I was wondering what module instead of RN-52 can I use for my project which requires a Bluetooth module supporting the AVRCP profile?
It seems this product is retired and I don't know what alternative module I can choose.
I would appreciate it if you could help with this problem.
You have a few options for this. There are many Bluetooth modules out there and you can even use an HCI dongle on a Linux machine with BlueZ (the Linux Bluetooth stack). Have a look at the links below:-
Any alternative to RN-52
Microchip's BM62 and BM64
Laird's BTM51x series
Related
Initially I built the Zephyr bluetooth application for native linux and run it in conjunction with Bluez on a BLE controller.I understand that in this, Linux OS and Bluez are used along with Zephyr host stack.
Now, I have flashed bluetooth application from Zephyr stack (samples/bluetooth/beacon)to NXP board successfully. Here there is no bluez used.
For this case, I have a few basic understanding questions:
1. Is the OS functionality also embedded in the bin file that is created after application is compiled. I mean I understand bluetooth stack is Zephyr, but which OS is used on board ?
2. Also, is there any functionality similar to hcitool in Bluez in Zephyr bluetooth stack?
3. Is there any functionality like btmon or hcidump?
To answer your questions:-
Zephyr is an OS itself - it is a Real-Time Operating System (RTOS)
that runs on top of many different types of hardware, just like how
Linux is an operating system that runs on top of many different
hardware. Zephyr is mainly written in C and under the hood talks
directly to the specific processor using its registers and the
vendor's stack. You can find a list of all supported boards
here.
Not identical to hcitool, but there is an hci layer example that
allows you to send raw hci commands. You can find more details on
this here and here. At the end of the day, you may not
need to use hci because it is a low layer and you can probably
achieve the same functionality through higher leve API. All Zephyr's
Bluetooth examples can be found here.
Again, nothing like btmon on Linux how you can see the raw HCI
packets for each command, but Zephyr does support different
Bluetooth logging options depending on the hardware used. More
information on this can be found here.
I hope this helps.
I want to use a bluetoothmodul like this Waveshare Core51822 to send data to a raspberry. I want to use the SPI on the bluetooth modul but i dont have a plan how to configure that.
What do i need?
Thanks
The SPI and BLE are all documented extensively at http://infocenter.nordicsemi.com/, including examples, specifications, and an API.
In the future, you should give much more information about your situation. For instance, what platform/IDE are you using to develop? If your module is compatible, you would probably be best off using ARM's mbed compiler (https://os.mbed.com).
I have a Raspberry Pi that acts as a BLE peripheral. I want to add Apple's HomeKit Accessory Protocol (HAP) to the Raspberry Pi's BLE code, to control the BLE device using Homekit. I would like to avoid implementing HAP over the internet.
The closest resource I found is https://gist.github.com/KhaosT/6ff09ba71d306d4c1079. However, this gist makes it seem like there are many unknowns with that process.
Does anyone know if this is possible? If so, any info or resources would be greatly appreciated. Thanks!
As mentioned at https://developer.apple.com/homekit/ under Accessory Developers, you need to first sign up for MFi and then you will get access to all the resources you need in order to implement homekit. All source code you can find publicly online is against Apple's license since they prohibit public redistribution of documentation and source code of implementations.
i am new to Linux and Bluetooth. i know that the standard implementation of the bluetooth protocol stack is bluez. I know that alsa is not supporting bluez anymore and if you want to use audio over bluetooth, you need pulseaudio. so pulseaudio should support HSP/HFP since version 6 and bluez 5.x. Know i was wondering if i can connect a usb-dongle to my hardwareboard (raspberryPi) there is a serial connection to the board. is that right? so the Dongle has the BT-STack and you can use alsa audio over USB like an USB HEadset?
i hope someone can help me.
The answering this vast addressable question is not that easy. I have few hints which will help you to narrow down.
BlueZ is user layer stack to communicate or use the functionality of Linux Kernel Bluetooth subsystem and provides helpers to developers.
USB Dongle itself doesn't have any stack and I don't really understand your question in that sense. To brief, USB Bluetooth Dongle is just the hardware device with Bluetooth functionalities. To make it functional, you need Linux Kernel Bluetooth system support enabled and either you can directly make use of "socket" system calls to pair,connect etc., or use BlueZ to develop applications with API's
BlueZ itself doesn't provide API's for developers, instead it makes use of the DBus to provide methods, properties and signals with vast range functionalities. Check here
If you interested in Audio Playback using Bluetooth, then you should register your media player and audio sink with BlueZ with according media DBus Interfaces.
To add, I am currently developing a framework library to wrap the DBus functionality provided by BlueZ for friendly development of applications. Check this repo and it is currently in initial development phase.
I have a device with a few custom GATT services, and I would like to write a Linux program to interact with it. After some searching I found out that Linux is using BlueZ to handle the Bluetooth LE protocol. I'm using Ubuntu 15.10 with BlueZ 5.35, but I cannot figure out how use this BlueZ from a user-space program. I cannot find an API documentation anywhere, no tutorials, examples, nothing. Is it even possible to use this BlueZ stack to do anything other than just connecting to Bluetooth devices with default services? And if so, where is the documentation? (Preferably C/C++ API but at this point anything goes)
Have a look at attrib/gatttool.c in the bluez sources [1]. Gatttool is a command line utility for connecting to BTLE devices using the C "API". The GATT interface is not exposed in libbluetooth though.
A newer alternative to gatttool and thus another example to learn
from is the btgatt-client, which you can find in
tools/btgatt-client.c (to enable compilation configure bluez with
--enable-experimental).
Besides the C interface bluez integrated a DBUS interface.
bluetoothctl is an example tool using the DBUS interface. The code of
bluetoothctl can be found in client/ [2].
Another example program using the C interface of bluez is the Anki
Drive SDK [3]. It packaged the bluez GATT C interface in its own
library libbzle [4]. When using the C interface you have to connect a
socket when establishing a BTLE connection. The gatttool does this
via the GATT interface, which in turn uses glib iirc. But you can
also do this using syscalls (socket, connect, ...) as explained e.g.
here [5]. This document also explains:
Unfortunately, as of now there is no official API reference to refer to, so more curious readers are advised to download and examine the BlueZ source code.
Gilbert Brault also extracted the GATT interface from bluez [6] and links to a rudimentary doxygen documentation of the GATT interface [7] with the following disclaimer:
This is a work in progress with the intent of documenting all important functions and data structures
Also Szymon Janc gave a nice overview in his talk "Bluetooth on Modern Linux" at the Embedded Linux Conference 2016 [8]. Starting at 42:00 he talks about the unexposed C interface. But in general he seems to recommend the DBUS API (see "Tips" slide at 45:30). Some DBUS documentation can be found in doc/gatt-api.txt [9] and Python examples using the DBUS interface can be found in test/.
Hope this helps.
[1] http://git.kernel.org/cgit/bluetooth/bluez.git/tree/attrib/gatttool.c
[2] http://git.kernel.org/cgit/bluetooth/bluez.git/tree/client/
[3] https://github.com/anki/drive-sdk/
[4] https://github.com/anki/drive-sdk/tree/master/deps/bzle/
[5] https://people.csail.mit.edu/albert/bluez-intro/c404.html
[6] https://github.com/gbrault/gattclient
[7] http://gbrault.github.io/gattclient/index.html
[8] https://www.youtube.com/watch?v=tclS9arLFzk
[9] http://git.kernel.org/cgit/bluetooth/bluez.git/tree/doc/gatt-api.txt
I feel your pain. I needed to add user input from a custom BLE peripheral, a simple remote pushbutton, to an embedded program running under Linux (Stretch) on a Raspberry Pi. I was stunned by the needless complexity and Spartan (not a compliment) documentation of the BlueZ API. All the BlueZ “examples” are written from the perspective that Bluetooth is the center of the universe and the user wants to support every Bluetooth device ever invented. In my case I knew exactly the device, service, and GATT characteristics I needed to interact with, and I wanted a minimum overhead task that would do its thing in a low priority thread.
It turns out a BLE central client is pretty straightforward using BlueZ, but it was an arduous road starting with the source for the BlueZ utility bluetoothctl in release 5.49. I accomplished my needs using only three unmodified source files from the BlueZ distribution and excerpts from an additional three source files. Since the BlueZ source is inextricably dependent on D-Bus and the Gnome GLib main loop, I grudgingly included them.
Following OlivierM's generous lead, and in hopes that my embarrassingly massive investment in time saves someone else a month of their life, I have posted my example Bluetooth BLE client on GitHub: https://github.com/jjjsmit/BluetoothBLEClient
It would arguably be simpler and quicker to write a shell script on Linux to do what you need to do. The BlueZ commands are relatively simple and straightforward, and there are many tutorials and questions on how to use it.
Tutorials:-
http://www.jaredwolff.com/blog/get-started-with-bluetooth-low-energy/
https://learn.adafruit.com/reverse-engineering-a-bluetooth-low-energy-light-bulb/control-with-bluez
https://lilyhack.wordpress.com/2014/02/03/ble-read-write-arduino-raspberry-pi/
http://joost.damad.be/2013/08/experiments-with-bluetooth-low-energy.html
Questions:-
Using Bluetooth low energy in linux command line
Bluetooth Low Energy: listening for notifications/indications in linux
How can I connect to the FitBit Zip over Bluetooth 4.0 LE on Linux with bluez?
Once you are more familiar with using the commands manually you can then write a minimal shell script so that this is automated for you.
I had a similar issue which is to interact with a BLE device with a GATT C/C++ API. I have realized there was no such API existing.
The way I fixed my issue was to write my own GATT library. I have pushed the code on Github: https://github.com/labapart/gattlib
I use this library in my own BLE project and it fulfils my needs. I created few examples https://github.com/labapart/gattlib/tree/master/examples that use the library to encourage people to use it and have better feedback.
I recently found out that Qt has Bluetooth Low Energy support as host since Qt 5.7. Qt Bluetooth LE. It is available under LGPLv3 or commercial license, and exposes a C++ API.