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Direct-BT LE and BREDR LibraryGit RepositoryThis project's canonical repositories is hosted on Gothel Software. OverviewDirect-BT provides direct Bluetooth LE and BREDR programming, offering robust high-performance support for embedded & desktop with zero overhead via C++ and Java. It supports a fully event driven workflow from adapter management and device discovery to GATT programming, using its platform agnostic HCI, L2CAP, SMP and GATT protocol implementation. Multiple Bluetooth adapter are handled, as well as multiple concurrent connections per adapter. Peripheral server device programming is supported as well as the central client, which is also used for Java and C++ self unit testing across two or more Bluetooth adapter. Further, the provided repeater application allows to connect between a Bluetooth client and server to analyze their protocol. Direct-BT has been used successfully in a medical trial, as well as in a connected medical device application. The Jau C++ and Java support library has been extracted to encapsulate its generic use-cases. Below you can find a few notes about Direct-BT Origins. DetailsYou will find a detailed
overview of Direct-BT (C++) and the same
in the Java API. AdapterStatusListener allows listening to adapter changes and device discovery and BTGattCharListener to GATT indications and notifications. Direct-BT is exposed via the following native libraries
Direct-BT is C++17 conform and shall upgrade towards C++20 when widely available on all target platforms. Some elaboration on the implementation details
Implementation Status
To support other platforms than Linux/BlueZ, we will have to
Direct-BT Default Connection ParameterPlease check the Connection Paramter for details. Supported PlatformsMinimum language requirements
See supported platforms for details. Tested Bluetooth Adapter
Please check the adapter list for more details. Using Direct-BT ApplicationsSystem PreparationsSince Direct-BT is not using a 3rd party Bluetooth client library or daemon/service, they should be disabled to allow operation without any interference. To disable the BlueZ D-Bus userspace daemon bluetoothd via systemd, you may use the following commands. Required Permissions for Direct-BT ApplicationsSince Direct-BT requires root permissions to certain Bluetooth network device facilities, non-root user require to be granted such permissions. For GNU/Linux, these permissions are called capabilities. The following capabilites are required
On Debian >= 11 and Ubuntu >= 20.04 we can use package
Launch as rootIn case your platform lacks support for mentioned
Launch as user using setcapTo launch your Direct-BT application as a user, you may set the
required Launch as user via capshAlternatively one can set the required Notable here is that capsh needs to be invoked by root to hand over the capabilities and to pass over the cap_net_raw,cap_net_admin+eip via --addamb=... it also needs cap_setpcap,cap_setuid,cap_setgid+ep beforehand. Launch ExamplesThe capsh method (default), setcap and root method is being utilized in See Examples below ... Programming with Direct-BTAPIExposed API closely follows and references the Bluetooth Specification. API DocumentationUp to date API documentation can be found: A guide for getting started with Direct-BT on C++ and Java may follow up. Java Specificsorg.direct_bt.BTFactory provides a factory to instantiate the initial root org.direct_bt.BTManager, using the Direct-BT implementation. ExamplesDirect-BT C++ examples are available, demonstrating the event driven and multithreading workflow:
Direct-BT Java examples are availble, demonstrates the event driven and multithreading workflow:
Building Direct-BTThis project also uses the Jau C++ and Java Support Library as a git submodule, which has been extracted from this project to encapsulate its generic use-cases. Direct-BT does not require GLib/GIO nor shall the BlueZ userspace service bluetoothd be active for best experience. To disable the bluetoothd service using systemd: Build Dependencies
Installing build dependencies for Debian >= 11 and Ubuntu >= 20.04: Build ProcedureThe following is covered with a convenient build script. For a generic build use: The install target of 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 Building debug build: Building with enabled testing, i.e. offline testing without any potential interaction as user: Building with enabled trial and testing , i.e. live testing with 2 Bluetooth adapter and potential sudo interaction: Disable stripping native lib even in non debug build: Enable using Enable using Override default javac debug arguments Building debug and instrumentation (sanitizer) build: Using clang instead of gcc: Cross-compiling on a different system: To build Java bindings: To build examples: To build documentation run: Unit TestingBuilding with enabled testing, i.e. offline testing without
any potential interaction as user is provided via the cmake
build argument Building with enabled trial and testing , i.e. live
testing with 2 Bluetooth adapter is provided via the cmake
build argument The trial tests utilize one or more actual Bluetooth adapter, hence using the capsh launch for the required permissions as described above. Therefor, sudo will be called and a user interaction to enter the sudo password may occur. The trial tests cover Direct-BT's Bluetooth functionality, having its master/client and slave/server peripheral facilities communicating via actual adapter, supporting regression testing of the API, its implementation and adapter. The tests are implemented in both, C++ and Java. The C++ unit tests are also being used for valgrind memory leak and data race validation. At this point we are free of leaks and use-after-free issues. The trial tests take around 110 seconds, since
All tests pass reproducible using two well working adapter, e.g. Raspi 3b+ (BT4) and CSR (BT4). 1/7 legacy security (SC 0) tests using at least one not well working BT5 adapter may timeout waiting for key completion. The following issues are known and are under investigation:
Cross BuildAlso provided is a cross-build script using chroot into a target system using QEMU User space emulation and Linux kernel binfmt_misc to run on other architectures than the host. You may use our pi-gen branch to produce a Raspi-arm64, Raspi-armhf or PC-amd64 target image. Build StatusWill be updated Support & SponsorshipDirect-BT is the new implementation as provided by Gothel Software and Zafena ICT. If you like to utilize Direct-BT in a commercial setting, please contact Gothel Software to setup a potential support contract. Common issuesIf you have any issues, please go through the Troubleshooting Guide. If the solution is not there, please search for an existing issue in our Bugzilla DB, please contact us for a new bugzilla account via email to Sven Gothel [email protected]. Contributing to Direct-BTYou 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. Historical NotesDirect-BT OriginsDirect-BT development started around April 2020, initially as an alternative TinyB Java-API implementation. The work was motivated due to strict performance, discovery- and connection timing requirements, as well as being able to handle multiple devices concurrently using a real-time event driven low-overhead architecture. Zafena's POC-Workstation was originally implemented using TinyB and hence the D-Bus layer to the BlueZ client library. Real time knowledge when devices are discovered and connected were not available and cloaked by the caching mechanism. Advertising package details were not exposed. Connections attempts often took up to 10 seconds to be completed. Detailed information from the Bluetooth layer were inaccessible including detailed error states. Fine grained control about discovery and connection parameter were not exposed by the D-Bus API and hence TinyB. In January 2020 we tried to remedy certain aspects to meet our goals, but concluded to require direct Bluetooth control via the BlueZ/Linux kernel implementation. Direct-BT was born. We then implemented data types for
Last but not least we added
Today, Direct-BT's C++ and Java API match 1:1 and shall not contain legacy API artifacts. TinyB Removal since version 2.3Heading towards feature completion for Direct-BT, we completely removed the previously refactored TinyB. Detailing full Bluetooth support in Direct-BT including the addition of GATT-Server support rendered TinyB an obstacle for the public API. However, TinyB inspired us and was a great reference implementation while developing and testing Direct-BT. We like to thank the authors of TinyB for their great work helping others and us moving forward. Thank you! TinyBTinyB was developed by the Intel Corporation and its main authors were
TinyB was licensed under the The MIT License (MIT) and the Intel Corporation holds its copyright from the year 2016. ChangesSee Changes. |
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index : direct_bt.git | |
| Direct Bluetooth LE and BREDR programming, high-performance & reliable. |
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