'use strict' /* Open Rowing Monitor, https://github.com/laberning/openrowingmonitor This implements the Indoor Bike Data Characteristic as defined by the Bluetooth SIG Currently hardly any applications exist that support these FTMS Characteristic for Rowing. So we use this to simulate an FTMS Indoor Bike characteristic. Of course we can not deliver rowing specific parameters like this (such as stroke rate), but this allows us to use the open rowing monitor with bike training platforms such as Zwift, Sufferfest, RGT Cycling, Kinomap, Bkool, Rouvy and more... So far tested on: - Kinomap.com: uses Power and Speed - Fulgaz: uses Power and Speed - Zwift: uses Power - RGT Cycling: connects Power but then disconnects again (seems something is missing here) From specs: The Server should notify this characteristic at a regular interval, typically once per second while in a connection and the interval is not configurable by the Client */ import bleno from '@abandonware/bleno' import log from 'loglevel' import BufferBuilder from '../BufferBuilder.js' export default class IndoorBikeDataCharacteristic extends bleno.Characteristic { constructor () { super({ // Indoor Bike Data uuid: '2AD2', value: null, properties: ['notify'] }) this._updateValueCallback = null this._subscriberMaxValueSize = null } onSubscribe (maxValueSize, updateValueCallback) { log.debug(`IndoorBikeDataCharacteristic - central subscribed with maxSize: ${maxValueSize}`) this._updateValueCallback = updateValueCallback this._subscriberMaxValueSize = maxValueSize return this.RESULT_SUCCESS } onUnsubscribe () { log.debug('IndoorBikeDataCharacteristic - central unsubscribed') this._updateValueCallback = null this._subscriberMaxValueSize = null return this.RESULT_UNLIKELY_ERROR } notify (data) { // ignore events without the mandatory fields if (!('speed' in data)) { log.error('can not deliver bike data without mandatory fields') return this.RESULT_SUCCESS } if (this._updateValueCallback) { const bufferBuilder = new BufferBuilder() // Field flags as defined in the Bluetooth Documentation // Instantaneous speed (default), Instantaneous Cadence (2), Total Distance (4), // Instantaneous Power (6), Total / Expended Energy (8), Heart Rate (9), Elapsed Time (11) // 01010100 bufferBuilder.writeUInt8(0x54) // 00001011 bufferBuilder.writeUInt8(0x0B) // see https://www.bluetooth.com/specifications/specs/gatt-specification-supplement-3/ // for some of the data types // Instantaneous Speed in km/h bufferBuilder.writeUInt16LE(Math.round(data.speed * 100)) // Instantaneous Cadence in rotations per minute (we use this to communicate the strokes per minute) bufferBuilder.writeUInt16LE(Math.round(data.strokesPerMinute * 2)) // Total Distance in meters bufferBuilder.writeUInt24LE(Math.round(data.distanceTotal)) // Instantaneous Power in watts bufferBuilder.writeUInt16LE(Math.round(data.power)) // Energy // Total energy in kcal bufferBuilder.writeUInt16LE(Math.round(data.caloriesTotal)) // Energy per hour // The Energy per Hour field represents the average expended energy of a user during a // period of one hour. bufferBuilder.writeUInt16LE(Math.round(data.caloriesPerHour)) // Energy per minute bufferBuilder.writeUInt8(Math.round(data.caloriesPerMinute)) // Heart Rate: Beats per minute with a resolution of 1 bufferBuilder.writeUInt8(Math.round(data.heartrate)) // Elapsed Time: Seconds with a resolution of 1 bufferBuilder.writeUInt16LE(Math.round(data.durationTotal)) const buffer = bufferBuilder.getBuffer() if (buffer.length > this._subscriberMaxValueSize) { log.warn(`IndoorBikeDataCharacteristic - notification of ${buffer.length} bytes is too large for the subscriber`) } this._updateValueCallback(bufferBuilder.getBuffer()) } return this.RESULT_SUCCESS } }