(c.k8sClient).HasControlPlaneNodes(ctx)
if err != nil {
return nil, err
}
c.hasControlPlaneNodes = &hasControlPlaneNodes
plog.Debug("Queried for control plane nodes", "foundControlPlaneNodes", hasControlPlaneNodes)
}
if c.shouldHaveImpersonator(config) {
if err = c.ensureImpersonatorIsStarted(syncCtx); err != nil {
return nil, err
}
} else {
if err = c.ensureImpersonatorIsStopped(true); err != nil {
return nil, err // TODO write unit test that errors during stopping the server are returned by sync
}
}
if c.shouldHaveLoadBalancer(config) {
if err = c.ensureLoadBalancerIsStarted(ctx); err != nil {
return nil, err
}
} else {
if err = c.ensureLoadBalancerIsStopped(ctx); err != nil {
return nil, err
}
}
nameInfo, err := c.findDesiredTLSCertificateName(config)
if err != nil {
// Unexpected error while determining the name that should go into the certs, so clear any existing certs.
c.tlsServingCertDynamicCertProvider.UnsetCertKeyContent()
return nil, err
}
var impersonationCA *certauthority.CA
if c.shouldHaveTLSSecret(config) {
if impersonationCA, err = c.ensureCASecretIsCreated(ctx); err != nil {
return nil, err
}
if err = c.ensureTLSSecret(ctx, nameInfo, impersonationCA); err != nil {
return nil, err
}
} else if err = c.ensureTLSSecretIsRemoved(ctx); err != nil {
return nil, err
}
credentialIssuerStrategyResult := c.doSyncResult(nameInfo, config, impersonationCA)
if err = c.loadSignerCA(credentialIssuerStrategyResult.Status); err != nil {
return nil, err
}
return credentialIssuerStrategyResult, nil
}
func (c *impersonatorConfigController) loadImpersonationProxyConfiguration() (*impersonator.Config, error) {
configMap, err := c.configMapsInformer.Lister().ConfigMaps(c.namespace).Get(c.configMapResourceName)
notFound := k8serrors.IsNotFound(err)
if err != nil && !notFound {
return nil, fmt.Errorf("failed to get %s/%s configmap: %w", c.namespace, c.configMapResourceName, err)
}
var config *impersonator.Config
if notFound {
plog.Info("Did not find impersonation proxy config: using default config values",
"configmap", c.configMapResourceName,
"namespace", c.namespace,
)
config = impersonator.NewConfig() // use default configuration options
} else {
config, err = impersonator.ConfigFromConfigMap(configMap)
if err != nil {
return nil, fmt.Errorf("invalid impersonator configuration: %v", err)
}
plog.Info("Read impersonation proxy config",
"configmap", c.configMapResourceName,
"namespace", c.namespace,
)
}
return config, nil
}
func (c *impersonatorConfigController) shouldHaveImpersonator(config *impersonator.Config) bool {
return c.enabledByAutoMode(config) || config.Mode == impersonator.ModeEnabled
}
func (c *impersonatorConfigController) enabledByAutoMode(config *impersonator.Config) bool {
return config.Mode == impersonator.ModeAuto && !*c.hasControlPlaneNodes
}
func (c *impersonatorConfigController) disabledByAutoMode(config *impersonator.Config) bool {
return config.Mode == impersonator.ModeAuto && *c.hasControlPlaneNodes
}
func (c *impersonatorConfigController) disabledExplicitly(config *impersonator.Config) bool {
return config.Mode == impersonator.ModeDisabled
}
func (c *impersonatorConfigController) shouldHaveLoadBalancer(config *impersonator.Config) bool {
return c.shouldHaveImpersonator(config) && !config.HasEndpoint()
}
func (c *impersonatorConfigController) shouldHaveTLSSecret(config *impersonator.Config) bool {
return c.shouldHaveImpersonator(config)
}
func (c *impersonatorConfigController) updateStrategy(ctx context.Context, strategy *v1alpha1.CredentialIssuerStrategy) error {
return issuerconfig.UpdateStrategy(ctx, c.credentialIssuerResourceName, c.labels, c.pinnipedAPIClient, *strategy)
}
func (c *impersonatorConfigController) loadBalancerExists() (bool, error) {
_, err := c.servicesInformer.Lister().Services(c.namespace).Get(c.generatedLoadBalancerServiceName)
notFound := k8serrors.IsNotFound(err)
if notFound {
return false, nil
}
if err != nil {
return false, err
}
return true, nil
}
func (c *impersonatorConfigController) tlsSecretExists() (bool, *v1.Secret, error) {
secret, err := c.secretsInformer.Lister().Secrets(c.namespace).Get(c.tlsSecretName)
notFound := k8serrors.IsNotFound(err)
if notFound {
return false, nil, nil
}
if err != nil {
return false, nil, err
}
return true, secret, nil
}
func (c *impersonatorConfigController) ensureImpersonatorIsStarted(syncCtx controllerlib.Context) error {
if c.serverStopCh != nil {
// The server was already started, but it could have died in the background, so make a non-blocking
// check to see if it has sent any errors on the errorCh.
select {
case runningErr := <-c.errorCh:
if runningErr == nil {
// The server sent a nil error, meaning that it shutdown without reporting any particular
// error for some reason. We would still like to report this as an error for logging purposes.
runningErr = constable.Error("unexpected shutdown of proxy server")
}
// The server has stopped, so finish shutting it down.
// If that fails too, return both errors for logging purposes.
// By returning an error, the sync function will be called again
// and we'll have a chance to restart the server.
close(c.errorCh) // We don't want ensureImpersonatorIsStopped to block on reading this channel.
stoppingErr := c.ensureImpersonatorIsStopped(false)
return errors.NewAggregate([]error{runningErr, stoppingErr})
default:
// Seems like it is still running, so nothing to do.
return nil
}
}
plog.Info("Starting impersonation proxy", "port", impersonationProxyPort)
startImpersonatorFunc, err := c.impersonatorFunc(
impersonationProxyPort,
c.tlsServingCertDynamicCertProvider,
c.impersonationSigningCertProvider,
)
if err != nil {
return err
}
c.serverStopCh = make(chan struct{})
// use a buffered channel so that startImpersonatorFunc can send
// on it without coordinating with the main controller go routine
c.errorCh = make(chan error, 1)
// startImpersonatorFunc will block until the server shuts down (or fails to start), so run it in the background.
go func() {
// The server has stopped, so enqueue ourselves for another sync,
// so we can try to start the server again as quickly as possible.
defer syncCtx.Queue.AddRateLimited(syncCtx.Key)
// Forward any errors returned by startImpersonatorFunc on the errorCh.
c.errorCh <- startImpersonatorFunc(c.serverStopCh)
}()
return nil
}
func (c *impersonatorConfigController) ensureImpersonatorIsStopped(shouldCloseErrChan bool) error {
if c.serverStopCh == nil {
return nil
}
plog.Info("Stopping impersonation proxy", "port", impersonationProxyPort)
close(c.serverStopCh)
stopErr := <-c.errorCh
if shouldCloseErrChan {
close(c.errorCh)
}
c.serverStopCh = nil
c.errorCh = nil
return stopErr
}
func (c *impersonatorConfigController) ensureLoadBalancerIsStarted(ctx context.Context) error {
running, err := c.loadBalancerExists()
if err != nil {
return err
}
if running {
return nil
}
appNameLabel := c.labels[appLabelKey]
loadBalancer := v1.Service{
Spec: v1.ServiceSpec{
Type: v1.ServiceTypeLoadBalancer,
Ports: []v1.ServicePort{
{
TargetPort: intstr.FromInt(impersonationProxyPort),
Port: defaultHTTPSPort,
Protocol: v1.ProtocolTCP,
},
},
Selector: map[string]string{appLabelKey: appNameLabel},
},
ObjectMeta: metav1.ObjectMeta{
Name: c.generatedLoadBalancerServiceName,
Namespace: c.namespace,
Labels: c.labels,
},
}
plog.Info("creating load balancer for impersonation proxy",
"service", c.generatedLoadBalancerServiceName,
"namespace", c.namespace)
_, err = c.k8sClient.CoreV1().Services(c.namespace).Create(ctx, &loadBalancer, metav1.CreateOptions{})
return err
}
func (c *impersonatorConfigController) ensureLoadBalancerIsStopped(ctx context.Context) error {
running, err := c.loadBalancerExists()
if err != nil {
return err
}
if !running {
return nil
}
plog.Info("Deleting load balancer for impersonation proxy",
"service", c.generatedLoadBalancerServiceName,
"namespace", c.namespace)
return c.k8sClient.CoreV1().Services(c.namespace).Delete(ctx, c.generatedLoadBalancerServiceName, metav1.DeleteOptions{})
}
func (c *impersonatorConfigController) ensureTLSSecret(ctx context.Context, nameInfo *certNameInfo, ca *certauthority.CA) error {
secretFromInformer, err := c.secretsInformer.Lister().Secrets(c.namespace).Get(c.tlsSecretName)
notFound := k8serrors.IsNotFound(err)
if !notFound && err != nil {
return err
}
if !notFound {
secretWasDeleted, err := c.deleteTLSSecretWhenCertificateDoesNotMatchDesiredState(ctx, nameInfo, ca, secretFromInformer)
if err != nil {
return err
}
// If it was deleted by the above call, then set it to nil. This allows us to avoid waiting
// for the informer cache to update before deciding to proceed to create the new Secret below.
if secretWasDeleted {
secretFromInformer = nil
}
}
return c.ensureTLSSecretIsCreatedAndLoaded(ctx, nameInfo, secretFromInformer, ca)
}
func (c *impersonatorConfigController) deleteTLSSecretWhenCertificateDoesNotMatchDesiredState(ctx context.Context, nameInfo *certNameInfo, ca *certauthority.CA, secret *v1.Secret) (bool, error) {
certPEM := secret.Data[v1.TLSCertKey]
block, _ := pem.Decode(certPEM)
if block == nil {
plog.Warning("Found missing or not PEM-encoded data in TLS Secret",
"invalidCertPEM", string(certPEM),
"secret", c.tlsSecretName,
"namespace", c.namespace)
deleteErr := c.ensureTLSSecretIsRemoved(ctx)
if deleteErr != nil {
return false, fmt.Errorf("found missing or not PEM-encoded data in TLS Secret, but got error while deleting it: %w", deleteErr)
}
return true, nil
}
actualCertFromSecret, err := x509.ParseCertificate(block.Bytes)
if err != nil {
plog.Error("Found invalid PEM data in TLS Secret", err,
"invalidCertPEM", string(certPEM),
"secret", c.tlsSecretName,
"namespace", c.namespace)
if err = c.ensureTLSSecretIsRemoved(ctx); err != nil {
return false, fmt.Errorf("PEM data represented an invalid cert, but got error while deleting it: %w", err)
}
return true, nil
}
keyPEM := secret.Data[v1.TLSPrivateKeyKey]
_, err = tls.X509KeyPair(certPEM, keyPEM)
if err != nil {
plog.Error("Found invalid private key PEM data in TLS Secret", err,
"secret", c.tlsSecretName,
"namespace", c.namespace)
if err = c.ensureTLSSecretIsRemoved(ctx); err != nil {
return false, fmt.Errorf("cert had an invalid private key, but got error while deleting it: %w", err)
}
return true, nil
}
opts := x509.VerifyOptions{Roots: ca.Pool()}
if _, err = actualCertFromSecret.Verify(opts); err != nil {
// The TLS cert was not signed by the current CA. Since they are mismatched, delete the TLS cert
// so we can recreate it using the current CA.
if err = c.ensureTLSSecretIsRemoved(ctx); err != nil {
return false, err
}
return true, nil
}
if !nameInfo.ready {
// We currently have a secret but we are waiting for a load balancer to be assigned an ingress, so
// our current secret must be old/unwanted.
if err = c.ensureTLSSecretIsRemoved(ctx); err != nil {
return false, err
}
return true, nil
}
actualIPs := actualCertFromSecret.IPAddresses
actualHostnames := actualCertFromSecret.DNSNames
plog.Info("Checking TLS certificate names",
"desiredIP", nameInfo.selectedIP,
"desiredHostname", nameInfo.selectedHostname,
"actualIPs", actualIPs,
"actualHostnames", actualHostnames,
"secret", c.tlsSecretName,
"namespace", c.namespace)
if certHostnameAndIPMatchDesiredState(nameInfo.selectedIP, actualIPs, nameInfo.selectedHostname, actualHostnames) {
// The cert already matches the desired state, so there is no need to delete/recreate it.
return false, nil
}
if err = c.ensureTLSSecretIsRemoved(ctx); err != nil {
return false, err
}
return true, nil
}
func certHostnameAndIPMatchDesiredState(desiredIP net.IP, actualIPs []net.IP, desiredHostname string, actualHostnames []string) bool {
if desiredIP != nil && len(actualIPs) == 1 && desiredIP.Equal(actualIPs[0]) && len(actualHostnames) == 0 {
return true
}
if desiredHostname != "" && len(actualHostnames) == 1 && desiredHostname == actualHostnames[0] && len(actualIPs) == 0 {
return true
}
return false
}
func (c *impersonatorConfigController) ensureTLSSecretIsCreatedAndLoaded(ctx context.Context, nameInfo *certNameInfo, secret *v1.Secret, ca *certauthority.CA) error {
if secret != nil {
err := c.loadTLSCertFromSecret(secret)
if err != nil {
return err
}
return nil
}
if !nameInfo.ready {
return nil
}
newTLSSecret, err := c.createNewTLSSecret(ctx, ca, nameInfo.selectedIP, nameInfo.selectedHostname)
if err != nil {
return err
}
err = c.loadTLSCertFromSecret(newTLSSecret)
if err != nil {
return err
}
return nil
}
func (c *impersonatorConfigController) ensureCASecretIsCreated(ctx context.Context) (*certauthority.CA, error) {
caSecret, err := c.secretsInformer.Lister().Secrets(c.namespace).Get(c.caSecretName)
if err != nil && !k8serrors.IsNotFound(err) {
return nil, err
}
var impersonationCA *certauthority.CA
if k8serrors.IsNotFound(err) {
impersonationCA, err = c.createCASecret(ctx)
} else {
crtBytes := caSecret.Data[caCrtKey]
keyBytes := caSecret.Data[caKeyKey]
impersonationCA, err = certauthority.Load(string(crtBytes), string(keyBytes))
}
if err != nil {
return nil, err
}
return impersonationCA, nil
}
func (c *impersonatorConfigController) createCASecret(ctx context.Context) (*certauthority.CA, error) {
impersonationCA, err := certauthority.New(pkix.Name{CommonName: caCommonName}, oneHundredYears)
if err != nil {
return nil, fmt.Errorf("could not create impersonation CA: %w", err)
}
caPrivateKeyPEM, err := impersonationCA.PrivateKeyToPEM()
if err != nil {
return nil, err
}
secret := v1.Secret{
ObjectMeta: metav1.ObjectMeta{
Name: c.caSecretName,
Namespace: c.namespace,
Labels: c.labels,
},
Data: map[string][]byte{
caCrtKey: impersonationCA.Bundle(),
caKeyKey: caPrivateKeyPEM,
},
Type: v1.SecretTypeOpaque,
}
plog.Info("Creating CA certificates for impersonation proxy",
"secret", c.caSecretName,
"namespace", c.namespace)
if _, err = c.k8sClient.CoreV1().Secrets(c.namespace).Create(ctx, &secret, metav1.CreateOptions{}); err != nil {
return nil, err
}
return impersonationCA, nil
}
func (c *impersonatorConfigController) findDesiredTLSCertificateName(config *impersonator.Config) (*certNameInfo, error) {
if config.HasEndpoint() {
return c.findTLSCertificateNameFromEndpointConfig(config), nil
}
return c.findTLSCertificateNameFromLoadBalancer()
}
func (c *impersonatorConfigController) findTLSCertificateNameFromEndpointConfig(config *impersonator.Config) *certNameInfo {
endpointMaybeWithPort := config.Endpoint
endpointWithoutPort := strings.Split(endpointMaybeWithPort, ":")[0]
parsedAsIP := net.ParseIP(endpointWithoutPort)
if parsedAsIP != nil {
return &certNameInfo{ready: true, selectedIP: parsedAsIP, clientEndpoint: endpointMaybeWithPort}
}
return &certNameInfo{ready: true, selectedHostname: endpointWithoutPort, clientEndpoint: endpointMaybeWithPort}
}
func (c *impersonatorConfigController) findTLSCertificateNameFromLoadBalancer() (*certNameInfo, error) {
lb, err := c.servicesInformer.Lister().Services(c.namespace).Get(c.generatedLoadBalancerServiceName)
notFound := k8serrors.IsNotFound(err)
if notFound {
// We aren't ready and will try again later in this case.
return &certNameInfo{ready: false}, nil
}
if err != nil {
return nil, err
}
ingresses := lb.Status.LoadBalancer.Ingress
if len(ingresses) == 0 || (ingresses[0].Hostname == "" && ingresses[0].IP == "") {
plog.Info("load balancer for impersonation proxy does not have an ingress yet, so skipping tls cert generation while we wait",
"service", c.generatedLoadBalancerServiceName,
"namespace", c.namespace)
return &certNameInfo{ready: false}, nil
}
for _, ingress := range ingresses {
hostname := ingress.Hostname
if hostname != "" {
return &certNameInfo{ready: true, selectedHostname: hostname, clientEndpoint: hostname}, nil
}
}
for _, ingress := range ingresses {
ip := ingress.IP
parsedIP := net.ParseIP(ip)
if parsedIP != nil {
return &certNameInfo{ready: true, selectedIP: parsedIP, clientEndpoint: ip}, nil
}
}
return nil, fmt.Errorf("could not find valid IP addresses or hostnames from load balancer %s/%s", c.namespace, lb.Name)
}
func (c *impersonatorConfigController) createNewTLSSecret(ctx context.Context, ca *certauthority.CA, ip net.IP, hostname string) (*v1.Secret, error) {
var hostnames []string
var ips []net.IP
if hostname != "" {
hostnames = []string{hostname}
}
if ip != nil {
ips = []net.IP{ip}
}
impersonationCert, err := ca.Issue(pkix.Name{}, hostnames, ips, oneHundredYears)
if err != nil {
return nil, fmt.Errorf("could not create impersonation cert: %w", err)
}
certPEM, keyPEM, err := certauthority.ToPEM(impersonationCert)
if err != nil {
return nil, err
}
newTLSSecret := &v1.Secret{
ObjectMeta: metav1.ObjectMeta{
Name: c.tlsSecretName,
Namespace: c.namespace,
Labels: c.labels,
},
Data: map[string][]byte{
v1.TLSPrivateKeyKey: keyPEM,
v1.TLSCertKey: certPEM,
},
Type: v1.SecretTypeTLS,
}
plog.Info("Creating TLS certificates for impersonation proxy",
"ips", ips,
"hostnames", hostnames,
"secret", c.tlsSecretName,
"namespace", c.namespace)
return c.k8sClient.CoreV1().Secrets(c.namespace).Create(ctx, newTLSSecret, metav1.CreateOptions{})
}
func (c *impersonatorConfigController) loadTLSCertFromSecret(tlsSecret *v1.Secret) error {
certPEM := tlsSecret.Data[v1.TLSCertKey]
keyPEM := tlsSecret.Data[v1.TLSPrivateKeyKey]
if err := c.tlsServingCertDynamicCertProvider.SetCertKeyContent(certPEM, keyPEM); err != nil {
c.tlsServingCertDynamicCertProvider.UnsetCertKeyContent()
return fmt.Errorf("could not parse TLS cert PEM data from Secret: %w", err)
}
plog.Info("Loading TLS certificates for impersonation proxy",
"certPEM", string(certPEM),
"secret", c.tlsSecretName,
"namespace", c.namespace)
return nil
}
func (c *impersonatorConfigController) ensureTLSSecretIsRemoved(ctx context.Context) error {
tlsSecretExists, _, err := c.tlsSecretExists()
if err != nil {
return err
}
if !tlsSecretExists {
return nil
}
plog.Info("Deleting TLS certificates for impersonation proxy",
"secret", c.tlsSecretName,
"namespace", c.namespace)
err = c.k8sClient.CoreV1().Secrets(c.namespace).Delete(ctx, c.tlsSecretName, metav1.DeleteOptions{})
if err != nil {
return err
}
c.tlsServingCertDynamicCertProvider.UnsetCertKeyContent()
return nil
}
func (c *impersonatorConfigController) loadSignerCA(status v1alpha1.StrategyStatus) error {
// Clear it when the impersonator is not completely ready.
if status != v1alpha1.SuccessStrategyStatus {
c.clearSignerCA()
return nil
}
signingCertSecret, err := c.secretsInformer.Lister().Secrets(c.namespace).Get(c.impersonationSignerSecretName)
if err != nil {
return fmt.Errorf("could not load the impersonator's credential signing secret: %w", err)
}
certPEM := signingCertSecret.Data[apicerts.CACertificateSecretKey]
keyPEM := signingCertSecret.Data[apicerts.CACertificatePrivateKeySecretKey]
if err := c.impersonationSigningCertProvider.SetCertKeyContent(certPEM, keyPEM); err != nil {
return fmt.Errorf("could not load the impersonator's credential signing secret: %w", err)
}
plog.Info("Loading credential signing certificate for impersonation proxy",
"certPEM", string(certPEM),
"fromSecret", c.impersonationSignerSecretName,
"namespace", c.namespace)
return nil
}
func (c *impersonatorConfigController) clearSignerCA() {
plog.Info("Clearing credential signing certificate for impersonation proxy")
c.impersonationSigningCertProvider.UnsetCertKeyContent()
}
func (c *impersonatorConfigController) doSyncResult(nameInfo *certNameInfo, config *impersonator.Config, ca *certauthority.CA) *v1alpha1.CredentialIssuerStrategy {
switch {
case c.disabledExplicitly(config):
return &v1alpha1.CredentialIssuerStrategy{
Type: v1alpha1.ImpersonationProxyStrategyType,
Status: v1alpha1.ErrorStrategyStatus,
Reason: v1alpha1.DisabledStrategyReason,
Message: "impersonation proxy was explicitly disabled by configuration",
LastUpdateTime: metav1.NewTime(c.clock.Now()),
}
case c.disabledByAutoMode(config):
return &v1alpha1.CredentialIssuerStrategy{
Type: v1alpha1.ImpersonationProxyStrategyType,
Status: v1alpha1.ErrorStrategyStatus,
Reason: v1alpha1.DisabledStrategyReason,
Message: "automatically determined that impersonation proxy should be disabled",
LastUpdateTime: metav1.NewTime(c.clock.Now()),
}
case !nameInfo.ready:
return &v1alpha1.CredentialIssuerStrategy{
Type: v1alpha1.ImpersonationProxyStrategyType,
Status: v1alpha1.ErrorStrategyStatus,
Reason: v1alpha1.PendingStrategyReason,
Message: "waiting for load balancer Service to be assigned IP or hostname",
LastUpdateTime: metav1.NewTime(c.clock.Now()),
}
default:
return &v1alpha1.CredentialIssuerStrategy{
Type: v1alpha1.ImpersonationProxyStrategyType,
Status: v1alpha1.SuccessStrategyStatus,
Reason: v1alpha1.ListeningStrategyReason,
Message: "impersonation proxy is ready to accept client connections",
LastUpdateTime: metav1.NewTime(c.clock.Now()),
Frontend: &v1alpha1.CredentialIssuerFrontend{
Type: v1alpha1.ImpersonationProxyFrontendType,
ImpersonationProxyInfo: &v1alpha1.ImpersonationProxyInfo{
Endpoint: "https://" + nameInfo.clientEndpoint,
CertificateAuthorityData: base64.StdEncoding.EncodeToString(ca.Bundle()),
},
},
}
}
}