package server import ( "context" "fmt" "net" "net/netip" "strings" "time" pb "github.com/golang/protobuf/proto" // nolint "github.com/golang/protobuf/ptypes/timestamp" "github.com/grpc-ecosystem/go-grpc-middleware/v2/interceptors/realip" log "github.com/sirupsen/logrus" "golang.zx2c4.com/wireguard/wgctrl/wgtypes" "google.golang.org/grpc/codes" "google.golang.org/grpc/status" nbContext "github.com/netbirdio/netbird/management/server/context" "github.com/netbirdio/netbird/management/server/posture" "github.com/netbirdio/netbird/encryption" "github.com/netbirdio/netbird/management/proto" "github.com/netbirdio/netbird/management/server/jwtclaims" nbpeer "github.com/netbirdio/netbird/management/server/peer" internalStatus "github.com/netbirdio/netbird/management/server/status" "github.com/netbirdio/netbird/management/server/telemetry" ) // GRPCServer an instance of a Management gRPC API server type GRPCServer struct { accountManager AccountManager wgKey wgtypes.Key proto.UnimplementedManagementServiceServer peersUpdateManager *PeersUpdateManager config *Config turnCredentialsManager TURNCredentialsManager jwtValidator *jwtclaims.JWTValidator jwtClaimsExtractor *jwtclaims.ClaimsExtractor appMetrics telemetry.AppMetrics ephemeralManager *EphemeralManager } // NewServer creates a new Management server func NewServer(ctx context.Context, config *Config, accountManager AccountManager, peersUpdateManager *PeersUpdateManager, turnCredentialsManager TURNCredentialsManager, appMetrics telemetry.AppMetrics, ephemeralManager *EphemeralManager) (*GRPCServer, error) { key, err := wgtypes.GeneratePrivateKey() if err != nil { return nil, err } var jwtValidator *jwtclaims.JWTValidator if config.HttpConfig != nil && config.HttpConfig.AuthIssuer != "" && config.HttpConfig.AuthAudience != "" && validateURL(config.HttpConfig.AuthKeysLocation) { jwtValidator, err = jwtclaims.NewJWTValidator( ctx, config.HttpConfig.AuthIssuer, config.GetAuthAudiences(), config.HttpConfig.AuthKeysLocation, config.HttpConfig.IdpSignKeyRefreshEnabled, ) if err != nil { return nil, status.Errorf(codes.Internal, "unable to create new jwt middleware, err: %v", err) } } else { log.WithContext(ctx).Debug("unable to use http config to create new jwt middleware") } if appMetrics != nil { // update gauge based on number of connected peers which is equal to open gRPC streams err = appMetrics.GRPCMetrics().RegisterConnectedStreams(func() int64 { return int64(len(peersUpdateManager.peerChannels)) }) if err != nil { return nil, err } } var audience, userIDClaim string if config.HttpConfig != nil { audience = config.HttpConfig.AuthAudience userIDClaim = config.HttpConfig.AuthUserIDClaim } jwtClaimsExtractor := jwtclaims.NewClaimsExtractor( jwtclaims.WithAudience(audience), jwtclaims.WithUserIDClaim(userIDClaim), ) return &GRPCServer{ wgKey: key, // peerKey -> event channel peersUpdateManager: peersUpdateManager, accountManager: accountManager, config: config, turnCredentialsManager: turnCredentialsManager, jwtValidator: jwtValidator, jwtClaimsExtractor: jwtClaimsExtractor, appMetrics: appMetrics, ephemeralManager: ephemeralManager, }, nil } func (s *GRPCServer) GetServerKey(ctx context.Context, req *proto.Empty) (*proto.ServerKeyResponse, error) { // todo introduce something more meaningful with the key expiration/rotation if s.appMetrics != nil { s.appMetrics.GRPCMetrics().CountGetKeyRequest() } now := time.Now().Add(24 * time.Hour) secs := int64(now.Second()) nanos := int32(now.Nanosecond()) expiresAt := ×tamp.Timestamp{Seconds: secs, Nanos: nanos} return &proto.ServerKeyResponse{ Key: s.wgKey.PublicKey().String(), ExpiresAt: expiresAt, }, nil } func getRealIP(ctx context.Context) net.IP { if addr, ok := realip.FromContext(ctx); ok { return net.IP(addr.AsSlice()) } return nil } // Sync validates the existence of a connecting peer, sends an initial state (all available for the connecting peers) and // notifies the connected peer of any updates (e.g. new peers under the same account) func (s *GRPCServer) Sync(req *proto.EncryptedMessage, srv proto.ManagementService_SyncServer) error { reqStart := time.Now() if s.appMetrics != nil { s.appMetrics.GRPCMetrics().CountSyncRequest() } ctx := srv.Context() realIP := getRealIP(ctx) syncReq := &proto.SyncRequest{} peerKey, err := s.parseRequest(ctx, req, syncReq) if err != nil { return err } //nolint ctx = context.WithValue(ctx, nbContext.PeerIDKey, peerKey.String()) accountID, err := s.accountManager.GetAccountIDForPeerKey(ctx, peerKey.String()) if err != nil { // this case should not happen and already indicates an issue but we don't want the system to fail due to being unable to log in detail accountID = "UNKNOWN" } //nolint ctx = context.WithValue(ctx, nbContext.AccountIDKey, accountID) log.WithContext(ctx).Debugf("Sync request from peer [%s] [%s]", req.WgPubKey, realIP.String()) if syncReq.GetMeta() == nil { log.WithContext(ctx).Tracef("peer system meta has to be provided on sync. Peer %s, remote addr %s", peerKey.String(), realIP) } peer, netMap, postureChecks, err := s.accountManager.SyncAndMarkPeer(ctx, accountID, peerKey.String(), extractPeerMeta(ctx, syncReq.GetMeta()), realIP) if err != nil { return mapError(ctx, err) } err = s.sendInitialSync(ctx, peerKey, peer, netMap, postureChecks, srv) if err != nil { log.WithContext(ctx).Debugf("error while sending initial sync for %s: %v", peerKey.String(), err) return err } updates := s.peersUpdateManager.CreateChannel(ctx, peer.ID) s.ephemeralManager.OnPeerConnected(ctx, peer) if s.config.TURNConfig.TimeBasedCredentials { s.turnCredentialsManager.SetupRefresh(ctx, peer.ID) } if s.appMetrics != nil { s.appMetrics.GRPCMetrics().CountSyncRequestDuration(time.Since(reqStart)) } return s.handleUpdates(ctx, accountID, peerKey, peer, updates, srv) } // handleUpdates sends updates to the connected peer until the updates channel is closed. func (s *GRPCServer) handleUpdates(ctx context.Context, accountID string, peerKey wgtypes.Key, peer *nbpeer.Peer, updates chan *UpdateMessage, srv proto.ManagementService_SyncServer) error { for { select { // condition when there are some updates case update, open := <-updates: if s.appMetrics != nil { s.appMetrics.GRPCMetrics().UpdateChannelQueueLength(len(updates) + 1) } if !open { log.WithContext(ctx).Debugf("updates channel for peer %s was closed", peerKey.String()) s.cancelPeerRoutines(ctx, accountID, peer) return nil } log.WithContext(ctx).Debugf("received an update for peer %s", peerKey.String()) if err := s.sendUpdate(ctx, accountID, peerKey, peer, update, srv); err != nil { return err } // condition when client <-> server connection has been terminated case <-srv.Context().Done(): // happens when connection drops, e.g. client disconnects log.WithContext(ctx).Debugf("stream of peer %s has been closed", peerKey.String()) s.cancelPeerRoutines(ctx, accountID, peer) return srv.Context().Err() } } } // sendUpdate encrypts the update message using the peer key and the server's wireguard key, // then sends the encrypted message to the connected peer via the sync server. func (s *GRPCServer) sendUpdate(ctx context.Context, accountID string, peerKey wgtypes.Key, peer *nbpeer.Peer, update *UpdateMessage, srv proto.ManagementService_SyncServer) error { encryptedResp, err := encryption.EncryptMessage(peerKey, s.wgKey, update.Update) if err != nil { s.cancelPeerRoutines(ctx, accountID, peer) return status.Errorf(codes.Internal, "failed processing update message") } err = srv.SendMsg(&proto.EncryptedMessage{ WgPubKey: s.wgKey.PublicKey().String(), Body: encryptedResp, }) if err != nil { s.cancelPeerRoutines(ctx, accountID, peer) return status.Errorf(codes.Internal, "failed sending update message") } log.WithContext(ctx).Debugf("sent an update to peer %s", peerKey.String()) return nil } func (s *GRPCServer) cancelPeerRoutines(ctx context.Context, accountID string, peer *nbpeer.Peer) { s.peersUpdateManager.CloseChannel(ctx, peer.ID) s.turnCredentialsManager.CancelRefresh(peer.ID) _ = s.accountManager.OnPeerDisconnected(ctx, accountID, peer.Key) s.ephemeralManager.OnPeerDisconnected(ctx, peer) } func (s *GRPCServer) validateToken(ctx context.Context, jwtToken string) (string, error) { if s.jwtValidator == nil { return "", status.Error(codes.Internal, "no jwt validator set") } token, err := s.jwtValidator.ValidateAndParse(ctx, jwtToken) if err != nil { return "", status.Errorf(codes.InvalidArgument, "invalid jwt token, err: %v", err) } claims := s.jwtClaimsExtractor.FromToken(token) // we need to call this method because if user is new, we will automatically add it to existing or create a new account _, _, err = s.accountManager.GetAccountFromToken(ctx, claims) if err != nil { return "", status.Errorf(codes.Internal, "unable to fetch account with claims, err: %v", err) } if err := s.accountManager.CheckUserAccessByJWTGroups(ctx, claims); err != nil { return "", status.Error(codes.PermissionDenied, err.Error()) } return claims.UserId, nil } // maps internal internalStatus.Error to gRPC status.Error func mapError(ctx context.Context, err error) error { if e, ok := internalStatus.FromError(err); ok { switch e.Type() { case internalStatus.PermissionDenied: return status.Error(codes.PermissionDenied, e.Message) case internalStatus.Unauthorized: return status.Error(codes.PermissionDenied, e.Message) case internalStatus.Unauthenticated: return status.Error(codes.PermissionDenied, e.Message) case internalStatus.PreconditionFailed: return status.Error(codes.FailedPrecondition, e.Message) case internalStatus.NotFound: return status.Error(codes.NotFound, e.Message) default: } } log.WithContext(ctx).Errorf("got an unhandled error: %s", err) return status.Errorf(codes.Internal, "failed handling request") } func extractPeerMeta(ctx context.Context, meta *proto.PeerSystemMeta) nbpeer.PeerSystemMeta { if meta == nil { return nbpeer.PeerSystemMeta{} } osVersion := meta.GetOSVersion() if osVersion == "" { osVersion = meta.GetCore() } networkAddresses := make([]nbpeer.NetworkAddress, 0, len(meta.GetNetworkAddresses())) for _, addr := range meta.GetNetworkAddresses() { netAddr, err := netip.ParsePrefix(addr.GetNetIP()) if err != nil { log.WithContext(ctx).Warnf("failed to parse netip address, %s: %v", addr.GetNetIP(), err) continue } networkAddresses = append(networkAddresses, nbpeer.NetworkAddress{ NetIP: netAddr, Mac: addr.GetMac(), }) } files := make([]nbpeer.File, 0, len(meta.GetFiles())) for _, file := range meta.GetFiles() { files = append(files, nbpeer.File{ Path: file.GetPath(), Exist: file.GetExist(), ProcessIsRunning: file.GetProcessIsRunning(), }) } return nbpeer.PeerSystemMeta{ Hostname: meta.GetHostname(), GoOS: meta.GetGoOS(), Kernel: meta.GetKernel(), Platform: meta.GetPlatform(), OS: meta.GetOS(), OSVersion: osVersion, WtVersion: meta.GetWiretrusteeVersion(), UIVersion: meta.GetUiVersion(), KernelVersion: meta.GetKernelVersion(), NetworkAddresses: networkAddresses, SystemSerialNumber: meta.GetSysSerialNumber(), SystemProductName: meta.GetSysProductName(), SystemManufacturer: meta.GetSysManufacturer(), Environment: nbpeer.Environment{ Cloud: meta.GetEnvironment().GetCloud(), Platform: meta.GetEnvironment().GetPlatform(), }, Files: files, } } func (s *GRPCServer) parseRequest(ctx context.Context, req *proto.EncryptedMessage, parsed pb.Message) (wgtypes.Key, error) { peerKey, err := wgtypes.ParseKey(req.GetWgPubKey()) if err != nil { log.WithContext(ctx).Warnf("error while parsing peer's WireGuard public key %s.", req.WgPubKey) return wgtypes.Key{}, status.Errorf(codes.InvalidArgument, "provided wgPubKey %s is invalid", req.WgPubKey) } err = encryption.DecryptMessage(peerKey, s.wgKey, req.Body, parsed) if err != nil { return wgtypes.Key{}, status.Errorf(codes.InvalidArgument, "invalid request message") } return peerKey, nil } // Login endpoint first checks whether peer is registered under any account // In case it is, the login is successful // In case it isn't, the endpoint checks whether setup key is provided within the request and tries to register a peer. // In case of the successful registration login is also successful func (s *GRPCServer) Login(ctx context.Context, req *proto.EncryptedMessage) (*proto.EncryptedMessage, error) { reqStart := time.Now() defer func() { if s.appMetrics != nil { s.appMetrics.GRPCMetrics().CountLoginRequestDuration(time.Since(reqStart)) } }() if s.appMetrics != nil { s.appMetrics.GRPCMetrics().CountLoginRequest() } realIP := getRealIP(ctx) log.WithContext(ctx).Debugf("Login request from peer [%s] [%s]", req.WgPubKey, realIP.String()) loginReq := &proto.LoginRequest{} peerKey, err := s.parseRequest(ctx, req, loginReq) if err != nil { return nil, err } //nolint ctx = context.WithValue(ctx, nbContext.PeerIDKey, peerKey.String()) accountID, err := s.accountManager.GetAccountIDForPeerKey(ctx, peerKey.String()) if err != nil { // this case should not happen and already indicates an issue but we don't want the system to fail due to being unable to log in detail accountID = "UNKNOWN" } //nolint ctx = context.WithValue(ctx, nbContext.AccountIDKey, accountID) if loginReq.GetMeta() == nil { msg := status.Errorf(codes.FailedPrecondition, "peer system meta has to be provided to log in. Peer %s, remote addr %s", peerKey.String(), realIP) log.WithContext(ctx).Warn(msg) return nil, msg } userID, err := s.processJwtToken(ctx, loginReq, peerKey) if err != nil { return nil, err } var sshKey []byte if loginReq.GetPeerKeys() != nil { sshKey = loginReq.GetPeerKeys().GetSshPubKey() } peer, netMap, postureChecks, err := s.accountManager.LoginPeer(ctx, PeerLogin{ WireGuardPubKey: peerKey.String(), SSHKey: string(sshKey), Meta: extractPeerMeta(ctx, loginReq.GetMeta()), UserID: userID, SetupKey: loginReq.GetSetupKey(), ConnectionIP: realIP, }) if err != nil { log.WithContext(ctx).Warnf("failed logging in peer %s: %s", peerKey, err) return nil, mapError(ctx, err) } // if the login request contains setup key then it is a registration request if loginReq.GetSetupKey() != "" { s.ephemeralManager.OnPeerDisconnected(ctx, peer) } // if peer has reached this point then it has logged in loginResp := &proto.LoginResponse{ WiretrusteeConfig: toWiretrusteeConfig(s.config, nil), PeerConfig: toPeerConfig(peer, netMap.Network, s.accountManager.GetDNSDomain()), Checks: toProtocolChecks(ctx, postureChecks), } encryptedResp, err := encryption.EncryptMessage(peerKey, s.wgKey, loginResp) if err != nil { log.WithContext(ctx).Warnf("failed encrypting peer %s message", peer.ID) return nil, status.Errorf(codes.Internal, "failed logging in peer") } return &proto.EncryptedMessage{ WgPubKey: s.wgKey.PublicKey().String(), Body: encryptedResp, }, nil } // processJwtToken validates the existence of a JWT token in the login request, and returns the corresponding user ID if // the token is valid. // // The user ID can be empty if the token is not provided, which is acceptable if the peer is already // registered or if it uses a setup key to register. func (s *GRPCServer) processJwtToken(ctx context.Context, loginReq *proto.LoginRequest, peerKey wgtypes.Key) (string, error) { userID := "" if loginReq.GetJwtToken() != "" { var err error for i := 0; i < 3; i++ { userID, err = s.validateToken(ctx, loginReq.GetJwtToken()) if err == nil { break } log.WithContext(ctx).Warnf("failed validating JWT token sent from peer %s with error %v. "+ "Trying again as it may be due to the IdP cache issue", peerKey.String(), err) time.Sleep(200 * time.Millisecond) } if err != nil { return "", err } } return userID, nil } func ToResponseProto(configProto Protocol) proto.HostConfig_Protocol { switch configProto { case UDP: return proto.HostConfig_UDP case DTLS: return proto.HostConfig_DTLS case HTTP: return proto.HostConfig_HTTP case HTTPS: return proto.HostConfig_HTTPS case TCP: return proto.HostConfig_TCP default: panic(fmt.Errorf("unexpected config protocol type %v", configProto)) } } func toWiretrusteeConfig(config *Config, turnCredentials *TURNCredentials) *proto.WiretrusteeConfig { if config == nil { return nil } var stuns []*proto.HostConfig for _, stun := range config.Stuns { stuns = append(stuns, &proto.HostConfig{ Uri: stun.URI, Protocol: ToResponseProto(stun.Proto), }) } var turns []*proto.ProtectedHostConfig for _, turn := range config.TURNConfig.Turns { var username string var password string if turnCredentials != nil { username = turnCredentials.Username password = turnCredentials.Password } else { username = turn.Username password = turn.Password } turns = append(turns, &proto.ProtectedHostConfig{ HostConfig: &proto.HostConfig{ Uri: turn.URI, Protocol: ToResponseProto(turn.Proto), }, User: username, Password: password, }) } return &proto.WiretrusteeConfig{ Stuns: stuns, Turns: turns, Signal: &proto.HostConfig{ Uri: config.Signal.URI, Protocol: ToResponseProto(config.Signal.Proto), }, } } func toPeerConfig(peer *nbpeer.Peer, network *Network, dnsName string) *proto.PeerConfig { netmask, _ := network.Net.Mask.Size() fqdn := peer.FQDN(dnsName) return &proto.PeerConfig{ Address: fmt.Sprintf("%s/%d", peer.IP.String(), netmask), // take it from the network SshConfig: &proto.SSHConfig{SshEnabled: peer.SSHEnabled}, Fqdn: fqdn, } } func toSyncResponse(ctx context.Context, config *Config, peer *nbpeer.Peer, turnCredentials *TURNCredentials, networkMap *NetworkMap, dnsName string, checks []*posture.Checks, dnsCache *DNSConfigCache) *proto.SyncResponse { response := &proto.SyncResponse{ WiretrusteeConfig: toWiretrusteeConfig(config, turnCredentials), PeerConfig: toPeerConfig(peer, networkMap.Network, dnsName), NetworkMap: &proto.NetworkMap{ Serial: networkMap.Network.CurrentSerial(), Routes: toProtocolRoutes(networkMap.Routes), DNSConfig: toProtocolDNSConfig(networkMap.DNSConfig, dnsCache), }, Checks: toProtocolChecks(ctx, checks), } response.NetworkMap.PeerConfig = response.PeerConfig allPeers := make([]*proto.RemotePeerConfig, 0, len(networkMap.Peers)+len(networkMap.OfflinePeers)) allPeers = appendRemotePeerConfig(allPeers, networkMap.Peers, dnsName) response.RemotePeers = allPeers response.NetworkMap.RemotePeers = allPeers response.RemotePeersIsEmpty = len(allPeers) == 0 response.NetworkMap.RemotePeersIsEmpty = response.RemotePeersIsEmpty response.NetworkMap.OfflinePeers = appendRemotePeerConfig(nil, networkMap.OfflinePeers, dnsName) firewallRules := toProtocolFirewallRules(networkMap.FirewallRules) response.NetworkMap.FirewallRules = firewallRules response.NetworkMap.FirewallRulesIsEmpty = len(firewallRules) == 0 return response } func appendRemotePeerConfig(dst []*proto.RemotePeerConfig, peers []*nbpeer.Peer, dnsName string) []*proto.RemotePeerConfig { for _, rPeer := range peers { dst = append(dst, &proto.RemotePeerConfig{ WgPubKey: rPeer.Key, AllowedIps: []string{rPeer.IP.String() + "/32"}, SshConfig: &proto.SSHConfig{SshPubKey: []byte(rPeer.SSHKey)}, Fqdn: rPeer.FQDN(dnsName), }) } return dst } // IsHealthy indicates whether the service is healthy func (s *GRPCServer) IsHealthy(ctx context.Context, req *proto.Empty) (*proto.Empty, error) { return &proto.Empty{}, nil } // sendInitialSync sends initial proto.SyncResponse to the peer requesting synchronization func (s *GRPCServer) sendInitialSync(ctx context.Context, peerKey wgtypes.Key, peer *nbpeer.Peer, networkMap *NetworkMap, postureChecks []*posture.Checks, srv proto.ManagementService_SyncServer) error { // make secret time based TURN credentials optional var turnCredentials *TURNCredentials if s.config.TURNConfig.TimeBasedCredentials { creds := s.turnCredentialsManager.GenerateCredentials() turnCredentials = &creds } else { turnCredentials = nil } plainResp := toSyncResponse(ctx, s.config, peer, turnCredentials, networkMap, s.accountManager.GetDNSDomain(), postureChecks, nil) encryptedResp, err := encryption.EncryptMessage(peerKey, s.wgKey, plainResp) if err != nil { return status.Errorf(codes.Internal, "error handling request") } err = srv.Send(&proto.EncryptedMessage{ WgPubKey: s.wgKey.PublicKey().String(), Body: encryptedResp, }) if err != nil { log.WithContext(ctx).Errorf("failed sending SyncResponse %v", err) return status.Errorf(codes.Internal, "error handling request") } return nil } // GetDeviceAuthorizationFlow returns a device authorization flow information // This is used for initiating an Oauth 2 device authorization grant flow // which will be used by our clients to Login func (s *GRPCServer) GetDeviceAuthorizationFlow(ctx context.Context, req *proto.EncryptedMessage) (*proto.EncryptedMessage, error) { peerKey, err := wgtypes.ParseKey(req.GetWgPubKey()) if err != nil { errMSG := fmt.Sprintf("error while parsing peer's Wireguard public key %s on GetDeviceAuthorizationFlow request.", req.WgPubKey) log.WithContext(ctx).Warn(errMSG) return nil, status.Error(codes.InvalidArgument, errMSG) } err = encryption.DecryptMessage(peerKey, s.wgKey, req.Body, &proto.DeviceAuthorizationFlowRequest{}) if err != nil { errMSG := fmt.Sprintf("error while decrypting peer's message with Wireguard public key %s.", req.WgPubKey) log.WithContext(ctx).Warn(errMSG) return nil, status.Error(codes.InvalidArgument, errMSG) } if s.config.DeviceAuthorizationFlow == nil || s.config.DeviceAuthorizationFlow.Provider == string(NONE) { return nil, status.Error(codes.NotFound, "no device authorization flow information available") } provider, ok := proto.DeviceAuthorizationFlowProvider_value[strings.ToUpper(s.config.DeviceAuthorizationFlow.Provider)] if !ok { return nil, status.Errorf(codes.InvalidArgument, "no provider found in the protocol for %s", s.config.DeviceAuthorizationFlow.Provider) } flowInfoResp := &proto.DeviceAuthorizationFlow{ Provider: proto.DeviceAuthorizationFlowProvider(provider), ProviderConfig: &proto.ProviderConfig{ ClientID: s.config.DeviceAuthorizationFlow.ProviderConfig.ClientID, ClientSecret: s.config.DeviceAuthorizationFlow.ProviderConfig.ClientSecret, Domain: s.config.DeviceAuthorizationFlow.ProviderConfig.Domain, Audience: s.config.DeviceAuthorizationFlow.ProviderConfig.Audience, DeviceAuthEndpoint: s.config.DeviceAuthorizationFlow.ProviderConfig.DeviceAuthEndpoint, TokenEndpoint: s.config.DeviceAuthorizationFlow.ProviderConfig.TokenEndpoint, Scope: s.config.DeviceAuthorizationFlow.ProviderConfig.Scope, UseIDToken: s.config.DeviceAuthorizationFlow.ProviderConfig.UseIDToken, }, } encryptedResp, err := encryption.EncryptMessage(peerKey, s.wgKey, flowInfoResp) if err != nil { return nil, status.Error(codes.Internal, "failed to encrypt no device authorization flow information") } return &proto.EncryptedMessage{ WgPubKey: s.wgKey.PublicKey().String(), Body: encryptedResp, }, nil } // GetPKCEAuthorizationFlow returns a pkce authorization flow information // This is used for initiating an Oauth 2 pkce authorization grant flow // which will be used by our clients to Login func (s *GRPCServer) GetPKCEAuthorizationFlow(ctx context.Context, req *proto.EncryptedMessage) (*proto.EncryptedMessage, error) { peerKey, err := wgtypes.ParseKey(req.GetWgPubKey()) if err != nil { errMSG := fmt.Sprintf("error while parsing peer's Wireguard public key %s on GetPKCEAuthorizationFlow request.", req.WgPubKey) log.WithContext(ctx).Warn(errMSG) return nil, status.Error(codes.InvalidArgument, errMSG) } err = encryption.DecryptMessage(peerKey, s.wgKey, req.Body, &proto.PKCEAuthorizationFlowRequest{}) if err != nil { errMSG := fmt.Sprintf("error while decrypting peer's message with Wireguard public key %s.", req.WgPubKey) log.WithContext(ctx).Warn(errMSG) return nil, status.Error(codes.InvalidArgument, errMSG) } if s.config.PKCEAuthorizationFlow == nil { return nil, status.Error(codes.NotFound, "no pkce authorization flow information available") } flowInfoResp := &proto.PKCEAuthorizationFlow{ ProviderConfig: &proto.ProviderConfig{ Audience: s.config.PKCEAuthorizationFlow.ProviderConfig.Audience, ClientID: s.config.PKCEAuthorizationFlow.ProviderConfig.ClientID, ClientSecret: s.config.PKCEAuthorizationFlow.ProviderConfig.ClientSecret, TokenEndpoint: s.config.PKCEAuthorizationFlow.ProviderConfig.TokenEndpoint, AuthorizationEndpoint: s.config.PKCEAuthorizationFlow.ProviderConfig.AuthorizationEndpoint, Scope: s.config.PKCEAuthorizationFlow.ProviderConfig.Scope, RedirectURLs: s.config.PKCEAuthorizationFlow.ProviderConfig.RedirectURLs, UseIDToken: s.config.PKCEAuthorizationFlow.ProviderConfig.UseIDToken, }, } encryptedResp, err := encryption.EncryptMessage(peerKey, s.wgKey, flowInfoResp) if err != nil { return nil, status.Error(codes.Internal, "failed to encrypt no pkce authorization flow information") } return &proto.EncryptedMessage{ WgPubKey: s.wgKey.PublicKey().String(), Body: encryptedResp, }, nil } // SyncMeta endpoint is used to synchronize peer's system metadata and notifies the connected, // peer's under the same account of any updates. func (s *GRPCServer) SyncMeta(ctx context.Context, req *proto.EncryptedMessage) (*proto.Empty, error) { realIP := getRealIP(ctx) log.WithContext(ctx).Debugf("Sync meta request from peer [%s] [%s]", req.WgPubKey, realIP.String()) syncMetaReq := &proto.SyncMetaRequest{} peerKey, err := s.parseRequest(ctx, req, syncMetaReq) if err != nil { return nil, err } if syncMetaReq.GetMeta() == nil { msg := status.Errorf(codes.FailedPrecondition, "peer system meta has to be provided on sync. Peer %s, remote addr %s", peerKey.String(), realIP) log.WithContext(ctx).Warn(msg) return nil, msg } err = s.accountManager.SyncPeerMeta(ctx, peerKey.String(), extractPeerMeta(ctx, syncMetaReq.GetMeta())) if err != nil { return nil, mapError(ctx, err) } return &proto.Empty{}, nil } // toProtocolChecks converts posture checks to protocol checks. func toProtocolChecks(ctx context.Context, postureChecks []*posture.Checks) []*proto.Checks { protoChecks := make([]*proto.Checks, 0, len(postureChecks)) for _, postureCheck := range postureChecks { protoChecks = append(protoChecks, toProtocolCheck(postureCheck)) } return protoChecks } // toProtocolCheck converts a posture.Checks to a proto.Checks. func toProtocolCheck(postureCheck *posture.Checks) *proto.Checks { protoCheck := &proto.Checks{} if check := postureCheck.Checks.ProcessCheck; check != nil { for _, process := range check.Processes { if process.LinuxPath != "" { protoCheck.Files = append(protoCheck.Files, process.LinuxPath) } if process.MacPath != "" { protoCheck.Files = append(protoCheck.Files, process.MacPath) } if process.WindowsPath != "" { protoCheck.Files = append(protoCheck.Files, process.WindowsPath) } } } return protoCheck }