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gd-ant-plus

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A node module for ANT+ - forked from longhorn/ant-plus

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"use strict"; /* * ANT+ profile: https://www.thisisant.com/developer/ant-plus/device-profiles/#526_tab * Spec sheet: https://www.thisisant.com/resources/heart-rate-monitor/ */ Object.defineProperty(exports, "__esModule", { value: true }); exports.HeartRateScanner = exports.HeartRateSensor = void 0; const Ant = require("./ant"); const Constants = Ant.Constants; const Messages = Ant.Messages; class HeartRateSensorState { constructor(deviceId) { this.DeviceID = deviceId; } } class HeartRateScannerState extends HeartRateSensorState { } var PageState; (function (PageState) { PageState[PageState["INIT_PAGE"] = 0] = "INIT_PAGE"; PageState[PageState["STD_PAGE"] = 1] = "STD_PAGE"; PageState[PageState["EXT_PAGE"] = 2] = "EXT_PAGE"; })(PageState || (PageState = {})); class HeartRateSensor extends Ant.AntPlusSensor { constructor(stick) { super(stick); this.page = { oldPage: -1, pageState: PageState.INIT_PAGE, }; this.decodeDataCbk = this.decodeData.bind(this); } attach(channel, deviceID) { super.attach(channel, 'receive', deviceID, HeartRateSensor.deviceType, 0, 255, 8070); this.state = new HeartRateSensorState(deviceID); } decodeData(data) { if (data.readUInt8(Messages.BUFFER_INDEX_CHANNEL_NUM) !== this.channel) { return; } switch (data.readUInt8(Messages.BUFFER_INDEX_MSG_TYPE)) { case Constants.MESSAGE_CHANNEL_BROADCAST_DATA: case Constants.MESSAGE_CHANNEL_ACKNOWLEDGED_DATA: case Constants.MESSAGE_CHANNEL_BURST_DATA: if (this.deviceID === 0) { this.write(Messages.requestMessage(this.channel, Constants.MESSAGE_CHANNEL_ID)); } updateState(this, this.state, this.page, data); break; case Constants.MESSAGE_CHANNEL_ID: this.deviceID = data.readUInt16LE(Messages.BUFFER_INDEX_MSG_DATA); this.transmissionType = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 3); this.state.DeviceID = this.deviceID; break; default: break; } } } exports.HeartRateSensor = HeartRateSensor; HeartRateSensor.deviceType = 120; class HeartRateScanner extends Ant.AntPlusScanner { constructor(stick) { super(stick); this.states = {}; this.pages = {}; this.decodeDataCbk = this.decodeData.bind(this); } scan() { super.scan('receive'); } decodeData(data) { if (data.length <= (Messages.BUFFER_INDEX_EXT_MSG_BEGIN + 3) || !(data.readUInt8(Messages.BUFFER_INDEX_EXT_MSG_BEGIN) & 0x80)) { console.log('wrong message format'); return; } const deviceId = data.readUInt16LE(Messages.BUFFER_INDEX_EXT_MSG_BEGIN + 1); const deviceType = data.readUInt8(Messages.BUFFER_INDEX_EXT_MSG_BEGIN + 3); if (deviceType !== HeartRateScanner.deviceType) { return; } if (!this.states[deviceId]) { this.states[deviceId] = new HeartRateScannerState(deviceId); } if (!this.pages[deviceId]) { this.pages[deviceId] = { oldPage: -1, pageState: PageState.INIT_PAGE }; } if (data.readUInt8(Messages.BUFFER_INDEX_EXT_MSG_BEGIN) & 0x40) { if (data.readUInt8(Messages.BUFFER_INDEX_EXT_MSG_BEGIN + 5) === 0x20) { this.states[deviceId].Rssi = data.readInt8(Messages.BUFFER_INDEX_EXT_MSG_BEGIN + 6); this.states[deviceId].Threshold = data.readInt8(Messages.BUFFER_INDEX_EXT_MSG_BEGIN + 7); } } switch (data.readUInt8(Messages.BUFFER_INDEX_MSG_TYPE)) { case Constants.MESSAGE_CHANNEL_BROADCAST_DATA: case Constants.MESSAGE_CHANNEL_ACKNOWLEDGED_DATA: case Constants.MESSAGE_CHANNEL_BURST_DATA: updateState(this, this.states[deviceId], this.pages[deviceId], data); break; default: break; } } } exports.HeartRateScanner = HeartRateScanner; HeartRateScanner.deviceType = 120; const TOGGLE_MASK = 0x80; function updateState(sensor, state, page, data) { const pageNum = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA); if (page.pageState === PageState.INIT_PAGE) { page.pageState = PageState.STD_PAGE; // change the state to STD_PAGE and allow the checking of old and new pages // decode with pages if the page byte or toggle bit has changed } else if ((pageNum !== page.oldPage) || (page.pageState === PageState.EXT_PAGE)) { page.pageState = PageState.EXT_PAGE; // set the state to use the extended page format switch (pageNum & ~TOGGLE_MASK) { //check the new pages and remove the toggle bit case 1: //decode the cumulative operating time state.OperatingTime = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 1); state.OperatingTime |= data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 2) << 8; state.OperatingTime |= data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 3) << 16; state.OperatingTime *= 2; break; case 2: //decode the Manufacturer ID state.ManId = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 1); //decode the 4 byte serial number state.SerialNumber = state.DeviceID; state.SerialNumber |= data.readUInt16LE(Messages.BUFFER_INDEX_MSG_DATA + 2) << 16; state.SerialNumber >>>= 0; break; case 3: //decode HW version, SW version, and model number state.HwVersion = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 1); state.SwVersion = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 2); state.ModelNum = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 3); break; case 4: //decode the previous heart beat measurement time state.PreviousBeat = data.readUInt16LE(Messages.BUFFER_INDEX_MSG_DATA + 2); break; case 5: state.IntervalAverage = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 1); state.IntervalMax = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 2); state.SessionAverage = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 3); break; case 6: state.SupportedFeatures = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 2); state.EnabledFeatures = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 3); break; case 7: { const batteryLevel = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 1); const batteryFrac = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 2); const batteryStatus = data.readUInt8(Messages.BUFFER_INDEX_MSG_DATA + 3); if (batteryLevel !== 0xFF) { state.BatteryLevel = batteryLevel; } state.BatteryVoltage = (batteryStatus & 0x0F) + (batteryFrac / 256); const batteryFlags = (batteryStatus & 0x70) >>> 4; switch (batteryFlags) { case 1: state.BatteryStatus = 'New'; break; case 2: state.BatteryStatus = 'Good'; break; case 3: state.BatteryStatus = 'Ok'; break; case 4: state.BatteryStatus = 'Low'; break; case 5: state.BatteryStatus = 'Critical'; break; default: state.BatteryVoltage = undefined; state.BatteryStatus = 'Invalid'; break; } break; } default: break; } } // decode the last four bytes of the HRM format, the first byte of this message is the channel number DecodeDefaultHRM(state, data.slice(Messages.BUFFER_INDEX_MSG_DATA + 4)); page.oldPage = pageNum; sensor.emit('hbdata', state); sensor.emit('hbData', state); } function DecodeDefaultHRM(state, pucPayload) { // decode the measurement time data (two bytes) state.BeatTime = pucPayload.readUInt16LE(0); // decode the measurement count data state.BeatCount = pucPayload.readUInt8(2); // decode the measurement count data state.ComputedHeartRate = pucPayload.readUInt8(3); } //# sourceMappingURL=heart-rate-sensors.js.map