// UUID list // https://bitbucket.org/bluetooth-SIG/public/src/main/assigned_numbers/uuids/characteristic_uuids.yaml const serviceFTMS = 0x1826; const rowerData = 0x2ad1; function connect() { console.log('Requesting FTMS Bluetooth Device...'); return navigator.bluetooth.requestDevice({ filters: [{ services: [serviceFTMS], }] }) .then(device => { // Human-readable name of the device. console.log('Device name: '.device.name); console.log('Connecting to GATT Server...'); return device.gatt.connect(); }) .then(server => { console.log('Getting Service...'); return server.getPrimaryService(serviceFTMS); }) .then(service => { console.log('Getting Characteristic...'); return service.getCharacteristic(rowerData); }) .then(characteristic => { characteristic.startNotifications().then(_ => { console.log('> Notifications started'); document.querySelector(".setupinfo").style.display="none"; document.querySelector(".training").style.display="block"; }); return characteristic; }) .catch(error => { console.log('Argh! ' + error); }); } // Field descriptions and lengths: // https://bitbucket.org/bluetooth-SIG/public/src/main/gss/org.bluetooth.characteristic.rower_data.yaml function parseRowerData(value) { let a = []; // Convert raw data bytes to hex values in order to console log each notification. for (let i = 0; i < value.byteLength; i++) { a.push('0x' + ('00' + value.getUint8(i).toString(16)).slice(-2)); } console.log('> ' + a.join(' ')); var flags = value.getUint16(0, littleEndian = true); let byteIndex = 2; var data = []; if ((flags & (1 << 0)) == 0) { data['Stroke Rate'] = value.getUint8(byteIndex, littleEndian = true); byteIndex += 1; data['Stroke Count'] = value.getUint16(byteIndex, littleEndian = true); byteIndex += 2; } if ((flags & (1 << 1)) != 0) { data['Average Stroke Rate'] = value.getUint8(byteIndex, littleEndian = true); byteIndex += 1; } if ((flags & (1 << 2)) != 0) { data['Total Distance'] = value.getUint16(byteIndex, littleEndian = true) + (value.getUint8(byteIndex + 2, littleEndian = true) << 16); byteIndex += 3; } if ((flags & (1 << 3)) != 0) { data['Instantaneous Pace'] = value.getUint16(byteIndex, littleEndian = true); byteIndex += 2; } if ((flags & (1 << 4)) != 0) { data['Average Pace'] = value.getUint16(byteIndex, littleEndian = true); byteIndex += 2; } if ((flags & (1 << 5)) != 0) { data['Instantaneous Power'] = value.getInt16(byteIndex, littleEndian = true); byteIndex += 2; } if ((flags & (1 << 6)) != 0) { data['Average Power'] = value.getInt16(byteIndex, littleEndian = true); byteIndex += 2; } if ((flags & (1 << 7)) != 0) { data['Resistance Level'] = value.getUint8(byteIndex, littleEndian = true); byteIndex++; } if ((flags & (1 << 8)) != 0) { data['Total Energy'] = value.getUint16(byteIndex, littleEndian = true); byteIndex += 2; data['Energy Per Hour'] = value.getUint16(byteIndex, littleEndian = true); byteIndex += 2; data['Energy Per Minute'] = value.getUint8(byteIndex, littleEndian = true); byteIndex += 1; } if ((flags & (1 << 9)) != 0) { data['Heart Rate'] = value.getUint8(byteIndex, littleEndian = true); byteIndex += 1; } if ((flags & (1 << 10)) != 0) { data['Metabolic Equivalent'] = value.getUint8(byteIndex, littleEndian = true); byteIndex += 1; } if ((flags & (1 << 11)) != 0) { data['Elapsed Time'] = value.getUint16(byteIndex, littleEndian = true); byteIndex += 2; } if ((flags & (1 << 12)) != 0) { data['Remaining Time'] = value.getUint16(byteIndex, littleEndian = true); byteIndex += 2; } return data; }