/* Copyright (c) Edgeless Systems GmbH SPDX-License-Identifier: AGPL-3.0-only */ package cmd import ( "context" "encoding/hex" "errors" "fmt" "io" "net" "os" "strconv" "sync" "text/tabwriter" "time" "github.com/edgelesssys/constellation/v2/internal/api/attestationconfigapi" "github.com/edgelesssys/constellation/v2/internal/atls" "github.com/edgelesssys/constellation/v2/internal/attestation/variant" "github.com/edgelesssys/constellation/v2/internal/compatibility" "github.com/spf13/afero" "github.com/spf13/cobra" "google.golang.org/grpc" "k8s.io/apimachinery/pkg/runtime" "k8s.io/client-go/tools/clientcmd" clientcodec "k8s.io/client-go/tools/clientcmd/api/latest" "sigs.k8s.io/yaml" "github.com/edgelesssys/constellation/v2/bootstrapper/initproto" "github.com/edgelesssys/constellation/v2/cli/internal/cloudcmd" "github.com/edgelesssys/constellation/v2/cli/internal/clusterid" "github.com/edgelesssys/constellation/v2/cli/internal/helm" "github.com/edgelesssys/constellation/v2/internal/cloud/azureshared" "github.com/edgelesssys/constellation/v2/internal/cloud/cloudprovider" "github.com/edgelesssys/constellation/v2/internal/cloud/gcpshared" "github.com/edgelesssys/constellation/v2/internal/cloud/openstack" "github.com/edgelesssys/constellation/v2/internal/config" "github.com/edgelesssys/constellation/v2/internal/constants" "github.com/edgelesssys/constellation/v2/internal/crypto" "github.com/edgelesssys/constellation/v2/internal/file" "github.com/edgelesssys/constellation/v2/internal/grpc/dialer" "github.com/edgelesssys/constellation/v2/internal/grpc/grpclog" grpcRetry "github.com/edgelesssys/constellation/v2/internal/grpc/retry" "github.com/edgelesssys/constellation/v2/internal/kms/uri" "github.com/edgelesssys/constellation/v2/internal/license" "github.com/edgelesssys/constellation/v2/internal/retry" "github.com/edgelesssys/constellation/v2/internal/versions" ) // NewInitCmd returns a new cobra.Command for the init command. func NewInitCmd() *cobra.Command { cmd := &cobra.Command{ Use: "init", Short: "Initialize the Constellation cluster", Long: "Initialize the Constellation cluster.\n\n" + "Start your confidential Kubernetes.", Args: cobra.ExactArgs(0), RunE: runInitialize, } cmd.Flags().String("master-secret", "", "path to base64-encoded master secret") cmd.Flags().Bool("conformance", false, "enable conformance mode") cmd.Flags().Bool("merge-kubeconfig", false, "merge Constellation kubeconfig file with default kubeconfig file in $HOME/.kube/config") return cmd } type initCmd struct { log debugLog merger configMerger spinner spinnerInterf masterSecret uri.MasterSecret fh *file.Handler } // runInitialize runs the initialize command. func runInitialize(cmd *cobra.Command, _ []string) error { log, err := newCLILogger(cmd) if err != nil { return fmt.Errorf("creating logger: %w", err) } defer log.Sync() fileHandler := file.NewHandler(afero.NewOsFs()) newDialer := func(validator atls.Validator) *dialer.Dialer { return dialer.New(nil, validator, &net.Dialer{}) } spinner, err := newSpinnerOrStderr(cmd) if err != nil { return err } defer spinner.Stop() ctx, cancel := context.WithTimeout(cmd.Context(), time.Hour) defer cancel() cmd.SetContext(ctx) i := &initCmd{log: log, spinner: spinner, merger: &kubeconfigMerger{log: log}, fh: &fileHandler} fetcher := attestationconfigapi.NewFetcher() return i.initialize(cmd, newDialer, fileHandler, license.NewClient(), fetcher) } // initialize initializes a Constellation. func (i *initCmd) initialize(cmd *cobra.Command, newDialer func(validator atls.Validator) *dialer.Dialer, fileHandler file.Handler, quotaChecker license.QuotaChecker, configFetcher attestationconfigapi.Fetcher, ) error { flags, err := i.evalFlagArgs(cmd) if err != nil { return err } i.log.Debugf("Using flags: %+v", flags) i.log.Debugf("Loading configuration file from %q", flags.configPath) conf, err := config.New(fileHandler, flags.configPath, configFetcher, flags.force) var configValidationErr *config.ValidationError if errors.As(err, &configValidationErr) { cmd.PrintErrln(configValidationErr.LongMessage()) } if err != nil { return err } if conf.GetAttestationConfig().GetVariant().Equal(variant.AWSSEVSNP{}) { cmd.PrintErrln("WARNING: SNP based attestation is still under active development. Please do not use in production.") } i.log.Debugf("Checking cluster ID file") var idFile clusterid.File if err := fileHandler.ReadJSON(constants.ClusterIDsFileName, &idFile); err != nil { return fmt.Errorf("reading cluster ID file: %w", err) } // config validation does not check k8s patch version since upgrade may accept an outdated patch version. // init only supported up-to-date versions. k8sVersion, err := versions.NewValidK8sVersion(compatibility.EnsurePrefixV(conf.KubernetesVersion), true) if err != nil { return fmt.Errorf("invalid Kubernetes version: %s", conf.KubernetesVersion) } i.log.Debugf("Validated k8s version as %s", k8sVersion) if versions.IsPreviewK8sVersion(k8sVersion) { cmd.PrintErrf("Warning: Constellation with Kubernetes %v is still in preview. Use only for evaluation purposes.\n", k8sVersion) } provider := conf.GetProvider() i.log.Debugf("Got provider %s", provider.String()) checker := license.NewChecker(quotaChecker, fileHandler) if err := checker.CheckLicense(cmd.Context(), provider, conf.Provider, cmd.Printf); err != nil { cmd.PrintErrf("License check failed: %v", err) } i.log.Debugf("Checked license") conf.UpdateMAAURL(idFile.AttestationURL) i.log.Debugf("Creating aTLS Validator for %s", conf.GetAttestationConfig().GetVariant()) validator, err := cloudcmd.NewValidator(cmd, conf.GetAttestationConfig(), i.log) if err != nil { return fmt.Errorf("creating new validator: %w", err) } i.log.Debugf("Created a new validator") serviceAccURI, err := i.getMarshaledServiceAccountURI(provider, conf, fileHandler) if err != nil { return err } i.log.Debugf("Successfully marshaled service account URI") masterSecret, err := i.readOrGenerateMasterSecret(cmd.OutOrStdout(), fileHandler, flags.masterSecretPath) i.masterSecret = masterSecret if err != nil { return fmt.Errorf("parsing or generating master secret from file %s: %w", flags.masterSecretPath, err) } helmLoader := helm.NewLoader(provider, k8sVersion) i.log.Debugf("Created new Helm loader") helmDeployments, err := helmLoader.Load(conf, flags.conformance, masterSecret.Key, masterSecret.Salt) i.log.Debugf("Loaded Helm deployments") if err != nil { return fmt.Errorf("loading Helm charts: %w", err) } clusterName := conf.Name + "-" + idFile.UID i.log.Debugf("Setting cluster name to %s", clusterName) cmd.PrintErrln("Note: If you just created the cluster, it can take a few minutes to connect.") i.spinner.Start("Connecting ", false) req := &initproto.InitRequest{ KmsUri: masterSecret.EncodeToURI(), StorageUri: uri.NoStoreURI, CloudServiceAccountUri: serviceAccURI, KubernetesVersion: versions.VersionConfigs[k8sVersion].ClusterVersion, KubernetesComponents: versions.VersionConfigs[k8sVersion].KubernetesComponents.ToInitProto(), HelmDeployments: helmDeployments, ConformanceMode: flags.conformance, InitSecret: idFile.InitSecret, ClusterName: clusterName, } i.log.Debugf("Sending initialization request") resp, err := i.initCall(cmd.Context(), newDialer(validator), idFile.IP, req) i.spinner.Stop() if err != nil { var nonRetriable *nonRetriableError if errors.As(err, &nonRetriable) { cmd.PrintErrln("Cluster initialization failed. This error is not recoverable.") cmd.PrintErrln("Terminate your cluster and try again.") cmd.PrintErrf("The cluster logs were saved to %q\n", constants.ErrorLog) } return err } i.log.Debugf("Initialization request succeeded") i.log.Debugf("Writing Constellation ID file") idFile.CloudProvider = provider return i.writeOutput(idFile, resp, flags.mergeConfigs, cmd.OutOrStdout(), fileHandler) } func (i *initCmd) initCall(ctx context.Context, dialer grpcDialer, ip string, req *initproto.InitRequest) (*initproto.InitSuccessResponse, error) { doer := &initDoer{ dialer: dialer, endpoint: net.JoinHostPort(ip, strconv.Itoa(constants.BootstrapperPort)), req: req, log: i.log, spinner: i.spinner, fh: file.NewHandler(afero.NewOsFs()), } // Create a wrapper function that allows logging any returned error from the retrier before checking if it's the expected retriable one. serviceIsUnavailable := func(err error) bool { isServiceUnavailable := grpcRetry.ServiceIsUnavailable(err) i.log.Debugf("Encountered error (retriable: %t): %s", isServiceUnavailable, err) return isServiceUnavailable } i.log.Debugf("Making initialization call, doer is %+v", doer) retrier := retry.NewIntervalRetrier(doer, 30*time.Second, serviceIsUnavailable) if err := retrier.Do(ctx); err != nil { return nil, err } return doer.resp, nil } type initDoer struct { dialer grpcDialer endpoint string req *initproto.InitRequest resp *initproto.InitSuccessResponse log debugLog spinner spinnerInterf connectedOnce bool fh file.Handler } func (d *initDoer) Do(ctx context.Context) error { // connectedOnce is set in handleGRPCStateChanges when a connection was established in one retry attempt. // This should cancel any other retry attempts when the connection is lost since the bootstrapper likely won't accept any new attempts anymore. if d.connectedOnce { return &nonRetriableError{errors.New("init already connected to the remote server in a previous attempt - resumption is not supported")} } conn, err := d.dialer.Dial(ctx, d.endpoint) if err != nil { d.log.Debugf("Dialing init server failed: %s. Retrying...", err) return fmt.Errorf("dialing init server: %w", err) } defer conn.Close() var wg sync.WaitGroup defer wg.Wait() grpcStateLogCtx, grpcStateLogCancel := context.WithCancel(ctx) defer grpcStateLogCancel() d.handleGRPCStateChanges(grpcStateLogCtx, &wg, conn) protoClient := initproto.NewAPIClient(conn) d.log.Debugf("Created protoClient") resp, err := protoClient.Init(ctx, d.req) if err != nil { return &nonRetriableError{fmt.Errorf("init call: %w", err)} } res, err := resp.Recv() // get first response, either success or failure if err != nil { if e := d.getLogs(resp); e != nil { d.log.Debugf("Failed to collect logs: %s", e) } return &nonRetriableError{err} } switch res.Kind.(type) { case *initproto.InitResponse_InitFailure: if e := d.getLogs(resp); e != nil { d.log.Debugf("Failed to get logs from cluster: %s", e) } return &nonRetriableError{errors.New(res.GetInitFailure().GetError())} case *initproto.InitResponse_InitSuccess: d.resp = res.GetInitSuccess() case nil: d.log.Debugf("Cluster returned nil response type") return &nonRetriableError{errors.New("empty response from cluster")} default: d.log.Debugf("Cluster returned unknown response type") return &nonRetriableError{errors.New("unknown response from cluster")} } return nil } func (d *initDoer) getLogs(resp initproto.API_InitClient) error { d.log.Debugf("Attempting to collect cluster logs") for { res, err := resp.Recv() if err == io.EOF { break } if err != nil { return err } log := res.GetLog().GetLog() if log == nil { return errors.New("sent empty logs") } if err := d.fh.Write(constants.ErrorLog, log, file.OptAppend); err != nil { return err } } return nil } func (d *initDoer) handleGRPCStateChanges(ctx context.Context, wg *sync.WaitGroup, conn *grpc.ClientConn) { grpclog.LogStateChangesUntilReady(ctx, conn, d.log, wg, func() { d.connectedOnce = true d.spinner.Stop() d.spinner.Start("Initializing cluster ", false) }) } func (i *initCmd) writeOutput( idFile clusterid.File, initResp *initproto.InitSuccessResponse, mergeConfig bool, wr io.Writer, fileHandler file.Handler, ) error { fmt.Fprint(wr, "Your Constellation cluster was successfully initialized.\n\n") ownerID := hex.EncodeToString(initResp.GetOwnerId()) // i.log.Debugf("Owner id is %s", ownerID) clusterID := hex.EncodeToString(initResp.GetClusterId()) tw := tabwriter.NewWriter(wr, 0, 0, 2, ' ', 0) // writeRow(tw, "Constellation cluster's owner identifier", ownerID) writeRow(tw, "Constellation cluster identifier", clusterID) writeRow(tw, "Kubernetes configuration", constants.AdminConfFilename) tw.Flush() fmt.Fprintln(wr) if err := fileHandler.Write(constants.AdminConfFilename, initResp.GetKubeconfig(), file.OptNone); err != nil { return fmt.Errorf("writing kubeconfig: %w", err) } i.log.Debugf("Kubeconfig written to %s", constants.AdminConfFilename) if mergeConfig { if err := i.merger.mergeConfigs(constants.AdminConfFilename, fileHandler); err != nil { writeRow(tw, "Failed to automatically merge kubeconfig", err.Error()) mergeConfig = false // Set to false so we don't print the wrong message below. } else { writeRow(tw, "Kubernetes configuration merged with default config", "") } } idFile.OwnerID = ownerID idFile.ClusterID = clusterID if err := fileHandler.WriteJSON(constants.ClusterIDsFileName, idFile, file.OptOverwrite); err != nil { return fmt.Errorf("writing Constellation ID file: %w", err) } i.log.Debugf("Constellation ID file written to %s", constants.ClusterIDsFileName) if !mergeConfig { fmt.Fprintln(wr, "You can now connect to your cluster by executing:") fmt.Fprintf(wr, "\texport KUBECONFIG=\"$PWD/%s\"\n", constants.AdminConfFilename) } else { fmt.Fprintln(wr, "Constellation kubeconfig merged with default config.") if i.merger.kubeconfigEnvVar() != "" { fmt.Fprintln(wr, "Warning: KUBECONFIG environment variable is set.") fmt.Fprintln(wr, "You may need to unset it to use the default config and connect to your cluster.") } else { fmt.Fprintln(wr, "You can now connect to your cluster.") } } return nil } func writeRow(wr io.Writer, col1 string, col2 string) { fmt.Fprint(wr, col1, "\t", col2, "\n") } // evalFlagArgs gets the flag values and does preprocessing of these values like // reading the content from file path flags and deriving other values from flag combinations. func (i *initCmd) evalFlagArgs(cmd *cobra.Command) (initFlags, error) { masterSecretPath, err := cmd.Flags().GetString("master-secret") if err != nil { return initFlags{}, fmt.Errorf("parsing master-secret path flag: %w", err) } i.log.Debugf("Master secret path flag value is %q", masterSecretPath) conformance, err := cmd.Flags().GetBool("conformance") if err != nil { return initFlags{}, fmt.Errorf("parsing conformance flag: %w", err) } i.log.Debugf("Conformance flag is %t", conformance) configPath, err := cmd.Flags().GetString("config") if err != nil { return initFlags{}, fmt.Errorf("parsing config path flag: %w", err) } i.log.Debugf("Configuration path flag is %q", configPath) mergeConfigs, err := cmd.Flags().GetBool("merge-kubeconfig") if err != nil { return initFlags{}, fmt.Errorf("parsing merge-kubeconfig flag: %w", err) } i.log.Debugf("Merge kubeconfig flag is %t", mergeConfigs) force, err := cmd.Flags().GetBool("force") if err != nil { return initFlags{}, fmt.Errorf("parsing force argument: %w", err) } i.log.Debugf("force flag is %t", force) return initFlags{ configPath: configPath, conformance: conformance, masterSecretPath: masterSecretPath, force: force, mergeConfigs: mergeConfigs, }, nil } // initFlags are the resulting values of flag preprocessing. type initFlags struct { configPath string masterSecretPath string conformance bool force bool mergeConfigs bool } // readOrGenerateMasterSecret reads a base64 encoded master secret from file or generates a new 32 byte secret. func (i *initCmd) readOrGenerateMasterSecret(outWriter io.Writer, fileHandler file.Handler, filename string) (uri.MasterSecret, error) { if filename != "" { i.log.Debugf("Reading master secret from file %q", filename) var secret uri.MasterSecret if err := fileHandler.ReadJSON(filename, &secret); err != nil { return uri.MasterSecret{}, err } if len(secret.Key) < crypto.MasterSecretLengthMin { return uri.MasterSecret{}, fmt.Errorf("provided master secret is smaller than the required minimum of %d Bytes", crypto.MasterSecretLengthMin) } if len(secret.Salt) < crypto.RNGLengthDefault { return uri.MasterSecret{}, fmt.Errorf("provided salt is smaller than the required minimum of %d Bytes", crypto.RNGLengthDefault) } return secret, nil } // No file given, generate a new secret, and save it to disk i.log.Debugf("Generating new master secret") key, err := crypto.GenerateRandomBytes(crypto.MasterSecretLengthDefault) if err != nil { return uri.MasterSecret{}, err } salt, err := crypto.GenerateRandomBytes(crypto.RNGLengthDefault) if err != nil { return uri.MasterSecret{}, err } secret := uri.MasterSecret{ Key: key, Salt: salt, } i.log.Debugf("Generated master secret key and salt values") if err := fileHandler.WriteJSON(constants.MasterSecretFilename, secret, file.OptNone); err != nil { return uri.MasterSecret{}, err } fmt.Fprintf(outWriter, "Your Constellation master secret was successfully written to ./%s\n", constants.MasterSecretFilename) return secret, nil } func (i *initCmd) getMarshaledServiceAccountURI(provider cloudprovider.Provider, config *config.Config, fileHandler file.Handler) (string, error) { i.log.Debugf("Getting service account URI") switch provider { case cloudprovider.GCP: i.log.Debugf("Handling case for GCP") path := config.Provider.GCP.ServiceAccountKeyPath i.log.Debugf("GCP service account key path %s", path) var key gcpshared.ServiceAccountKey if err := fileHandler.ReadJSON(path, &key); err != nil { return "", fmt.Errorf("reading service account key from path %q: %w", path, err) } i.log.Debugf("Read GCP service account key from path") return key.ToCloudServiceAccountURI(), nil case cloudprovider.AWS: i.log.Debugf("Handling case for AWS") return "", nil // AWS does not need a service account URI case cloudprovider.Azure: i.log.Debugf("Handling case for Azure") authMethod := azureshared.AuthMethodUserAssignedIdentity creds := azureshared.ApplicationCredentials{ TenantID: config.Provider.Azure.TenantID, Location: config.Provider.Azure.Location, PreferredAuthMethod: authMethod, UamiResourceID: config.Provider.Azure.UserAssignedIdentity, } return creds.ToCloudServiceAccountURI(), nil case cloudprovider.OpenStack: creds := openstack.AccountKey{ AuthURL: config.Provider.OpenStack.AuthURL, Username: config.Provider.OpenStack.Username, Password: config.Provider.OpenStack.Password, ProjectID: config.Provider.OpenStack.ProjectID, ProjectName: config.Provider.OpenStack.ProjectName, UserDomainName: config.Provider.OpenStack.UserDomainName, ProjectDomainName: config.Provider.OpenStack.ProjectDomainName, RegionName: config.Provider.OpenStack.RegionName, } return creds.ToCloudServiceAccountURI(), nil case cloudprovider.QEMU: i.log.Debugf("Handling case for QEMU") return "", nil // QEMU does not use service account keys default: return "", fmt.Errorf("unsupported cloud provider %q", provider) } } type configMerger interface { mergeConfigs(configPath string, fileHandler file.Handler) error kubeconfigEnvVar() string } type kubeconfigMerger struct { log debugLog } func (c *kubeconfigMerger) mergeConfigs(configPath string, fileHandler file.Handler) error { constellConfig, err := clientcmd.LoadFromFile(configPath) if err != nil { return fmt.Errorf("loading admin kubeconfig: %w", err) } loadingRules := clientcmd.NewDefaultClientConfigLoadingRules() loadingRules.Precedence = []string{ clientcmd.RecommendedHomeFile, configPath, // our config should overwrite the default config } c.log.Debugf("Kubeconfig file loading precedence: %v", loadingRules.Precedence) // merge the kubeconfigs cfg, err := loadingRules.Load() if err != nil { return fmt.Errorf("loading merged kubeconfig: %w", err) } // Set the current context to the cluster we just created cfg.CurrentContext = constellConfig.CurrentContext c.log.Debugf("Set current context to %s", cfg.CurrentContext) json, err := runtime.Encode(clientcodec.Codec, cfg) if err != nil { return fmt.Errorf("encoding merged kubeconfig: %w", err) } mergedKubeconfig, err := yaml.JSONToYAML(json) if err != nil { return fmt.Errorf("converting merged kubeconfig to YAML: %w", err) } if err := fileHandler.Write(clientcmd.RecommendedHomeFile, mergedKubeconfig, file.OptOverwrite); err != nil { return fmt.Errorf("writing merged kubeconfig to file: %w", err) } c.log.Debugf("Merged kubeconfig into default config file: %s", clientcmd.RecommendedHomeFile) return nil } func (c *kubeconfigMerger) kubeconfigEnvVar() string { return os.Getenv(clientcmd.RecommendedConfigPathEnvVar) } type grpcDialer interface { Dial(ctx context.Context, target string) (*grpc.ClientConn, error) } type nonRetriableError struct { err error } // Error returns the error message. func (e *nonRetriableError) Error() string { return e.err.Error() } // Unwrap returns the wrapped error. func (e *nonRetriableError) Unwrap() error { return e.err }