/* Copyright (c) Edgeless Systems GmbH SPDX-License-Identifier: AGPL-3.0-only */ package joinclient import ( "context" "errors" "fmt" "net" "path/filepath" "strconv" "sync" "time" "github.com/edgelesssys/constellation/v2/bootstrapper/internal/diskencryption" "github.com/edgelesssys/constellation/v2/bootstrapper/internal/kubelet" "github.com/edgelesssys/constellation/v2/internal/attestation" "github.com/edgelesssys/constellation/v2/internal/cloud/metadata" "github.com/edgelesssys/constellation/v2/internal/constants" "github.com/edgelesssys/constellation/v2/internal/file" "github.com/edgelesssys/constellation/v2/internal/logger" "github.com/edgelesssys/constellation/v2/internal/nodestate" "github.com/edgelesssys/constellation/v2/internal/role" "github.com/edgelesssys/constellation/v2/joinservice/joinproto" "github.com/spf13/afero" "go.uber.org/zap" "google.golang.org/grpc" kubeadm "k8s.io/kubernetes/cmd/kubeadm/app/apis/kubeadm/v1beta3" kubeconstants "k8s.io/kubernetes/cmd/kubeadm/app/constants" "k8s.io/utils/clock" ) const ( interval = 30 * time.Second timeout = 30 * time.Second joinTimeout = 5 * time.Minute ) // JoinClient is a client for requesting the needed information and // joining an existing Kubernetes cluster. type JoinClient struct { nodeLock locker diskUUID string nodeName string role role.Role validIPs []net.IP disk encryptedDisk fileHandler file.Handler timeout time.Duration joinTimeout time.Duration interval time.Duration clock clock.WithTicker dialer grpcDialer joiner ClusterJoiner metadataAPI MetadataAPI log *logger.Logger mux sync.Mutex stopC chan struct{} stopDone chan struct{} } // New creates a new JoinClient. func New(lock locker, dial grpcDialer, joiner ClusterJoiner, meta MetadataAPI, log *logger.Logger) *JoinClient { return &JoinClient{ nodeLock: lock, disk: diskencryption.New(), fileHandler: file.NewHandler(afero.NewOsFs()), timeout: timeout, joinTimeout: joinTimeout, interval: interval, clock: clock.RealClock{}, dialer: dial, joiner: joiner, metadataAPI: meta, log: log.Named("join-client"), } } // Start starts the client routine. The client will make the needed API calls to join // the cluster with the role it receives from the metadata API. // After receiving the needed information, the node will join the cluster. // Multiple calls of start on the same client won't start a second routine if there is // already a routine running. func (c *JoinClient) Start(cleaner cleaner) { c.mux.Lock() defer c.mux.Unlock() if c.stopC != nil { // daemon already running return } c.log.Infof("Starting") c.stopC = make(chan struct{}, 1) c.stopDone = make(chan struct{}, 1) ticker := c.clock.NewTicker(c.interval) go func() { defer ticker.Stop() defer func() { c.stopDone <- struct{}{} }() defer c.log.Infof("Client stopped") defer cleaner.Clean() diskUUID, err := c.getDiskUUID() if err != nil { c.log.With(zap.Error(err)).Errorf("Failed to get disk UUID") return } c.diskUUID = diskUUID for { err := c.getNodeMetadata() if err == nil { c.log.With(zap.String("role", c.role.String()), zap.String("name", c.nodeName)).Infof("Received own instance metadata") break } c.log.With(zap.Error(err)).Errorf("Failed to retrieve instance metadata") c.log.With(zap.Duration("interval", c.interval)).Infof("Sleeping") select { case <-c.stopC: return case <-ticker.C(): } } for { err := c.tryJoinWithAvailableServices() if err == nil { c.log.Infof("Joined successfully. Client is shutting down") return } else if isUnrecoverable(err) { c.log.With(zap.Error(err)).Errorf("Unrecoverable error occurred") return } c.log.With(zap.Error(err)).Warnf("Join failed for all available endpoints") c.log.With(zap.Duration("interval", c.interval)).Infof("Sleeping") select { case <-c.stopC: return case <-ticker.C(): } } }() } // Stop stops the client and blocks until the client's routine is stopped. func (c *JoinClient) Stop() { c.mux.Lock() defer c.mux.Unlock() if c.stopC == nil { // daemon not running return } c.log.Infof("Stopping") c.stopC <- struct{}{} <-c.stopDone c.stopC = nil c.stopDone = nil c.log.Infof("Stopped") } func (c *JoinClient) tryJoinWithAvailableServices() error { ips, err := c.getControlPlaneIPs() if err != nil { return err } if len(ips) == 0 { return errors.New("no control plane IPs found") } for _, ip := range ips { err = c.join(net.JoinHostPort(ip, strconv.Itoa(constants.JoinServiceNodePort))) if err == nil { return nil } if isUnrecoverable(err) { return err } } return err } func (c *JoinClient) join(serviceEndpoint string) error { ctx, cancel := c.timeoutCtx() defer cancel() certificateRequest, kubeletKey, err := kubelet.GetCertificateRequest(c.nodeName, c.validIPs) if err != nil { return err } conn, err := c.dialer.Dial(ctx, serviceEndpoint) if err != nil { c.log.With(zap.String("endpoint", serviceEndpoint), zap.Error(err)).Errorf("Join service unreachable") return fmt.Errorf("dialing join service endpoint: %w", err) } defer conn.Close() protoClient := joinproto.NewAPIClient(conn) req := &joinproto.IssueJoinTicketRequest{ DiskUuid: c.diskUUID, CertificateRequest: certificateRequest, IsControlPlane: c.role == role.ControlPlane, } ticket, err := protoClient.IssueJoinTicket(ctx, req) if err != nil { c.log.With(zap.String("endpoint", serviceEndpoint), zap.Error(err)).Errorf("Issuing join ticket failed") return fmt.Errorf("issuing join ticket: %w", err) } return c.startNodeAndJoin(ticket, kubeletKey) } func (c *JoinClient) startNodeAndJoin(ticket *joinproto.IssueJoinTicketResponse, kubeletKey []byte) (retErr error) { ctx, cancel := context.WithTimeout(context.Background(), c.joinTimeout) defer cancel() // If an error occurs in this func, the client cannot continue. defer func() { if retErr != nil { retErr = unrecoverableError{retErr} } }() clusterID, err := attestation.DeriveClusterID(ticket.MeasurementSecret, ticket.MeasurementSalt) if err != nil { return err } nodeLockAcquired, err := c.nodeLock.TryLockOnce(clusterID) if err != nil { c.log.With(zap.Error(err)).Errorf("Acquiring node lock failed") return fmt.Errorf("acquiring node lock: %w", err) } if !nodeLockAcquired { // There is already a cluster initialization in progress on // this node, so there is no need to also join the cluster, // as the initializing node is automatically part of the cluster. return errors.New("node is already being initialized") } if err := c.updateDiskPassphrase(string(ticket.StateDiskKey)); err != nil { return fmt.Errorf("updating disk passphrase: %w", err) } if c.role == role.ControlPlane { if err := c.writeControlPlaneFiles(ticket.ControlPlaneFiles); err != nil { return fmt.Errorf("writing control plane files: %w", err) } } if err := c.fileHandler.Write(kubelet.CertificateFilename, ticket.KubeletCert, file.OptMkdirAll); err != nil { return fmt.Errorf("writing kubelet certificate: %w", err) } if err := c.fileHandler.Write(kubelet.KeyFilename, kubeletKey, file.OptMkdirAll); err != nil { return fmt.Errorf("writing kubelet key: %w", err) } state := nodestate.NodeState{ Role: c.role, MeasurementSalt: ticket.MeasurementSalt, } if err := state.ToFile(c.fileHandler); err != nil { return fmt.Errorf("persisting node state: %w", err) } btd := &kubeadm.BootstrapTokenDiscovery{ APIServerEndpoint: ticket.ApiServerEndpoint, Token: ticket.Token, CACertHashes: []string{ticket.DiscoveryTokenCaCertHash}, } if err := c.joiner.JoinCluster(ctx, btd, c.role, ticket.KubernetesVersion, c.log); err != nil { return fmt.Errorf("joining Kubernetes cluster: %w", err) } return nil } func (c *JoinClient) getNodeMetadata() error { ctx, cancel := c.timeoutCtx() defer cancel() c.log.Debugf("Requesting node metadata from metadata API") inst, err := c.metadataAPI.Self(ctx) if err != nil { return err } c.log.With(zap.Any("instance", inst)).Debugf("Received node metadata") if inst.Name == "" { return errors.New("got instance metadata with empty name") } if inst.Role == role.Unknown { return errors.New("got instance metadata with unknown role") } var ips []net.IP if inst.VPCIP != "" { ips = append(ips, net.ParseIP(inst.VPCIP)) } c.nodeName = inst.Name c.role = inst.Role c.validIPs = ips return nil } func (c *JoinClient) updateDiskPassphrase(passphrase string) error { if err := c.disk.Open(); err != nil { return fmt.Errorf("opening disk: %w", err) } defer c.disk.Close() return c.disk.UpdatePassphrase(passphrase) } func (c *JoinClient) getDiskUUID() (string, error) { if err := c.disk.Open(); err != nil { return "", fmt.Errorf("opening disk: %w", err) } defer c.disk.Close() return c.disk.UUID() } func (c *JoinClient) getControlPlaneIPs() ([]string, error) { ctx, cancel := c.timeoutCtx() defer cancel() instances, err := c.metadataAPI.List(ctx) if err != nil { c.log.With(zap.Error(err)).Errorf("Failed to list instances from metadata API") return nil, fmt.Errorf("listing instances from metadata API: %w", err) } ips := []string{} for _, instance := range instances { if instance.Role == role.ControlPlane && instance.VPCIP != "" { ips = append(ips, instance.VPCIP) } } c.log.With(zap.Strings("IPs", ips)).Infof("Received control plane endpoints") return ips, nil } func (c *JoinClient) writeControlPlaneFiles(files []*joinproto.ControlPlaneCertOrKey) error { for _, cert := range files { if err := c.fileHandler.Write( filepath.Join(kubeconstants.KubernetesDir, kubeconstants.DefaultCertificateDir, cert.Name), cert.Data, file.OptMkdirAll, ); err != nil { return fmt.Errorf("writing control plane files: %w", err) } } return nil } func (c *JoinClient) timeoutCtx() (context.Context, context.CancelFunc) { return context.WithTimeout(context.Background(), c.timeout) } type unrecoverableError struct{ error } func isUnrecoverable(err error) bool { _, ok := err.(unrecoverableError) return ok } type grpcDialer interface { Dial(ctx context.Context, target string) (*grpc.ClientConn, error) } // ClusterJoiner has the ability to join a new node to an existing cluster. type ClusterJoiner interface { // JoinCluster joins a new node to an existing cluster. JoinCluster( ctx context.Context, args *kubeadm.BootstrapTokenDiscovery, peerRole role.Role, k8sVersion string, log *logger.Logger, ) error } // MetadataAPI provides information about the instances. type MetadataAPI interface { // List retrieves all instances belonging to the current constellation. List(ctx context.Context) ([]metadata.InstanceMetadata, error) // Self retrieves the current instance. Self(ctx context.Context) (metadata.InstanceMetadata, error) } type encryptedDisk interface { // Open prepares the underlying device for disk operations. Open() error // Close closes the underlying device. Close() error // UUID gets the device's UUID. UUID() (string, error) // UpdatePassphrase switches the initial random passphrase of the encrypted disk to a permanent passphrase. UpdatePassphrase(passphrase string) error } type cleaner interface { Clean() } type locker interface { // TryLockOnce tries to lock the node. If the node is already locked, it // returns false. If the node is unlocked, it locks it and returns true. TryLockOnce(clusterID []byte) (bool, error) }