Tiny Bluetooth LE Library
Goals
This project aims to create clean, modern and easy to use Bluetooth LE API. TinyB exposes the BLE GATT API for C++, Java and other languages, using BlueZ over DBus and alternative implementations.
TinyB Version 2
Starting with version 2.0.0, the specification has slightly changed and hence its implementation.
Pre version 2.0.0 D-Bus implementation details of the Java[tm] classes of package tinyb has been moved to tinyb.dbus. The tinyb.jar jar file has been renamed to tinyb2.jar, avoiding conflicts.
General interfaces matching the original implementation and following BlueZ API were created in package org.tinyb.
org.tinyb.BluetoothFactory provides a factory to instantiate the initial root org.tinyb.BluetoothManager, either using the original D-Bus implementation or an alternative implementation.
C++ namespace and implementation kept unchanged.
Build Status
Outdated information
API Documentation
Outdated information
Up to date API documentation can be found:
- for C++: http://iotdk.intel.com/docs/master/tinyb/
- for Java: http://iotdk.intel.com/docs/master/tinyb/java/
A guide for getting started with TinyB on Java is available here: https://software.intel.com/en-us/java-for-bluetooth-le-apps.
Using TinyB
TinyB requires CMake 3.1+ for building and requires GLib/GIO 2.40+. It also requires BlueZ with GATT profile activated, which is currently experimental (as of BlueZ 5.37), so you might have to run bluetoothd with the -E flag. For example, on a system with systemd (Fedora, poky, etc.) edit the bluetooth.service file (usually found in /usr/lib/systemd/system/ or /lib/systemd/system) and append -E to ExecStart line, restart the daemon with systemctl restart bluetooth.
mkdir build
cd build
cmake ..
make
make install
The last command will create the include/ and lib/ directories with a copy of the headers and library objects respectively in your build location. Note that doing an out-of-source build may cause issues when rebuilding later on.
Our cmake configure has a number of options, cmake-gui or ccmake can show you all the options. The interesting ones are detailed below:
Changing install path from /usr/local to /usr
-DCMAKE_INSTALL_PREFIX=/usr
Building debug build:
-DCMAKE_BUILD_TYPE=DEBUG
Using clang instead of gcc:
-DCMAKE_C_COMPILER=/usr/bin/clang -DCMAKE_CXX_COMPILER=/usr/bin/clang++
Cross-compiling on a different system:
-DCMAKE_CXX_FLAGS:STRING=-m32 -march=i586
-DCMAKE_C_FLAGS:STRING=-m32 -march=i586
To build Java bindings:
-DBUILDJAVA=ON
To build examples:
-DBUILDEXAMPLES=ON
To build documentation run:
make doc
The hellotinyb example uses a TI Sensor Tag from which it reads the ambient temperature. You have to pass the MAC address of the Sensor Tag as a first parameter to the program.
Changes
- 2.0.0
- Java D-Bus implementation details of package 'tinyb' moved to tinyb.dbus.
- The tinyb.jar jar file has been renamed to tinyb2.jar, avoiding conflicts.
- General interfaces matching the original implementation and following BlueZ API were created in package org.tinyb.
- Class org.tinyb.BluetoothFactory provides a factory to instantiate the initial root org.tinyb.BluetoothManager, either using the original D-Bus implementation or an alternative implementation.
- C++ namespace and implementation kept unchanged.
- 0.5.0
- Added notifications API
- Capitalized RSSI and UUID properly in Java
- Added JNI Helper classes for managing lifetime of JNIEnv and Global Refences
- 0.4.0
- Added asynchronous methods for discovering BluetoothObjects
Common issues
If you have any issues, please go through the Troubleshooting Guide. If the solution is not there, please create a new issue on Github.
Contributing to TinyB
You shall agree to Developer Certificate of Origin and Sign-off your code, using a real name and e-mail address. Please check the Contribution document for more details.