RPi Bluetooth LE
- 1 Bluetooth LE on the Raspberry Pi
- 2 Using Bluetooth LE with Go (Golang)
Bluetooth LE on the Raspberry Pi
The Raspberry Pi 3 has built-in support for Bluetooth Low Energy (BLE). BLE is the technology behind many fitness trackers and smartwatches, and allows small, low-power devices to transmit and receive information from a central computer or smartphone.
This tutorial gets you started with Bluetooth Low Energy using a Texas Instruments SensorTag - these are small, robust, relatively cheap and do interesting things out of the box. You can buy one directly from TI, or in the UK they are available from RS and Farnell.
This page was written assuming the following hardware:
- Raspberry Pi 3 Model B
- Raspbian Jessie (April 2017), although later versions will probably work.
- TI CC2650 SensorTag, firmware 1.30 (May 2016) or later
We'll also assume you are familiar with the basics of typing Bash commands using the command line.
Older models of the Pi should work with an external USB adapter. The author has used these two successfully:
- Plugable USB-BT4LE adapter: http://plugable.com/products/usb-bt4le (uses BCM20702 chipset)
- CSR chipset adapter http://www.amazon.co.uk/Version-Bluetooth-Adapter-Compatible-Windows/dp/B00A0CBOTE
Basic installation checks
The Pi 3's built-in Bluetooth adapter is called hci0. You can check it is operating correctly with the command:
This should show something like this:
hci0: Type: BR/EDR Bus: UART BD Address: B8:27:EB:23:E2:A4 ACL MTU: 1021:8 SCO MTU: 64:1 UP RUNNING RX bytes:1987 acl:0 sco:0 events:91 errors:0 TX bytes:1647 acl:0 sco:0 commands:57 errors:0
If for some reason it is shown as DOWN you can re-enable it with:
sudo hciconfig hci0 up
Scanning using hcitool
If you've not already done so, take a look at TI's Getting Started Guide which explains how to set up the SensorTag.
To wake it up, press the button on the left-hand side (see illustration) and the green LED should flash, once per second.
On the Pi, enter the command:
sudo hcitool lescan
This will start a scan for any Bluetooth LE devices in range which are currently 'advertising'. You should shortly see something like this:
pi@raspberrypi:~ $ sudo hcitool lescan LE Scan ... B0:B4:48:ED:44:C3 (unknown) B0:B4:48:ED:44:C3 CC2650 SensorTag
Type Control-C to stop lescan. The 12 hexadecimal digits (B0:B4:48:ED:44:C3 in the example) are your tag's MAC address. You will need to know this when making Bluetooth LE connections to it.
Connecting with gatttool
The gatttool utility can make connections to Bluetooth LE devices. To try this, make sure the SensorTag's LED is flashing then run:
gatttool -I -b MAC-address
where MAC-address is the value reported by hcitool (see above). gatttool will give you a prompt, ending [LE]>. Type connect to make a connection to the SensorTag. This is shown below:
pi@raspberrypi:~ $ gatttool -I -b B0:B4:48:ED:44:C3 [B0:B4:48:ED:44:C3][LE]> connect Attempting to connect to B0:B4:48:ED:44:C3 Connection successful [B0:B4:48:ED:44:C3][LE]>
You can then type a number of commands. The primary command lists the available 'Services', which are groups containing 'Characteristics' - these are data items which can be read or written to the device. So, to read the device name you could use the char-read-uuid command, giving it the ID of the Bluetooth Device Name characteristic:
[B0:B4:48:ED:44:C3][LE]> char-read-uuid 00002a00-0000-1000-8000-00805f9b34fb handle: 0x0003 value: 53 65 6e 73 6f 72 54 61 67 20 32 2e 30
(These are the ASCII values for SensorTag 2.0.
The Sensortag User Guide at http://processors.wiki.ti.com/index.php/CC2650_SensorTag_User's_Guide lists all the available services and characteristics. For example, to turn on the optical sensor, we need to discover the 'handle' for the configuration characteristic (with ID f000aa72-0451-4000-b000-000000000000), then write an 0x01 byte to it:
[B0:B4:48:ED:44:C3][LE]> characteristics 1 ffff f000aa72-0451-4000-b000-000000000000 handle: 0x0046, char properties: 0x0a, char value handle: 0x0047, uuid: f000aa72-0451-4000-b000-000000000000 [B0:B4:48:ED:44:C3][LE]> char-write-req 47 01 Characteristic value was written successfully
In the example above the handle value was 0x47 (it may change with firmware versions). One the sensor is enabled, the light level can then be read from characteristic f000aa71-0451-4000-b000-000000000000:
[B0:B4:48:BF:C9:83][LE]> char-read-uuid f000aa71-0451-4000-b000-000000000000 handle: 0x0044 value: bc 0a
In this example the light level bytes are bc 0a, and will change with the amount of light falling on the CC2650 device.
Using Bluetooth LE with Python
Using gatttool is very laborious for doing any useful work, so it's a good idea to use a programming language. The bluepy package is one way to use Bluetooth LE commands from Python - it can be installed from https://pypi.python.org/pypi using the pip command. If you don't already have pip, on the Pi or other Debian systems it is easily installed with:
sudo apt-get install python-pip
Before installing bluepy you will also need some support libraries:
sudo apt-get install libglib2.0-dev
Then you can run:
sudo pip install bluepy
If successful, it will show a message such as this:
Installing blescan script to /usr/local/bin Installing sensortag script to /usr/local/bin Successfully installed bluepy Cleaning up...
Using Bluetooth LE with Go (Golang)
Developers install Go language on the host machine, and cross-compile the applications for RPi.
The package accesses HCI devices directly via HCI sockets provided by BlueZ core (kernel space), so it doesn't require the BlueZ userland package.
To test the example programs (sample GATT server and clients):
Cross-compile the server example for an ARMv6 target device.
GOARCH=arm GOARM=6 GOOS=linux go build examples/server.go cp server <target device>
Start the server on the target device
Cross-compile the client example (discoverer) for an ARMv6 target device.
GOARCH=arm GOARM=6 GOOS=linux go build examples/discoverer.go cp discoverer <target device>
Run the discoverer to scan surrounding peripheral devices.
Links: other Bluetooth Low Energy resources
- http://www.bluez.org/ - BlueZ stack announcements and downloads
- https://www.bluetooth.org/en-us/specification/adopted-specifications - Bluetooth official specifications