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Android Bluetooth Low Energy (BLE) Fast Development Framework. It uses simple ways to filter, scan, connect, read ,write, notify, readRssi, setMTU, and multiConnection.

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FastBle

Android Bluetooth Low Energy

  • Filtering, scanning, linking, reading, writing, notification subscription and cancellation in a simple way.
  • Supports acquiring signal strength and setting the maximum transmission unit.
  • Support custom scan rules
  • Support multi device connections
  • Support reconnection
  • Support configuration timeout for conncet or operation

Gradle

  • Setp1: Add it in your root build.gradle at the end of repositories

      allprojects {
          repositories {
              ...
              maven { url 'https://jitpack.io' }
          }
      }
    
  • Step2: Add the dependency

      dependencies {
          implementation 'com.github.Jasonchenlijian:FastBle:2.4.0'
      }
    

Wiki

中文文档

Android BLE开发详解和FastBle源码解析

Usage

  • Init

      BleManager.getInstance().init(getApplication());
    
  • Determine whether the current Android system supports BLE

      boolean isSupportBle()
    
  • Open or close Bluetooth

      void enableBluetooth()
      void disableBluetooth()
    
  • Initialization configuration

      BleManager.getInstance()
              .enableLog(true)
              .setReConnectCount(1, 5000)
              .setSplitWriteNum(20)
              .setConnectOverTime(10000)
              .setOperateTimeout(5000);
    
  • Configuration scan rules

    void initScanRule(BleScanRuleConfig scanRuleConfig)

      BleScanRuleConfig scanRuleConfig = new BleScanRuleConfig.Builder()
              .setServiceUuids(serviceUuids)
              .setDeviceName(true, names)
              .setDeviceMac(mac)
              .setAutoConnect(isAutoConnect)
              .setScanTimeOut(10000)
              .build();
      BleManager.getInstance().initScanRule(scanRuleConfig);
    

    Tips:

    • Before scanning the device, scan rules can be configured to filter out the equipment matching the program.
    • What is not configured is the default parameter
  • Scan

    void scan(BleScanCallback callback)

      BleManager.getInstance().scan(new BleScanCallback() {
          @Override
          public void onScanStarted(boolean success) {
    
          }
    
          @Override
          public void onScanning(BleDevice bleDevice) {
    
          }
    
          @Override
          public void onScanFinished(List<BleDevice> scanResultList) {
    
          }
      });
    

    Tips:

    • The scanning and filtering process is carried out in the worker thread, so it will not affect the UI operation of the main thread. Eventually, every callback result will return to the main thread.。
  • Connect with device

    BluetoothGatt connect(BleDevice bleDevice, BleGattCallback bleGattCallback)

      BleManager.getInstance().connect(bleDevice, new BleGattCallback() {
          @Override
          public void onStartConnect() {
    
          }
    
          @Override
          public void onConnectFail(BleDevice bleDevice, BleException exception) {
    
          }
    
          @Override
          public void onConnectSuccess(BleDevice bleDevice, BluetoothGatt gatt, int status) {
    
          }
    
          @Override
          public void onDisConnected(boolean isActiveDisConnected, BleDevice bleDevice, BluetoothGatt gatt, int status) {
    
          }
      });
    

    Tips:

    • On some types of phones, connectGatt must be effective on the main thread. It is very recommended that the connection process be placed in the main thread.
    • After connection failure, reconnect: the framework contains reconnection mechanism after connection failure, which can configure reconnection times and intervals. Of course, you can also call the connect method in onConnectFail callback automatically.
    • The connection is disconnected and reconnected: you can call the connect method again in the onDisConnected callback method.
    • In order to ensure the success rate of reconnection, it is recommended to reconnect after a period of interval.
    • When some models fail, they will be unable to scan devices for a short time. They can be connected directly through device objects or devices MAC without scanning.
  • Connect with Mac

    BluetoothGatt connect(String mac, BleGattCallback bleGattCallback)

      BleManager.getInstance().connect(mac, new BleGattCallback() {
          @Override
          public void onStartConnect() {
    
          }
    
          @Override
          public void onConnectFail(BleDevice bleDevice, BleException exception) {
    
          }
    
          @Override
          public void onConnectSuccess(BleDevice bleDevice, BluetoothGatt gatt, int status) {
    
          }
    
          @Override
          public void onDisConnected(boolean isActiveDisConnected, BleDevice bleDevice, BluetoothGatt gatt, int status) {
    
          }
      });
    

    Tips:

    • This method can attempt to connect directly to the BLE device around the Mac without scanning.
    • In many usage scenarios, I suggest that APP save the Mac of the user's customary device, then use this method to connect, which will greatly improve the connection efficiency.
  • Scan and connect

    After scanning the first equipment that meets the scanning rules, it will stop scanning and connect to the device.

    void scanAndConnect(BleScanAndConnectCallback callback)

      BleManager.getInstance().scanAndConnect(new BleScanAndConnectCallback() {
          @Override
          public void onScanStarted(boolean success) {
    
          }
    
          @Override
          public void onScanFinished(BleDevice scanResult) {
    
          }
    
          @Override
          public void onStartConnect() {
    
          }
    
          @Override
          public void onConnectFail(BleDevice bleDevice,BleException exception) {
    
          }
    
          @Override
          public void onConnectSuccess(BleDevice bleDevice, BluetoothGatt gatt, int status) {
    
          }
    
          @Override
          public void onDisConnected(boolean isActiveDisConnected, BleDevice device, BluetoothGatt gatt, int status) {
    
          }
      }); 
    
  • Cancel scan

    void cancelScan()

      BleManager.getInstance().cancelScan();
    

    Tips:

    • If this method is called, if it is still in the scan state, it will end immediately, and callback the onScanFinished method.
  • Notify

    void notify(BleDevice bleDevice, String uuid_service, String uuid_notify, BleNotifyCallback callback) void notify(BleDevice bleDevice, String uuid_service, String uuid_notify, boolean useCharacteristicDescriptor, BleNotifyCallback callback)

      BleManager.getInstance().notify(
              bleDevice,
              uuid_service,
              uuid_characteristic_notify,
              new BleNotifyCallback() {
                  @Override
                  public void onNotifySuccess() {
    
                  }
    
                  @Override
                  public void onNotifyFailure(BleException exception) {
    
                  }
    
                  @Override
                  public void onCharacteristicChanged(byte[] data) {
    
                  }
              });
    
  • Stop Notify

    boolean stopNotify(BleDevice bleDevice, String uuid_service, String uuid_notify) boolean stopNotify(BleDevice bleDevice, String uuid_service, String uuid_notify, boolean useCharacteristicDescriptor)

      BleManager.getInstance().stopNotify(uuid_service, uuid_characteristic_notify);
    
  • Indicate

    void indicate(BleDevice bleDevice, String uuid_service, String uuid_indicate, BleIndicateCallback callback) void indicate(BleDevice bleDevice, String uuid_service, String uuid_indicate, boolean useCharacteristicDescriptor, BleIndicateCallback callback)

      BleManager.getInstance().indicate(
              bleDevice,
              uuid_service,
              uuid_characteristic_indicate,
              new BleIndicateCallback() {
                  @Override
                  public void onIndicateSuccess() {
    
                  }
    
                  @Override
                  public void onIndicateFailure(BleException exception) {
    
                  }
    
                  @Override
                  public void onCharacteristicChanged(byte[] data) {
    
                  }
              });
    
  • Stop Indicate

    boolean stopIndicate(BleDevice bleDevice, String uuid_service, String uuid_indicate) boolean stopIndicate(BleDevice bleDevice, String uuid_service, String uuid_indicate, boolean useCharacteristicDescriptor)

      BleManager.getInstance().stopIndicate(uuid_service, uuid_characteristic_indicate);
    
  • Write

    void write(BleDevice bleDevice, String uuid_service, String uuid_write, byte[] data, BleWriteCallback callback) void write(BleDevice bleDevice, String uuid_service, String uuid_write, byte[] data, boolean split, BleWriteCallback callback) void write(BleDevice bleDevice, String uuid_service, String uuid_write, byte[] data, boolean split, boolean sendNextWhenLastSuccess, long intervalBetweenTwoPackage, BleWriteCallback callback)

      BleManager.getInstance().write(
              bleDevice,
              uuid_service,
              uuid_characteristic_write,
              data,
              new BleWriteCallback() {
                  @Override
                  public void onWriteSuccess(int current, int total, byte[] justWrite) {
    
                  }
    
                  @Override
                  public void onWriteFailure(BleException exception) {
    
                  }
              });
    

    Tips:

    • Without expanding MTU and expanding MTU's ineffectiveness, subcontracting is required when long data with more than 20 bytes are to be sent. The parameter boolean split indicates whether to use packet delivery; the write method without the boolean split parameter is subcontracted to the data by more than 20 bytes by default.
    • On the onWriteSuccess callback method: current represents the number of packets that are currently sent, and total represents the total packet data this time, and justWrite represents the successful packet that has just been sent.
  • Read

    void read(BleDevice bleDevice, String uuid_service, String uuid_read, BleReadCallback callback)

      BleManager.getInstance().read(
              bleDevice,
              uuid_service,
              uuid_characteristic_read,
              new BleReadCallback() {
                  @Override
                  public void onReadSuccess(byte[] data) {
    
                  }
    
                  @Override
                  public void onReadFailure(BleException exception) {
    
                  }
              });
    
  • Get Rssi

    void readRssi(BleDevice bleDevice, BleRssiCallback callback)

      BleManager.getInstance().readRssi(
              bleDevice,
              new BleRssiCallback() {
    
                  @Override
                  public void onRssiFailure(BleException exception) {
    
                  }
    
                  @Override
                  public void onRssiSuccess(int rssi) {
    
                  }
              });
    

    Tips:

    • Obtaining the signal strength of the device must be carried out after the device is connected.
    • Some devices may not be able to read Rssi, do not callback onRssiSuccess (), and callback onRssiFailure () because of timeout.
  • set Mtu

    void setMtu(BleDevice bleDevice, int mtu, BleMtuChangedCallback callback)

      BleManager.getInstance().setMtu(bleDevice, mtu, new BleMtuChangedCallback() {
          @Override
          public void onSetMTUFailure(BleException exception) {
    
          }
    
          @Override
          public void onMtuChanged(int mtu) {
    
          }
      });
    

    Tips:

    • Setting up MTU requires operation after the device is connected.
    • There is no such restriction in the Android Version (API-17 to API-20). Therefore, only the equipment above API21 will expand the demand for MTU.
    • The parameter MTU of the method is set to 23, and the maximum setting is 512.
    • Not every device supports the expansion of MTU, which requires both sides of the communication, that is to say, the need for the device hardware also supports the expansion of the MTU method. After calling this method, you can see through onMtuChanged (int MTU) how much the maximum transmission unit of the device is expanded to after the final setup. If the device does not support, no matter how many settings, the final MTU will be 23.
  • requestConnectionPriority

    boolean requestConnectionPriority(BleDevice bleDevice,int connectionPriority)

    Tips:

    • Request a specific connection priority. Must be one of{@link BluetoothGatt#CONNECTION_PRIORITY_BALANCED}, {@link BluetoothGatt#CONNECTION_PRIORITY_HIGH} or {@link BluetoothGatt#CONNECTION_PRIORITY_LOW_POWER}.
  • Converte BleDevice object

    BleDevice convertBleDevice(BluetoothDevice bluetoothDevice)

    BleDevice convertBleDevice(ScanResult scanResult)

    Tips:

    • The completed BleDevice object is still unconnected, if necessary, advanced connection.
  • Get all connected devices

    List<BleDevice> getAllConnectedDevice()

      BleManager.getInstance().getAllConnectedDevice();
    
  • Get a BluetoothGatt of a connected device

    BluetoothGatt getBluetoothGatt(BleDevice bleDevice)

  • Get all Service of a connected device

    List<BluetoothGattService> getBluetoothGattServices(BleDevice bleDevice)

  • Get all the Characteristic of a Service

    List<BluetoothGattCharacteristic> getBluetoothGattCharacteristics(BluetoothGattService service)

  • Determine whether a device has been connected

    boolean isConnected(BleDevice bleDevice)

      BleManager.getInstance().isConnected(bleDevice);
    

    boolean isConnected(String mac)

      BleManager.getInstance().isConnected(mac);
    
  • Determine the current connection state of a device

    int getConnectState(BleDevice bleDevice)

      BleManager.getInstance().getConnectState(bleDevice);
    
  • Disconnect a device

    void disconnect(BleDevice bleDevice)

      BleManager.getInstance().disconnect(bleDevice);
    
  • Disconnect all devices

    void disconnectAllDevice()

      BleManager.getInstance().disconnectAllDevice();
    
  • Out of use, clean up resources

    void destroy()

      BleManager.getInstance().destroy();
    
  • HexUtil

    Data operation tool class

    String formatHexString(byte[] data, boolean addSpace)

    byte[] hexStringToBytes(String hexString)

    char[] encodeHex(byte[] data, boolean toLowerCase)

  • BleDevice

    BLE device object is the smallest unit object of scanning, connection and operation in this framework.

    String getName() Bluetooth broadcast name

    String getMac() Bluetooth MAC

    byte[] getScanRecord() Broadcast data

    int getRssi() Initial signal intensity

Contact

If you have problems and ideas to communicate with me, you can contact me in the following ways.

WeChat: chenlijian1216

Email: jasonchenlijian@gmail.com

License

   Copyright 2016 chenlijian

   Licensed under the Apache License, Version 2.0 (the "License");
   you may not use this file except in compliance with the License.
   You may obtain a copy of the License at

	   http://www.apache.org/licenses/LICENSE-2.0

   Unless required by applicable law or agreed to in writing, software
   distributed under the License is distributed on an "AS IS" BASIS,
   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
   See the License for the specific language governing permissions and
   limitations under the License.

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Android Bluetooth Low Energy (BLE) Fast Development Framework. It uses simple ways to filter, scan, connect, read ,write, notify, readRssi, setMTU, and multiConnection.

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