A BLE -> MQTT bridge for Raspberry Pi and other Embedded devices for Espruino and Puck.js
Ideally use a Raspberry Pi 3 or Zero W, as these have Bluetooth LE on them already. However the BLE USB dongles mentioned in the Puck.js Quick Start guide should work.
- Download Raspbian Lite from https://www.raspberrypi.org/downloads/raspbian/
- Copy it to an SD card with
sudo dd if=2017-11-29-raspbian-stretch-lite.img of=/dev/sdc status=progress bs=1M
on Linux (or see the instructions on the Raspbian download page above for your platform) - Unplug and re-plug the SD card and add a file called
ssh
to theboot
drive - this will enable SSH access to the Pi - If you're using WiFi rather than Ethernet, see this post on setting up WiFi via the SD card
- Now put the SD card in the Pi, apply power, and wait a minute
ssh [email protected]
(or use PuTTY on Windows) and use the passwordraspberry
- Run
sudo raspi-config
and set the Pi up as you want (eg. hostname, password)
These instructions install up to date Node.js and Node-RED - however it can take a while! If you just want EspruinoHub and the IDE, see the next item.
sudo apt-get update
# OPTIONAL: Update everything to latest versions
sudo apt-get upgrade -y
# Get required packages
sudo apt-get install -y build-essential python-rpi.gpio nodejs nodered git-core
# OPTIONAL: Install a modern version of nodejs and nodered
# Not recommended - The Pi's supplied Node.js version is more than good enough
# bash <(curl -sL https://raw.githubusercontent.com/node-red/raspbian-deb-package/master/resources/update-nodejs-and-nodered)
# Get dependencies
sudo apt-get install -y mosquitto mosquitto-clients bluetooth bluez libbluetooth-dev libudev-dev
# Auto start Node-RED
sudo systemctl enable nodered.service
# Start nodered manually this one time (this creates ~/.node-red)
sudo systemctl start nodered.service
# wait for the ~/.node-red directory to get created...
# Install the Node-RED UI
cd ~/.node-red && npm install node-red-contrib-ui
# Now get EspruinoHub
cd ~/
git clone https://github.com/espruino/EspruinoHub
# Install EspruinoHub's required Node libraries
cd EspruinoHub
npm install
# Give Node.js access to Bluetooth
sudo setcap cap_net_raw+eip $(eval readlink -f `which node`)
# You may need to run the setcap line above again if you update Node.js
You can now type ./start.sh
to run EspruinoHub, but it's worth checking out the Auto Start
section to see how to get it to run at boot.
# Install Node, Bluetooth, etc
sudo apt-get update
# OPTIONAL: Update everything to latest versions
sudo apt-get upgrade -y
# Get required packages
sudo apt-get install -y git-core nodejs npm build-essential mosquitto mosquitto-clients bluetooth bluez libbluetooth-dev libudev-dev
# Now get EspruinoHub
git clone https://github.com/espruino/EspruinoHub
# Install EspruinoHub's required Node libraries
cd EspruinoHub
npm install
# Give Node.js access to Bluetooth
sudo setcap cap_net_raw+eip $(eval readlink -f `which node`)
# You may need to run the setcap line above again if you update Node.js
You can now type ./start.sh
to run EspruinoHub, but it's worth checking out the Auto Start
section to see how to get it to run at boot.
There are a 2 main ways to run EspruinoHub on the Raspberry Pi.
This is the normal way of running services - to configure them as a system start-up job using systemd
:**
sudo cp systemd-EspruinoHub.service /etc/systemd/system/EspruinoHub.service
and edit it as necessary to match your installation directory and user configuration. Then, to start it for testing:
sudo systemctl start EspruinoHub.service && sudo journalctl -f -u EspruinoHub
If it works, Ctrl-C to break out and enable it to start on login:
sudo systemctl enable EspruinoHub.service
If you have a video output on your Pi then you can run EspruinoHub at boot - on the main display - so that you can see what it's reporting.
- Edit
.bashrc
and add the following right at the bottom:
if [ $(tty) == /dev/tty1 ]; then
while true; do
EspruinoHub/start.sh
sleep 1s
done
fi
-
Now run
sudo raspi-config
, chooseBoot Options
,Desktop / CLI
, andConsole Autologin
-
Next time you reboot, the console will automatically run
EspruinoHub
- On non-Raspberry Pi devices, Mosquitto (the MQTT server) may default to not allowing anonymous (un-authenticated) connections to MQTT. To fix this edit
/etc/mosquitto/conf.d/local.conf
and setallow_anonymous
totrue
. - By default the HTTP server in EspruinoHub is enabled, however it can be disabled by setting
http_port
to0
inconfig.json
- The HTTP Proxy service is disabled by default and needs some configuration - see HTTP Proxy below
- You used to need a local copy of the Espruino Web IDE, however now EspruinoHub just serves up an IFRAME which points to the online IDE, ensuring it is always up to date.
Assuming you followed the steps above (including for 'Headless Startup') you can uninstall EspruinoHub using the following commands:
sudo systemctl stop EspruinoHub.service
sudo systemctl disable EspruinoHub.service
sudo rm /etc/systemd/system/EspruinoHub.service
sudo rm -rf ~/EspruinoHub
More information how work Bluetooth in docker you can read in article "How to run containerized Bluetooth applications with BlueZ" by Thomas Huffert
Currently, espruinohub has support for multiple architectures:
amd64
: based on linux Alpine - for most desktop computer (e.g. x64, x86-64, x86_64)arm32v6
: based on linux Alpine - (i.e. Raspberry Pi 1 & Zero)arm32v7
: based on linux Alpine - (i.e. Raspberry Pi 2, 3, 4)arm64v8
: based on linux Alpine - (i.e. Pine64)
Install:
docker pull ghcr.io/espruino/espruinohub
Run from the directory containing your config.json
:
docker run -d -v $PWD/config.json:/data/config.json:ro --restart=always --net=host --privileged --name espruinohub ghcr.io/espruino/espruinohub
Example for docker-compose.yml
espruinohub:
image: ghcr.io/espruino/espruinohub
hostname: espruinohub
container_name: espruinohub
privileged: true
environment:
- TZ=Europe/Amsterdam
- NOBLE_HCI_DEVICE_ID=0
network_mode: host
volumes:
- /home/twocolors/espruinohub:/data
restart: unless-stopped
Manual build:
docker build -t espruino/espruinohub https://github.com/espruino/EspruinoHub.git
Once started, you then have a few options...
By default EspruinoHub starts a web server at http://localhost:1888 that serves
the contents of the www
folder. You can disable this by setting http_port
to 0 in config.json
.
With that server, you can:
- See the Intro page
- See the status and log messages at http://localhost:1888/status
- Access the Espruino Web IDE at http://localhost:1888/ide. You can then connect to any Bluetooth LE device within range of EspruinoHub.
- View real-time Signal Strength data via WebSockets at http://localhost:1888/rssi.html
- View real-time MQTT data via WebSockets at http://localhost:1888/mqtt.html
- View any of your own pages that are written into the
www
folder. For instance you could use TinyDash with the code fromwww/mqtt.html
to display the latest BLE data that you have received.
If set up, you can access Node-RED using http://localhost:1880
Once you add UI elements and click Deploy
they'll be visible at http://localhost:1880/ui
The easiest way to get data is to add an MQTT listener node that requests
/ble/advertise/#
(#
is a wildcard). This will output all information received
via advertising (see 'Advertising Data' below).
For more info on available MQTT commands see the 'MQTT Bridge' section below.
Check out http://www.espruino.com/Puck.js+Node-RED for a proper introduction on using Node-RED.
You can use the Mosquitto command-line tools to send and receive MQTT data
that will make EspruinoHub
do things:
# listen to all, verbose
mosquitto_sub -h localhost -t "/#" -v
# listen to any device advertising a 1809 temperature characteristic and
# output *just* the temperature
mosquitto_sub -h localhost -t "/ble/advertise/+/temp"
# Test publish
mosquitto_pub -h localhost -t test/topic -m "Hello world"
For more info on available MQTT commands see the 'MQTT Bridge' section below.
Data that is received via bluetooth advertising will be relayed over MQTT in the following format:
/ble/presence/DEVICE
- 1 or 0 depending on whether device has been seen or not/ble/advertise/DEVICE
- JSON for device's broadcast name, rssi and manufacturer-specific data (ifmqtt_advertise=true
inconfig.json
- the default)/ble/advertise/DEVICE/manufacturer/COMPANY
- Manufacturer-specific data (without leading company code) encoded in base16. To decode usevar data = Buffer.from(msg.payload, 'hex');
(ifmqtt_advertise_manufacturer_data=true
inconfig.json
- the default)/ble/advertise/DEVICE/rssi
- Device signal strength/ble/advertise/DEVICE/SERVICE
- Raw service data (as a JSON Array of bytes) (ifmqtt_advertise_service_data=true
inconfig.json
)/ble/advertise/DEVICE/PRETTY
or/ble/PRETTY/DEVICE
- Decoded service data based on the decoding inattributes.js
1809
decodes totemp
(Temperature in C)180f
decodes tobattery
feaa
decodes tourl
(Eddystone)2a6d
decodes topressure
(Pressure in pa)2a6e
decodes totemp
(Temperature in C)2a6f
decodes tohumidity
(Humidity in %)ffff
decodes todata
(This is not a standard - however it's useful for debugging or quick tests)
/ble/json/DEVICE/UUID
- Decoded service data (as above) as JSON, eg/ble/json/DEVICE/1809 => {"temp":16.5}
(ifmqtt_format_json=true
inconfig.json
- the default)/ble/advertise/DEVICE/espruino
- If manufacturer data is broadcast Espruino's manufacturer ID0x0590
and it is valid JSON, it is rebroadcast. If an object like{"a":1,"b":2}
is sent,/ble/advertise/DEVICE/a
and/ble/advertise/DEVICE/b
will also be sent. (A JSON5 parser is used, so the more compact{a:1,b:2}
is also valid).
You can take advantage of Espruino's manufacturer ID 0x0590
to relay JSON over
Bluetooth LE advertising using the following code on an Espruino board:
var data = {a:1,b:2};
NRF.setAdvertising({},{
showName:false,
manufacturer:0x0590,
manufacturerData:E.toJS(data)
});
// Note: JSON.stringify(data) can be used instead of
// E.toJS(data) to produce 'standard' JSON like {"a":1,"b":2}
// instead of E.toJS's more compact {a:1,b:2}
Assuming a device with an address of ma:c_:_a:dd:re:ss
this will create the
folling MQTT topics when mqtt_advertise_manufacturer_data
is true
in config.json
:
/ble/advertise/ma:c_:_a:dd:re:ss/espruino
->{"a":1,"b":2}
/ble/advertise/ma:c_:_a:dd:re:ss/a
->1
/ble/advertise/ma:c_:_a:dd:re:ss/b
->2
Note that you only have 24 characters available for JSON, so try to use the shortest field names possible and avoid floating point values that can be very long when converted to a String.
You can also connect to a device using MQTT packets:
/ble/write/DEVICE/SERVICE/CHARACTERISTIC
connects and writes to the charactertistic/ble/read/DEVICE/SERVICE/CHARACTERISTIC
connects and reads from the charactertistic, sending the result back as a topic/ble/data/DEVICE/SERVICE/CHARACTERISTIC
/ble/read/DEVICE
connects and reads an array of services and charactertistics/ble/notify/DEVICE/SERVICE/CHARACTERISTIC
connects and starts notifications on the characteristic, which send data back on/ble/data/DEVICE/SERVICE/CHARACTERISTIC
/ble/ping/DEVICE
connects, or maintains a connection to the device, and sends/ble/pong/DEVICE
on success
SERVICE
and CHARACTERISTIC
are either known names from attributes.js
such as nus
and nus_tx
or are of the form 6e400001b5a3f393e0a9e50e24dcca9e
for 128 bit uuids or abcd
for 16 bit UUIDs.
After connecting, EspruinoHub will stay connected for a few seconds unless there is
any activity (eg a write
or ping
). So you can for instance evaluate something
on a Puck.js BLE UART connection with:
=> /ble/notify/c7:f9:36:dd:b0:ca/nus/nus_rx
"\x10Bluetooth.println(E.getTemperature())\n" => /ble/write/c7:f9:36:dd:b0:ca/nus/nus_tx
/ble/data/c7:f9:36:dd:b0:ca/nus/nus_rx => "23\r\n"
Once a /ble/write/DEVICE/SERVICE/CHARACTERISTIC
has been executed, a /ble/written/DEVICE/SERVICE/CHARACTERISTIC
packet will be sent in response.
Payload can take the following values
- object as json with type and data fields
available values for
type
=Buffer, buffer, hex
- boolean uint8
- integer uint8
- array will be loop-encoded in uint8
- string will be loop-encoded in uint8
EspruinoHub contains code (libs/history.js
) that subscribes to any MQTT data
beginning with /ble/
and that then stores logs of the average value
every minute, 10 minutes, hour and day (see config.js:history_times
). The
averages are broadcast over MQTT as the occur, but can also be queried by sending
messages to /hist/request
.
For example, an Espruino device with address f5:47:c8:0b:49:04
may broadcast
advertising data with UUID 1809
(Temperature) with the following code:
setInterval(function() {
NRF.setAdvertising({
0x1809 : [Math.round(E.getTemperature())]
});
}, 30000);
This is decoded into temp
by attributes.js
, and it sends the following MQTT
packets:
/ble/advertise/f5:47:c8:0b:49:04 {"rssi":-53,"name":"...","serviceUuids":["6e400001b5a3f393e0a9e50e24dcca9e"]}
/ble/advertise/f5:47:c8:0b:49:04/rssi -53
/ble/advertise/f5:47:c8:0b:49:04/1809 [22]
/ble/advertise/f5:47:c8:0b:49:04/temp 22
/ble/temp/f5:47:c8:0b:49:04 22
You can now subscribe with MQTT to /hist/hour/ble/temp/f5:47:c8:0b:49:04
and
every hour you will receive a packet containing the average temperature over
that time.
However, you can also request historical data by sending the JSON:
{
"topic" : "/hist/hour/ble/temp/f5:47:c8:0b:49:04",
"interval" : "minute",
"age" : 6
}
to /hist/request/a_unique_id
. EspruinoHub will then send a packet to
/hist/response/a_unique_id
containing:
{
"interval":"minute",
"from":1531227216903, // unix timestamp (msecs since 1970)
"to":1531234416903, // unix timestamp (msecs since 1970)
"topic":"/hist/hour/ble/temp/f5:47:c8:0b:49:04",
"times":[ array of unix timestamps ],
"data":[ array of average data values ]
}
Requests can be of the form:
{
topic : "/ble/advertise/...",
"interval" : "minute" / "tenminutes" / "hour" / "day"
// Then time period is either:
"age" : 1, // hours
// or:
"from" : "1 July 2018",
"to" : "5 July 2018" (or anything that works in new Date(...))
}
For a full example of usage see www/rssi.html
.
EspruinoHub implements the Bluetooth HTTP Proxy service
The HTTP Proxy is disabled by default as it can give any Bluetooth LE device in range access to your network. To fix this, edit the http_proxy
and http_whitelist
entries in config.json
to enable the proxy and whitelist devices based on address (which you can find from EspruinoHub's status of MQTT advertising packets).
NOTE: Some Bluetooth adaptors (eg CSR / 0a12:0001
) will cause the error Command Disallowed (0xc)
when attempting to connect to a device when http_proxy
is enabled.
To allow Bluetooth to advertise services (for the HTTP proxy) you also need:
# Stop the bluetooth service
sudo service bluetooth stop
# Start Bluetooth but without bluetoothd
sudo hciconfig hci0 up
See https://github.com/sandeepmistry/bleno
Follow the instructions at https://www.home-assistant.io/integrations/mqtt/ to enable Home Assistant to use an external MQTT broker. Assuming you're running on the same device as EspruinoHub, use localhost
as the IP address for the MQTT server.
Ensure that homeassistant
is set to true
in EspruinoHub's config.json
. It's currently the default.
Now, in the Home Assistant main page you should see new Sensors and Binary sensors which match any devices that EspruinoHub has found!
Your BLE device isn't in the whitelist in config.json
- because the HTTP Proxy
exposes your internet connection to the world, only BLE devices with the addresses
you have specified beforehand are allowed to connect.
- Handle over-size reads and writes for HTTP Proxy