Swift CoreBluetooth：CentralManager是否应该在单独的线程中运行？

Question

现在我在主线程中运行了所有东西，到目前为止，我只注意到UI中有一次出现了一些滞后现象。

我不知道利用CoreBluetooth库的并发性的一般做法是什么？

你能否提供一些例子，究竟应该在其他队列中运行什么？

我的蓝牙的使用：

我扫描两个外围设备，通过在订单发送approapriate值作为CBPeripheralManager控制它们以使它们开始从IMU（取决于值50赫兹/ 100Hz的）发送数据。

我同步并标准化来自标签的数据并使用流化器将它们写入文件。

传输完成后，我通过触发按钮的相关操作手动发送数据文件。

我的代码

class BluetoothTagController: NSObject, CBCentralManagerDelegate, CBPeripheralDelegate, CBPeripheralManagerDelegate{ 
static let sharedInstance = BluetoothTagController() 
var transferCharacteristic:CBMutableCharacteristic! 
var centralManager : CBCentralManager! 
var sensorTagPeripheral : CBPeripheral! 
var synchronizer:DataSynchronizer! 
var sensorTagPeripheralArray : [CBPeripheral] = [] 
var peripheralManager: CBPeripheralManager! 
var bluetoothIsON:Bool = false 

var tag1Updating:Bool = false 
var tag2Updating:Bool = false 
var tag1Changed:Bool = false 
var tag2Changed:Bool = false 
var tagsIds:[String] = [] 
var peripheralCounter:Int = 0 
var peripheralCounter2:Int = 0 
var writeCounter:Int = 0 
var timerSet:Bool = false 
var haveBeenStarted:Bool = false 


override init() 
{ 
    super.init() 

    centralManager = CBCentralManager(delegate: self, queue: nil) 
    peripheralManager = CBPeripheralManager(delegate: self, queue: nil) 
    self.synchronizer = DataSynchronizer(frequency: 1) 



} 


func peripheralManager(_ peripheral: CBPeripheralManager, didAdd service: CBService, error: Error?) { 

    print("WATCH OUT") 
    //  print(service) 
} 
func setHaveBeenStarted(haveBeen: Bool) { 
    haveBeenStarted = haveBeen 
} 

func peripheralManager(_ peripheral: CBPeripheralManager, central: CBCentral, didSubscribeTo characteristic: CBCharacteristic) { 

    print("subscription started") 
    var intVal: NSInteger = 0 
    if haveBeenStarted == true { 
     intVal = 2 
    } 
    let valueData:Data = Data(buffer: UnsafeBufferPointer(start: &intVal, count: 1)) 



    var didSend:Bool = self.peripheralManager.updateValue(valueData, for: self.transferCharacteristic, onSubscribedCentrals: nil) 
    print(didSend) 

} 

func peripheralManagerDidUpdateState(_ peripheral: CBPeripheralManager) { 
    if peripheral.state != .poweredOn 
    { 
     print("no power") 
     self.bluetoothIsON = false 
     return 
    } 
    self.bluetoothIsON = true 
    print("powered on") 
    let serviceCBUUID = CBUUID(string: "5DC90000-8F79-462B-98D7-C1F8C766FA47") 
    let transferService:CBMutableService = CBMutableService(type: serviceCBUUID, primary: true) 
    let characteristicBUUID = CBUUID(string: "5DC90001-8F79-462B-98D7-C1F8C766FA47") 
    var intVal: NSInteger = 2 
    let valueData:Data = Data(buffer: UnsafeBufferPointer(start: &intVal, count: 1)) 
    let transferCharacteristic = CBMutableCharacteristic(type: characteristicBUUID, properties: .notify, value: nil, permissions: .readable) 
    self.transferCharacteristic = transferCharacteristic 

    transferService.characteristics = [transferCharacteristic as CBCharacteristic] 
    self.peripheralManager.add(transferService) 
    self.peripheralManager.startAdvertising(nil) 


} 


func peripheralManagerDidStartAdvertising(_ peripheral: CBPeripheralManager, error: Error?) { 
} 
func peripheralManager(_ peripheral: CBPeripheralManager, didReceiveRead request: CBATTRequest) { 

    print("didReceiveReadRequest") 
    // 
} 

func peripheralManager(_ peripheral: CBPeripheralManager, central: CBCentral, didUnsubscribeFrom characteristic: CBCharacteristic) { 
    print("Unsubscribed") 

    //  var intVal: NSInteger = 0 
    //  let valueData:Data = Data(buffer: UnsafeBufferPointer(start: &intVal, count: 1)) 
    //  self.peripheralManager.updateValue(valueData, for: self.transferCharacteristic, onSubscribedCentrals: nil) 

} 


/******* CBCentralManagerDelegate *******/ 

// Check status of BLE hardware 
func centralManagerDidUpdateState(_ central: CBCentralManager) { 

    if central.state == .poweredOn { 
     // Scan for peripherals if BLE is turned on 
     central.scanForPeripherals(withServices: nil, options: nil) 

    } 
    else { 
     // Can have different conditions for all states if needed - show generic alert for now 

    } 
} 



// Check out the discovered peripherals to find Sensor Tag 
func centralManager(_ central: CBCentralManager, didDiscover peripheral: CBPeripheral, advertisementData: [String : Any], rssi RSSI: NSNumber) { 
    print("array2 contains" + "\(self.sensorTagPeripheralArray.count)") 

    if SensorTag.sensorTagFound(advertisementData) == true { 

     // Update Status Label' 
     self.sensorTagPeripheral = peripheral 
     self.sensorTagPeripheral.delegate = self 
     self.centralManager.connect(peripheral, options: nil) 
     if !self.sensorTagPeripheralArray.contains(peripheral) 
     { 
      self.sensorTagPeripheralArray.append(peripheral) 
      self.tagsIds.append("\(peripheral.identifier)") 
      //    self.centralManager.connectPeripheral(peripheral, options: nil) 
     } 

     else { 

      //showAlertWithText(header: "Warning", message: "SensorTag Not Found") 
     } 
    } 
} 

// Discover services of the peripheral 
func centralManager(_ central: CBCentralManager, didConnect peripheral: CBPeripheral) { 

    print("connected " + "\(peripheral.identifier)") 
    print("array contains" + "\(self.sensorTagPeripheralArray.count)") 

    numberOfTagsSending = numberOfTagsSending + 1 
    peripheral.discoverServices(nil) 
} 


// If disconnected, start searching again 
func centralManager(_ central: CBCentralManager, didDisconnectPeripheral peripheral: CBPeripheral, error: Error?) { 
    //  print("error") 
    //  print(error) 

    //  self.sensorTagPeripheralArray.arrayRemovingObject(peripheral) 
    //  print(sensorTagPeripheralArray) 
    numberOfTagsSending = numberOfTagsSending - 1 
    print("removed") 

    synchronizer.alreadySynced = false 


    central.scanForPeripherals(withServices: nil, options: nil) 
} 

func centralManager(_ central: CBCentralManager, willRestoreState dict: [String : Any]) { 
    print("ciekawe") 
} 

func peripheral(_ peripheral: CBPeripheral, didDiscoverServices error: Error?) { 

    print("looking for p services") 
    print("discovered services " + "\(peripheral.identifier)") 
    for service in peripheral.services! { 

     let thisService = service as CBService 
     if SensorTag.validService(thisService) { 
      // Discover characteristics of all valid services 
      peripheral.discoverCharacteristics(nil, for: thisService) 
     } 
    } 
} 


// Enable notification and sensor for each characteristic of valid service 
func peripheral(_ peripheral: CBPeripheral, didDiscoverCharacteristicsFor service: CBService, error: Error?) { 

    //  print("discovered characteristic " + "\(peripheral.identifier)") 



    var enableValue = 1 
    let enablyBytes = Data(buffer: UnsafeBufferPointer(start: &enableValue, count: 1)) 
    //  print("\n") 
    for charateristic in service.characteristics! { 
     print(charateristic.uuid) 
     let thisCharacteristic = charateristic as CBCharacteristic 
     if SensorTag.validDataCharacteristic(thisCharacteristic) { 
      // Enable Sensor Notification 
      print("valid char") 
      //    print(thisCharacteristic) 

      peripheral.setNotifyValue(true, for: thisCharacteristic) 
      if thisCharacteristic.uuid == MagnetometerDataUUID{ 
       peripheral.readValue(for: thisCharacteristic) 


      } 
      print("after notify set") 
      //    print(self.sensorTagPeripheral.services) 
     } 
     if SensorTag.validConfigCharacteristic(thisCharacteristic) { 
      // Enable Sensor 
      print("more valid") 
      //    print(thisCharacteristic) 
      //    for peripheral in self.sensorTagPeripheralArray{ 
      peripheral.writeValue(enablyBytes, for: thisCharacteristic, type: CBCharacteristicWriteType.withResponse) 

     } 
    } 

} 




func centralManager(_ central: CBCentralManager, didFailToConnect peripheral: CBPeripheral, error: Error?) { 

    print(error) 

} 
// var streamerTag1 = MyStreamer(fileString: "tag1.txt") 
// var streamerTag2 = MyStreamer(fileString: "tag2.txt") 


func peripheral(_ peripheral: CBPeripheral, didUpdateValueFor characteristic: CBCharacteristic, error: Error?) { 

    print(characteristic.value!) 




    if "\(peripheral.identifier)" == self.tagsIds[0] 

    { 
     switch characteristic.uuid 
     { 
     case MagnetometerDataUUID: 
      tag1Compensator.getTrimRegisterData(characteristic.value!) 

     case IRTemperatureDataUUID: 
      tag1Temperature = Double(UInt16(littleEndian: (characteristic.value! as NSData).bytes.bindMemory(to: UInt16.self, capacity: characteristic.value!.count).pointee)) 

     case IMUDataUUID: 
      synchronizer.fillTagArray(characteristic.value!, tag: .first) 

     default: 
      return 

     } 
    } 
    else if (self.tagsIds.count > 1) && ("\(peripheral.identifier)" == self.tagsIds[1]) 
    { 
     switch characteristic.uuid 
     { 
     case MagnetometerDataUUID: 
      tag2Compensator.getTrimRegisterData(characteristic.value!) 

     case IRTemperatureDataUUID: 
      tag2Temperature = Double(UInt16(littleEndian: (characteristic.value! as NSData).bytes.bindMemory(to: UInt16.self, capacity: characteristic.value!.count).pointee)) 

     case IMUDataUUID: 
      synchronizer.fillTagArray(characteristic.value!, tag: .second) 

     default: 
      return 

     } 

    } 
} 

} 

Answer 1

尝试创建blutoothOperation类，这是Oeration（的NSOperation）的子类。 操作类的示例参考和利用率。从上面的链接

https://developer.apple.com/videos/play/wwdc2015/226/

下载示例项目。

Answer 2

我总是在后台线程上运行蓝牙活动，因为某些蓝牙API调用有可能被阻止。

我想移动到后台的主要候选人正在扫描和发现方法，因为这是一个真正的硬件操作执行的地方。

我的任务使用Grand Central Dispatch就足够了。

EDIT：GCD使用的最简单的例子：

func peripheral(_ peripheral: CBPeripheral, didUpdateValueFor characteristic: CBCharacteristic, error: Error?) { 
    DispatchQueue.main.async { 
     valueLabel.text = peripheral.value.map { String(data: $0, encoding: NSUTF8StringEncoding) } 
    } 
}