package chisel import ( "context" "fmt" "log" "net/http" "sync" "time" chserver "github.com/andres-portainer/chisel/server" "github.com/dchest/uniuri" portainer "github.com/portainer/portainer/api" "github.com/portainer/portainer/api/dataservices" "github.com/portainer/portainer/api/http/proxy" ) const ( tunnelCleanupInterval = 10 * time.Second requiredTimeout = 15 * time.Second activeTimeout = 4*time.Minute + 30*time.Second ) // Service represents a service to manage the state of multiple reverse tunnels. // It is used to start a reverse tunnel server and to manage the connection status of each tunnel // connected to the tunnel server. type Service struct { serverFingerprint string serverPort string tunnelDetailsMap map[portainer.EndpointID]*portainer.TunnelDetails dataStore dataservices.DataStore snapshotService portainer.SnapshotService chiselServer *chserver.Server shutdownCtx context.Context ProxyManager *proxy.Manager mu sync.Mutex } // NewService returns a pointer to a new instance of Service func NewService(dataStore dataservices.DataStore, shutdownCtx context.Context) *Service { return &Service{ tunnelDetailsMap: make(map[portainer.EndpointID]*portainer.TunnelDetails), dataStore: dataStore, shutdownCtx: shutdownCtx, } } // pingAgent ping the given agent so that the agent can keep the tunnel alive func (service *Service) pingAgent(endpointID portainer.EndpointID) error { tunnel := service.GetTunnelDetails(endpointID) requestURL := fmt.Sprintf("http://127.0.0.1:%d/ping", tunnel.Port) req, err := http.NewRequest(http.MethodHead, requestURL, nil) if err != nil { return err } httpClient := &http.Client{ Timeout: 3 * time.Second, } _, err = httpClient.Do(req) return err } // KeepTunnelAlive keeps the tunnel of the given environment for maxAlive duration, or until ctx is done func (service *Service) KeepTunnelAlive(endpointID portainer.EndpointID, ctx context.Context, maxAlive time.Duration) { go func() { log.Printf("[DEBUG] [chisel,KeepTunnelAlive] [endpoint_id: %d] [message: start for %.0f minutes]\n", endpointID, maxAlive.Minutes()) maxAliveTicker := time.NewTicker(maxAlive) defer maxAliveTicker.Stop() pingTicker := time.NewTicker(tunnelCleanupInterval) defer pingTicker.Stop() for { select { case <-pingTicker.C: service.SetTunnelStatusToActive(endpointID) err := service.pingAgent(endpointID) if err != nil { log.Printf("[DEBUG] [chisel,KeepTunnelAlive] [endpoint_id: %d] [warning: ping agent err=%s]\n", endpointID, err) } case <-maxAliveTicker.C: log.Printf("[DEBUG] [chisel,KeepTunnelAlive] [endpoint_id: %d] [message: stop as %.0f minutes timeout]\n", endpointID, maxAlive.Minutes()) return case <-ctx.Done(): err := ctx.Err() log.Printf("[DEBUG] [chisel,KeepTunnelAlive] [endpoint_id: %d] [message: stop as err=%s]\n", endpointID, err) return } } }() } // StartTunnelServer starts a tunnel server on the specified addr and port. // It uses a seed to generate a new private/public key pair. If the seed cannot // be found inside the database, it will generate a new one randomly and persist it. // It starts the tunnel status verification process in the background. // The snapshotter is used in the tunnel status verification process. func (service *Service) StartTunnelServer(addr, port string, snapshotService portainer.SnapshotService) error { keySeed, err := service.retrievePrivateKeySeed() if err != nil { return err } config := &chserver.Config{ Reverse: true, KeySeed: keySeed, } chiselServer, err := chserver.NewServer(config) if err != nil { return err } service.serverFingerprint = chiselServer.GetFingerprint() service.serverPort = port err = chiselServer.Start(addr, port) if err != nil { return err } service.chiselServer = chiselServer // TODO: work-around Chisel default behavior. // By default, Chisel will allow anyone to connect if no user exists. username, password := generateRandomCredentials() err = service.chiselServer.AddUser(username, password, "127.0.0.1") if err != nil { return err } service.snapshotService = snapshotService go service.startTunnelVerificationLoop() return nil } // StopTunnelServer stops tunnel http server func (service *Service) StopTunnelServer() error { return service.chiselServer.Close() } func (service *Service) retrievePrivateKeySeed() (string, error) { var serverInfo *portainer.TunnelServerInfo serverInfo, err := service.dataStore.TunnelServer().Info() if service.dataStore.IsErrObjectNotFound(err) { keySeed := uniuri.NewLen(16) serverInfo = &portainer.TunnelServerInfo{ PrivateKeySeed: keySeed, } err := service.dataStore.TunnelServer().UpdateInfo(serverInfo) if err != nil { return "", err } } else if err != nil { return "", err } return serverInfo.PrivateKeySeed, nil } func (service *Service) startTunnelVerificationLoop() { log.Printf("[DEBUG] [chisel, monitoring] [check_interval_seconds: %f] [message: starting tunnel management process]", tunnelCleanupInterval.Seconds()) ticker := time.NewTicker(tunnelCleanupInterval) for { select { case <-ticker.C: service.checkTunnels() case <-service.shutdownCtx.Done(): log.Println("[DEBUG] Shutting down tunnel service") if err := service.StopTunnelServer(); err != nil { log.Printf("Stopped tunnel service: %s", err) } ticker.Stop() return } } } func (service *Service) checkTunnels() { tunnels := make(map[portainer.EndpointID]portainer.TunnelDetails) service.mu.Lock() for key, tunnel := range service.tunnelDetailsMap { tunnels[key] = *tunnel } service.mu.Unlock() for endpointID, tunnel := range tunnels { if tunnel.LastActivity.IsZero() || tunnel.Status == portainer.EdgeAgentIdle { continue } elapsed := time.Since(tunnel.LastActivity) log.Printf("[DEBUG] [chisel,monitoring] [endpoint_id: %d] [status: %s] [status_time_seconds: %f] [message: environment tunnel monitoring]", endpointID, tunnel.Status, elapsed.Seconds()) if tunnel.Status == portainer.EdgeAgentManagementRequired && elapsed.Seconds() < requiredTimeout.Seconds() { continue } else if tunnel.Status == portainer.EdgeAgentManagementRequired && elapsed.Seconds() > requiredTimeout.Seconds() { log.Printf("[DEBUG] [chisel,monitoring] [endpoint_id: %d] [status: %s] [status_time_seconds: %f] [timeout_seconds: %f] [message: REQUIRED state timeout exceeded]", endpointID, tunnel.Status, elapsed.Seconds(), requiredTimeout.Seconds()) } if tunnel.Status == portainer.EdgeAgentActive && elapsed.Seconds() < activeTimeout.Seconds() { continue } else if tunnel.Status == portainer.EdgeAgentActive && elapsed.Seconds() > activeTimeout.Seconds() { log.Printf("[DEBUG] [chisel,monitoring] [endpoint_id: %d] [status: %s] [status_time_seconds: %f] [timeout_seconds: %f] [message: ACTIVE state timeout exceeded]", endpointID, tunnel.Status, elapsed.Seconds(), activeTimeout.Seconds()) err := service.snapshotEnvironment(endpointID, tunnel.Port) if err != nil { log.Printf("[ERROR] [snapshot] Unable to snapshot Edge environment (id: %d): %s", endpointID, err) } } service.SetTunnelStatusToIdle(portainer.EndpointID(endpointID)) } } func (service *Service) snapshotEnvironment(endpointID portainer.EndpointID, tunnelPort int) error { endpoint, err := service.dataStore.Endpoint().Endpoint(endpointID) if err != nil { return err } endpointURL := endpoint.URL endpoint.URL = fmt.Sprintf("tcp://127.0.0.1:%d", tunnelPort) err = service.snapshotService.SnapshotEndpoint(endpoint) if err != nil { return err } endpoint.URL = endpointURL return service.dataStore.Endpoint().UpdateEndpoint(endpoint.ID, endpoint) }