// Process communication payload from device (via websocket. or REST) // { // "device_id" : "9dfe2a00-efe2-45f9-a84c-8afc69caf4e7", // "sddl" : { // "optional inbound bool onoff" : {} // }, // "vars" : { // "temperature" : 38.0f; // "gps" : { // "latitude" : 38.0f; // "longitude" : 38.0f; // } // } // } // } // // <conn> is an optional datalayer connection. If provided, it is used. // Otherwise, a datalayer connection is opened by this routine. // // <device> is the device that sent the communication. If nil, then either // <deviceId> or, as a last resort, the payload's "device_id" will be used. // // <deviceId> is a string device ID of the device that sent the communication. // This is ignored if <device> is not nil. If nil, then the payload's // "device_id" will be used. // // <secretKey> is the device's secret key. A secret key is required if // <device> is nil. Either the value of <secretKey> or, as a last resort, the // payload's "secret_key" field will be used. // // <payload> is a string containing the JSON payload. func ProcessDeviceComm( cfg config.Config, conn datalayer.Connection, device datalayer.Device, deviceIdString string, secretKey string, payload string) ServiceResponse { var err error var out ServiceResponse var ok bool canolog.Info("ProcessDeviceComm STARTED") // If conn is nil, open a datalayer connection. if conn == nil { dl := cassandra_datalayer.NewDatalayer(cfg) conn, err = dl.Connect("canopy") if err != nil { return ServiceResponse{ HttpCode: http.StatusInternalServerError, Err: fmt.Errorf("Could not connect to database: %s", err), Response: `{"result" : "error", "error_type" : "could_not_connect_to_database"}`, Device: nil, } } defer conn.Close() } // Parse JSON payload var payloadObj map[string]interface{} err = json.Unmarshal([]byte(payload), &payloadObj) if err != nil { return ServiceResponse{ HttpCode: http.StatusBadRequest, Err: fmt.Errorf("Error JSON decoding payload: %s", err), Response: `{"result" : "error", "error_type" : "decoding_paylaod"}`, Device: nil, } } // Device can be provided to this routine in one of three ways: // 1) <device> parameter // 2) <deviceId> parameter // 3) "device_id" field in payload if device == nil && deviceIdString != "" { // Parse UUID uuid, err := gocql.ParseUUID(deviceIdString) if err != nil { return ServiceResponse{ HttpCode: http.StatusBadRequest, Err: fmt.Errorf("Invalid UUID %s: %s", deviceIdString, err), Response: `{"result" : "error", "error_type" : "device_uuid_required"}`, Device: nil, } } // Get secret key from payload if necessary if secretKey == "" { secretKey, ok = payloadObj["secret_key"].(string) if !ok { return ServiceResponse{ HttpCode: http.StatusBadRequest, Err: fmt.Errorf("\"secret_key\" field must be string"), Response: `{"result" : "error", "error_type" : "bad_payload"}`, Device: nil, } } } // lookup device device, err = conn.LookupDeviceVerifySecretKey(uuid, secretKey) if err != nil { return ServiceResponse{ HttpCode: http.StatusInternalServerError, Err: fmt.Errorf("Error looking up or verifying device: %s", err), Response: `{"result" : "error", "error_type" : "database_error"}`, Device: nil, } } } // Is "device_id" provided in payload? _, ok = payloadObj["device_id"] if ok { deviceIdStringFromPayload, ok := payloadObj["device_id"].(string) if !ok { return ServiceResponse{ HttpCode: http.StatusBadRequest, Err: fmt.Errorf("\"device_id\" field must be string"), Response: `{"result" : "error", "error_type" : "bad_payload"}`, Device: nil, } } // Parse UUID uuid, err := gocql.ParseUUID(deviceIdStringFromPayload) if err != nil { return ServiceResponse{ HttpCode: http.StatusBadRequest, Err: fmt.Errorf("Invalid UUID %s: %s", deviceIdStringFromPayload, err), Response: `{"result" : "error", "error_type" : "device_uuid_required"}`, Device: nil, } } // Is <device> already set? // If not: set it. // If so: ensure consistency if device == nil { // Get secret key from payload if necessary if secretKey == "" { secretKey, ok = payloadObj["secret_key"].(string) if !ok { return ServiceResponse{ HttpCode: http.StatusBadRequest, Err: fmt.Errorf("\"secret_key\" field must be string"), Response: `{"result" : "error", "error_type" : "bad_payload"}`, Device: nil, } } } // Lookup device device, err = conn.LookupDeviceVerifySecretKey(uuid, secretKey) if err != nil { return ServiceResponse{ HttpCode: http.StatusInternalServerError, Err: fmt.Errorf("Error looking up or verifying device: %s", err), Response: `{"result" : "error", "error_type" : "database_error"}`, Device: nil, } } } else { if device.ID().String() != deviceIdStringFromPayload { return ServiceResponse{ HttpCode: http.StatusBadRequest, Err: fmt.Errorf("Inconsistent device ID: %s %s", device.ID().String(), deviceIdStringFromPayload), Response: `{"result" : "error", "error_type" : "bad_payload"}`, Device: nil, } } } } // If device wasn't provided at all, throw error. if device == nil { return ServiceResponse{ HttpCode: http.StatusBadRequest, Err: fmt.Errorf("Device ID expected"), Response: `{"result" : "error", "error_type" : "bad_payload"}`, Device: nil, } } out.Device = device device.UpdateLastActivityTime(nil) // If "sddl" is present, create new / reconfigure Cloud Variables. _, ok = payloadObj["sddl"] if ok { updateMap, ok := payloadObj["sddl"].(map[string]interface{}) if !ok { return ServiceResponse{ HttpCode: http.StatusBadRequest, Err: fmt.Errorf("Expected object for \"sdd\" field"), Response: `{"result" : "error", "error_type" : "bad_payload"}`, Device: nil, } } err = device.ExtendSDDL(updateMap) if err != nil { return ServiceResponse{ HttpCode: http.StatusInternalServerError, Err: fmt.Errorf("Error updating device's SDDL: %s", err), Response: `{"result" : "error", "error_type" : "database_error"}`, Device: nil, } } } // If "vars" is present, update value of all Cloud Variables (creating new // Cloud Variables as necessary) doc := device.SDDLDocument() _, ok = payloadObj["vars"] canolog.Info("vars present:", ok) if ok { varsMap, ok := payloadObj["vars"].(map[string]interface{}) if !ok { return ServiceResponse{ HttpCode: http.StatusBadRequest, Err: fmt.Errorf("Expected object for \"vars\" field"), Response: `{"result" : "error", "error_type" : "bad_payload"}`, Device: nil, } } canolog.Info("varsMap: ", varsMap) for varName, value := range varsMap { varDef, err := doc.LookupVarDef(varName) // TODO: an error doesn't necessarily mean prop should be created? canolog.Info("Looking up property ", varName) if varDef == nil { // Property doesn't exist. Add it. canolog.Info("Not found. Add property ", varName) // TODO: What datatype? // TODO: What other parameters? varDef, err = doc.AddVarDef(varName, sddl.DATATYPE_FLOAT32) if err != nil { return ServiceResponse{ HttpCode: http.StatusInternalServerError, Err: fmt.Errorf("Error creating cloud variable %s: %s", varName, err), Response: `{"result" : "error", "error_type" : "database_error"}`, Device: nil, } } // save modified SDDL // TODO: Save at the end? canolog.Info("SetSDDLDocument ", doc) err = device.SetSDDLDocument(doc) if err != nil { return ServiceResponse{ HttpCode: http.StatusInternalServerError, Err: fmt.Errorf("Error updating SDDL: %s", err), Response: `{"result" : "error", "error_type" : "database_error"}`, Device: nil, } } } // Store property value. // Convert value datatype varVal, err := cloudvar.JsonToCloudVarValue(varDef, value) if err != nil { return ServiceResponse{ HttpCode: http.StatusInternalServerError, Err: fmt.Errorf("Error converting JSON to propertyValue: %s", err), Response: `{"result" : "error", "error_type" : "bad_payload"}`, Device: nil, } } canolog.Info("InsertStample") err = device.InsertSample(varDef, time.Now(), varVal) if err != nil { return ServiceResponse{ HttpCode: http.StatusInternalServerError, Err: fmt.Errorf("Error inserting sample %s: %s", varName, err), Response: `{"result" : "error", "error_type" : "database_error"}`, Device: nil, } } } } return ServiceResponse{ HttpCode: http.StatusOK, Err: nil, Response: `{"result" : "ok"}`, Device: device, } }
func deviceToJsonObj(device datalayer.Device, timestamp_type string) (map[string]interface{}, error) { statusJsonObj := map[string]interface{}{ "ws_connected": device.WSConnected(), } lastSeen := device.LastActivityTime() if lastSeen == nil { statusJsonObj["last_activity_time"] = nil } else { if timestamp_type == "epoch_us" { statusJsonObj["last_activity_time"] = canotime.EpochMicroseconds(*lastSeen) } else { statusJsonObj["last_activity_time"] = canotime.RFC3339(*lastSeen) } } out := map[string]interface{}{ "device_id": device.ID().String(), "friendly_name": device.Name(), "location_note": device.LocationNote(), "status": statusJsonObj, "var_decls": nil, "secret_key": device.SecretKey(), "vars": map[string]interface{}{}, "notifs": []interface{}{}, } sddlDoc := device.SDDLDocument() if sddlDoc != nil { out["var_decls"] = sddlDoc.Json() } outDoc := device.SDDLDocument() if outDoc != nil { // get most recent value of each sensor/control for _, varDef := range outDoc.VarDefs() { sample, err := device.LatestDataByName(varDef.Name()) if err != nil { continue } if timestamp_type == "epoch_us" { out["vars"].(map[string]interface{})[varDef.Name()] = map[string]interface{}{ "t": canotime.EpochMicroseconds(sample.Timestamp), "v": sample.Value, } } else { out["vars"].(map[string]interface{})[varDef.Name()] = map[string]interface{}{ "t": canotime.RFC3339(sample.Timestamp), "v": sample.Value, } } } // Generate JSON for notifications // /*notifications, err := device.HistoricNotifications() canolog.Info("Reading notifications") if err != nil { canolog.Info("Error reading notifications %s", err) return nil, err } outNotifications := []jsonNotification{}; for _, notification := range notifications { outNotifications = append( outNotifications, jsonNotification{ notification.Datetime().Format(time.RFC3339), notification.IsDismissed(), notification.Msg(), }) }*/ } return out, nil }
func GET__api__device__id__var(info *RestRequestInfo, sideEffect *RestSideEffects) (map[string]interface{}, RestError) { deviceIdString := info.URLVars["id"] sensorName := info.URLVars["var"] authorized := false var device datalayer.Device uuid, err := gocql.ParseUUID(deviceIdString) if err != nil { return nil, URLNotFoundError() } //if info.Config.OptAllowAnonDevices() && device.PublicAccessLevel() > datalayer.NoAccess { device, err = info.Conn.LookupDevice(uuid) if err != nil { // TODO: What errors to return here? return nil, InternalServerError("Device lookup failed") } authorized = true //} else { // TODO: fix anon devices if info.Account == nil { return nil, NotLoggedInError() } device, err = info.Account.Device(uuid) if err != nil { // TODO: What errors to return here? return nil, InternalServerError("Device lookup failed") } authorized = true //} if !authorized { // TODO: What is the correct error for this? return nil, URLNotFoundError() } doc := device.SDDLDocument() if doc == nil { return nil, URLNotFoundError() } varDef, err := doc.LookupVarDef(sensorName) if err != nil { return nil, URLNotFoundError() } samples, err := device.HistoricData(varDef, time.Now(), time.Now().Add(-59*time.Minute), time.Now()) if err != nil { return nil, InternalServerError("Could not obtain sample data: " + err.Error()) } // Convert samples to JSON out := map[string]interface{}{} out["result"] = "ok" out["samples"] = []interface{}{} for _, sample := range samples { out["samples"] = append(out["samples"].([]interface{}), map[string]interface{}{ "t": sample.Timestamp.Format(time.RFC3339), "v": sample.Value, }) } return out, nil }