// Copyright 2020-2022 the Pinniped contributors. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Package server defines the entrypoint for the Pinniped Supervisor server. package server import ( "context" "crypto/rand" "crypto/tls" "fmt" "net" "net/http" "os" "os/signal" "strconv" "strings" "sync" "syscall" "time" "github.com/joshlf/go-acl" appsv1 "k8s.io/api/apps/v1" corev1 "k8s.io/api/core/v1" genericapifilters "k8s.io/apiserver/pkg/endpoints/filters" kubeinformers "k8s.io/client-go/informers" "k8s.io/client-go/kubernetes" "k8s.io/client-go/pkg/version" "k8s.io/client-go/rest" "k8s.io/component-base/logs" "k8s.io/klog/v2" "k8s.io/klog/v2/klogr" "k8s.io/utils/clock" configv1alpha1 "go.pinniped.dev/generated/latest/apis/supervisor/config/v1alpha1" pinnipedclientset "go.pinniped.dev/generated/latest/client/supervisor/clientset/versioned" pinnipedinformers "go.pinniped.dev/generated/latest/client/supervisor/informers/externalversions" "go.pinniped.dev/internal/config/supervisor" "go.pinniped.dev/internal/controller/supervisorconfig" "go.pinniped.dev/internal/controller/supervisorconfig/activedirectoryupstreamwatcher" "go.pinniped.dev/internal/controller/supervisorconfig/generator" "go.pinniped.dev/internal/controller/supervisorconfig/ldapupstreamwatcher" "go.pinniped.dev/internal/controller/supervisorconfig/oidcupstreamwatcher" "go.pinniped.dev/internal/controller/supervisorstorage" "go.pinniped.dev/internal/controllerinit" "go.pinniped.dev/internal/controllerlib" "go.pinniped.dev/internal/crypto/ptls" "go.pinniped.dev/internal/deploymentref" "go.pinniped.dev/internal/downward" "go.pinniped.dev/internal/groupsuffix" "go.pinniped.dev/internal/kubeclient" "go.pinniped.dev/internal/leaderelection" "go.pinniped.dev/internal/oidc/jwks" "go.pinniped.dev/internal/oidc/provider" "go.pinniped.dev/internal/oidc/provider/manager" "go.pinniped.dev/internal/plog" "go.pinniped.dev/internal/secret" ) const ( singletonWorker = 1 defaultResyncInterval = 3 * time.Minute ) func startServer(ctx context.Context, shutdown *sync.WaitGroup, l net.Listener, handler http.Handler) { handler = genericapifilters.WithWarningRecorder(handler) handler = withBootstrapPaths(handler, "/healthz") // only health checks are allowed for bootstrap connections server := http.Server{ Handler: handler, ConnContext: withBootstrapConnCtx, } shutdown.Add(1) go func() { defer shutdown.Done() err := server.Serve(l) plog.Debug("server exited", "err", err) }() shutdown.Add(1) go func() { defer shutdown.Done() <-ctx.Done() plog.Debug("server context cancelled", "err", ctx.Err()) // allow up to a minute grace period for active connections to return to idle connectionsCtx, connectionsCancel := context.WithTimeout(context.Background(), time.Minute) defer connectionsCancel() if err := server.Shutdown(connectionsCtx); err != nil { plog.Debug("server shutdown failed", "err", err) } }() } func signalCtx() context.Context { signalCh := make(chan os.Signal, 1) signal.Notify(signalCh, os.Interrupt, syscall.SIGTERM) ctx, cancel := context.WithCancel(context.Background()) go func() { defer cancel() s := <-signalCh plog.Debug("saw signal", "signal", s) }() return ctx } //nolint:funlen func prepareControllers( cfg *supervisor.Config, issuerManager *manager.Manager, dynamicJWKSProvider jwks.DynamicJWKSProvider, dynamicTLSCertProvider provider.DynamicTLSCertProvider, dynamicUpstreamIDPProvider provider.DynamicUpstreamIDPProvider, secretCache *secret.Cache, supervisorDeployment *appsv1.Deployment, kubeClient kubernetes.Interface, pinnipedClient pinnipedclientset.Interface, kubeInformers kubeinformers.SharedInformerFactory, pinnipedInformers pinnipedinformers.SharedInformerFactory, leaderElector controllerinit.RunnerWrapper, ) controllerinit.RunnerBuilder { federationDomainInformer := pinnipedInformers.Config().V1alpha1().FederationDomains() secretInformer := kubeInformers.Core().V1().Secrets() // Create controller manager. controllerManager := controllerlib. NewManager(). WithController( supervisorstorage.GarbageCollectorController( dynamicUpstreamIDPProvider, clock.RealClock{}, kubeClient, secretInformer, controllerlib.WithInformer, ), singletonWorker, ). WithController( supervisorconfig.NewFederationDomainWatcherController( issuerManager, clock.RealClock{}, pinnipedClient, federationDomainInformer, controllerlib.WithInformer, ), singletonWorker, ). WithController( supervisorconfig.NewJWKSWriterController( cfg.Labels, kubeClient, pinnipedClient, secretInformer, federationDomainInformer, controllerlib.WithInformer, ), singletonWorker, ). WithController( supervisorconfig.NewJWKSObserverController( dynamicJWKSProvider, secretInformer, federationDomainInformer, controllerlib.WithInformer, ), singletonWorker, ). WithController( supervisorconfig.NewTLSCertObserverController( dynamicTLSCertProvider, cfg.NamesConfig.DefaultTLSCertificateSecret, secretInformer, federationDomainInformer, controllerlib.WithInformer, ), singletonWorker, ). WithController( generator.NewSupervisorSecretsController( supervisorDeployment, cfg.Labels, kubeClient, secretInformer, func(secret []byte) { plog.Debug("setting csrf cookie secret") secretCache.SetCSRFCookieEncoderHashKey(secret) }, controllerlib.WithInformer, controllerlib.WithInitialEvent, ), singletonWorker, ). WithController( generator.NewFederationDomainSecretsController( generator.NewSymmetricSecretHelper( "pinniped-oidc-provider-hmac-key-", cfg.Labels, rand.Reader, generator.SecretUsageTokenSigningKey, func(federationDomainIssuer string, symmetricKey []byte) { plog.Debug("setting hmac secret", "issuer", federationDomainIssuer) secretCache.SetTokenHMACKey(federationDomainIssuer, symmetricKey) }, ), func(fd *configv1alpha1.FederationDomainStatus) *corev1.LocalObjectReference { return &fd.Secrets.TokenSigningKey }, kubeClient, pinnipedClient, secretInformer, federationDomainInformer, controllerlib.WithInformer, ), singletonWorker, ). WithController( generator.NewFederationDomainSecretsController( generator.NewSymmetricSecretHelper( "pinniped-oidc-provider-upstream-state-signature-key-", cfg.Labels, rand.Reader, generator.SecretUsageStateSigningKey, func(federationDomainIssuer string, symmetricKey []byte) { plog.Debug("setting state signature key", "issuer", federationDomainIssuer) secretCache.SetStateEncoderHashKey(federationDomainIssuer, symmetricKey) }, ), func(fd *configv1alpha1.FederationDomainStatus) *corev1.LocalObjectReference { return &fd.Secrets.StateSigningKey }, kubeClient, pinnipedClient, secretInformer, federationDomainInformer, controllerlib.WithInformer, ), singletonWorker, ). WithController( generator.NewFederationDomainSecretsController( generator.NewSymmetricSecretHelper( "pinniped-oidc-provider-upstream-state-encryption-key-", cfg.Labels, rand.Reader, generator.SecretUsageStateEncryptionKey, func(federationDomainIssuer string, symmetricKey []byte) { plog.Debug("setting state encryption key", "issuer", federationDomainIssuer) secretCache.SetStateEncoderBlockKey(federationDomainIssuer, symmetricKey) }, ), func(fd *configv1alpha1.FederationDomainStatus) *corev1.LocalObjectReference { return &fd.Secrets.StateEncryptionKey }, kubeClient, pinnipedClient, secretInformer, federationDomainInformer, controllerlib.WithInformer, ), singletonWorker, ). WithController( oidcupstreamwatcher.New( dynamicUpstreamIDPProvider, pinnipedClient, pinnipedInformers.IDP().V1alpha1().OIDCIdentityProviders(), secretInformer, klogr.New(), controllerlib.WithInformer, ), singletonWorker). WithController( ldapupstreamwatcher.New( dynamicUpstreamIDPProvider, pinnipedClient, pinnipedInformers.IDP().V1alpha1().LDAPIdentityProviders(), secretInformer, controllerlib.WithInformer, ), singletonWorker). WithController( activedirectoryupstreamwatcher.New( dynamicUpstreamIDPProvider, pinnipedClient, pinnipedInformers.IDP().V1alpha1().ActiveDirectoryIdentityProviders(), secretInformer, controllerlib.WithInformer, ), singletonWorker) return controllerinit.Prepare(controllerManager.Start, leaderElector, kubeInformers, pinnipedInformers) } func startControllers(ctx context.Context, shutdown *sync.WaitGroup, buildControllers controllerinit.RunnerBuilder) error { runControllers, err := buildControllers(ctx) if err != nil { return fmt.Errorf("cannot create run controller func: %w", err) } shutdown.Add(1) go func() { defer shutdown.Done() runControllers(ctx) }() return nil } //nolint:funlen func runSupervisor(podInfo *downward.PodInfo, cfg *supervisor.Config) error { serverInstallationNamespace := podInfo.Namespace dref, supervisorDeployment, supervisorPod, err := deploymentref.New(podInfo) if err != nil { return fmt.Errorf("cannot create deployment ref: %w", err) } opts := []kubeclient.Option{ dref, kubeclient.WithMiddleware(groupsuffix.New(*cfg.APIGroupSuffix)), } client, leaderElector, err := leaderelection.New( podInfo, supervisorDeployment, opts..., ) if err != nil { return fmt.Errorf("cannot create k8s client: %w", err) } clientWithoutLeaderElection, err := kubeclient.New(opts...) if err != nil { return fmt.Errorf("cannot create k8s client without leader election: %w", err) } kubeInformers := kubeinformers.NewSharedInformerFactoryWithOptions( client.Kubernetes, defaultResyncInterval, kubeinformers.WithNamespace(serverInstallationNamespace), ) pinnipedInformers := pinnipedinformers.NewSharedInformerFactoryWithOptions( client.PinnipedSupervisor, defaultResyncInterval, pinnipedinformers.WithNamespace(serverInstallationNamespace), ) // Serve the /healthz endpoint and make all other paths result in 404. healthMux := http.NewServeMux() healthMux.Handle("/healthz", http.HandlerFunc(func(writer http.ResponseWriter, request *http.Request) { _, _ = writer.Write([]byte("ok")) })) dynamicJWKSProvider := jwks.NewDynamicJWKSProvider() dynamicTLSCertProvider := provider.NewDynamicTLSCertProvider() dynamicUpstreamIDPProvider := provider.NewDynamicUpstreamIDPProvider() secretCache := secret.Cache{} // OIDC endpoints will be served by the oidProvidersManager, and any non-OIDC paths will fallback to the healthMux. oidProvidersManager := manager.NewManager( healthMux, dynamicJWKSProvider, dynamicUpstreamIDPProvider, &secretCache, clientWithoutLeaderElection.Kubernetes.CoreV1().Secrets(serverInstallationNamespace), // writes to kube storage are allowed for non-leaders ) buildControllersFunc := prepareControllers( cfg, oidProvidersManager, dynamicJWKSProvider, dynamicTLSCertProvider, dynamicUpstreamIDPProvider, &secretCache, supervisorDeployment, client.Kubernetes, client.PinnipedSupervisor, kubeInformers, pinnipedInformers, leaderElector, ) ctx := signalCtx() shutdown := &sync.WaitGroup{} if err := startControllers(ctx, shutdown, buildControllersFunc); err != nil { return err } if e := cfg.Endpoints.HTTP; e.Network != supervisor.NetworkDisabled { finishSetupPerms := maybeSetupUnixPerms(e, supervisorPod) httpListener, err := net.Listen(e.Network, e.Address) if err != nil { return fmt.Errorf("cannot create http listener with network %q and address %q: %w", e.Network, e.Address, err) } if err := finishSetupPerms(); err != nil { return fmt.Errorf("cannot setup http listener permissions for network %q and address %q: %w", e.Network, e.Address, err) } defer func() { _ = httpListener.Close() }() startServer(ctx, shutdown, httpListener, oidProvidersManager) plog.Debug("supervisor http listener started", "address", httpListener.Addr().String()) } if e := cfg.Endpoints.HTTPS; e.Network != supervisor.NetworkDisabled { //nolint:nestif finishSetupPerms := maybeSetupUnixPerms(e, supervisorPod) bootstrapCert, err := getBootstrapCert() // generate this in-memory once per process startup if err != nil { return fmt.Errorf("https listener bootstrap error: %w", err) } c := ptls.Default(nil) c.GetCertificate = func(info *tls.ClientHelloInfo) (*tls.Certificate, error) { cert := dynamicTLSCertProvider.GetTLSCert(strings.ToLower(info.ServerName)) defaultCert := dynamicTLSCertProvider.GetDefaultTLSCert() if plog.Enabled(plog.LevelTrace) { // minor CPU optimization as this is generally just noise host, port, _ := net.SplitHostPort(info.Conn.LocalAddr().String()) // error is safe to ignore here plog.Trace("GetCertificate called", "info.ServerName", info.ServerName, "foundSNICert", cert != nil, "foundDefaultCert", defaultCert != nil, "host", host, "port", port, ) } if cert == nil { cert = defaultCert } if cert == nil { setIsBootstrapConn(info.Context()) // make this connection only work for bootstrap requests cert = bootstrapCert } return cert, nil } httpsListener, err := tls.Listen(e.Network, e.Address, c) if err != nil { return fmt.Errorf("cannot create https listener with network %q and address %q: %w", e.Network, e.Address, err) } if err := finishSetupPerms(); err != nil { return fmt.Errorf("cannot setup https listener permissions for network %q and address %q: %w", e.Network, e.Address, err) } defer func() { _ = httpsListener.Close() }() startServer(ctx, shutdown, httpsListener, oidProvidersManager) plog.Debug("supervisor https listener started", "address", httpsListener.Addr().String()) } plog.Debug("supervisor started") defer plog.Debug("supervisor exiting") shutdown.Wait() return nil } func maybeSetupUnixPerms(endpoint *supervisor.Endpoint, pod *corev1.Pod) func() error { if endpoint.Network != supervisor.NetworkUnix { return func() error { return nil } } _ = os.Remove(endpoint.Address) // empty dir volumes persist across container crashes return func() error { selfUser := int64(os.Getuid()) var entries []acl.Entry for _, container := range pod.Spec.Containers { if container.SecurityContext == nil || container.SecurityContext.RunAsUser == nil || *container.SecurityContext.RunAsUser == selfUser { continue } plog.Debug("adding write permission", "address", endpoint.Address, "uid", *container.SecurityContext.RunAsUser, ) entries = append(entries, acl.Entry{ Tag: acl.TagUser, Qualifier: strconv.FormatInt(*container.SecurityContext.RunAsUser, 10), Perms: 2, // write permission }) } return acl.Add(endpoint.Address, entries...) // allow all containers in the pod to write to the socket } } func main() error { // return an error instead of klog.Fatal to allow defer statements to run logs.InitLogs() defer logs.FlushLogs() klog.Infof("Running %s at %#v", rest.DefaultKubernetesUserAgent(), version.Get()) klog.Infof("Command-line arguments were: %s %s %s", os.Args[0], os.Args[1], os.Args[2]) // Discover in which namespace we are installed. podInfo, err := downward.Load(os.Args[1]) if err != nil { return fmt.Errorf("could not read pod metadata: %w", err) } // Read the server config file. cfg, err := supervisor.FromPath(os.Args[2]) if err != nil { return fmt.Errorf("could not load config: %w", err) } return runSupervisor(podInfo, cfg) } func Main() { if err := main(); err != nil { klog.Fatal(err) } }