aioblescan is a Python 3/asyncio library to listen for BLE advertized packets.
We are on PyPi so
pip3 install aioblescan
or
python3 -m pip install aioblescan
Essentially, you create a function to process the incoming information
and you attach it to the BTScanRequester
. You then create a
Bluetooth connection, you issue the scan command and wait for incoming
packets and process them.
You can use Eddystone or RuuviWeather to retrieve specific information
The easiest way is to look at the __main__.py
file.
You can run the command:
aioblescan
or you can run the module with
python3 -m aioblescan
Add -h
for help.
To see the RuuviTag weather information try:
python3 -m aioblescan -r
You will get
Weather info {'rssi': -64, 'pressure': 100300, 'temperature': 24, 'mac address': 'fb:86:84:dd:aa:bb', 'tx_power': -7, 'humidity': 36.0} Weather info {'rssi': -62, 'pressure': 100300, 'temperature': 24, 'mac address': 'fb:86:84:dd:aa:bb', 'tx_power': -7, 'humidity': 36.0}
To check Eddystone beacon
python3 -m aioblescan -e
You get
Google Beacon {'tx_power': -7, 'url': 'https://ruu.vi/#BEgYAMR8n', 'mac address': 'fb:86:84:dd:aa:bb', 'rssi': -52} Google Beacon {'tx_power': -7, 'url': 'https://ruu.vi/#BEgYAMR8n', 'mac address': 'fb:86:84:dd:aa:bb', 'rssi': -53}
To check ATC_MiThermometer with custom firmware beacon
python3 -m aioblescan -A
You get
Temperature info {'mac address': 'a4:c1:38:40:52:38', 'temperature': 2.8, 'humidity': 62, 'battery': 72, 'battery_volts': 2.863, 'counter': 103, 'rssi': -76} Temperature info {'mac address': 'a4:c1:38:40:52:38', 'temperature': 2.8, 'humidity': 62, 'battery': 72, 'battery_volts': 2.863, 'counter': 103, 'rssi': -77}
To check ThermoBeacon sensors
python3 -m aioblescan -T
You get
Temperature info {'mac address': '19:c4:00:00:0f:5d', 'max_temperature': 27.0625, 'min_temperature': 21.75, 'max_temp_ts': 0, 'min_temp_ts': 2309} Temperature info {'mac address': '19:c4:00:00:0f:5d', 'temperature': 21.75, 'humidity': 49.5, 'battery_volts': 3234, 'counter': 2401, 'rssi': -67}
For a generic advertise packet scanning
python3 -m aioblescan
You get
HCI Event: code: 3e length: 19 LE Meta: code: 02 Adv Report: num reports: 1 ev type: generic adv addr type: public peer: 54:6c:0e:aa:bb:cc length: 7 flags: Simul LE - BR/EDR (Host): False Simul LE - BR/EDR (Control.): False BR/EDR Not Supported: False LE General Disc.: True LE Limited Disc.: False Incomplete uuids: ff:30 rssi: -67 HCI Event: code: 3e length: 43 LE Meta: code: 02 Adv Report: num reports: 1 ev type: no connection adv addr type: random peer: fb:86:84:dd:aa:bb length: 31 flags: Simul LE - BR/EDR (Host): False Simul LE - BR/EDR (Control.): False BR/EDR Not Supported: False LE General Disc.: True LE Limited Disc.: True Complete uuids: fe:aa Advertised Data: Service Data uuid: fe:aa Adv Payload: 10:f9:03:72:75:75:2e:76:69:2f:23:42:45:77:59:41:4d:52:38:6e rssi: -59
Here the first packet is from a Wynd device, the second from a Ruuvi Tag
aioblescan can also send EddyStone advertising. Try the -a flag when running the module.
To check Tilt hydrometer
python3 -m aioblescan --tilt
You will see the regular Bluetooth beacons from any Tilt in range:
{"uuid": "a495bb40c5b14b44b5121370f02d74de", "major": 70, "minor": 1054, "tx_power": 31, "rssi": -58, "mac": "xx:xx:xx:xx:xx:xx"} {"uuid": "a495bb40c5b14b44b5121370f02d74de", "major": 70, "minor": 1054, "tx_power": 31, "rssi": -74, "mac": "xx:xx:xx:xx:xx:xx"} {"uuid": "a495bb40c5b14b44b5121370f02d74de", "major": 70, "minor": 1054, "tx_power": 31, "rssi": -57, "mac": "xx:xx:xx:xx:xx:xx"}
Hit ctrl-c
to stop the scan.
The information from the tilt plugin is returned as a valid JSON:
{ "uuid": "a495bb40c5b14b44b5121370f02d74de", "major": 69, "minor": 1056, "tx_power": 31, "rssi": -49, "mac": "xx:xx:xx:xx:xx:xx" }
These keys may be interpreted as:
- uuid: Tilt name. The "40" in
a495bb
40
c5b14b44b5121370f02d74de is an indication of the color.- 10: Red
- 20: Green
- 30: Black
- 40: Purple
- 50: Orange
- 60: Blue
- 70: Yellow
- 80: Pink
- major: Temp in degrees F.
- minor: Specific gravity x1000.
- tx_power: Weeks since battery change (0-152 when converted to
unsigned 8 bit integer). You will occasionally see
-59
which is there to allow iOS to compute RSSI. This value should be discarded. - rssi: Received Signal Strength Indication (RSSI) is a measurement of the power present in the received radio signal. A lower negative number is stronger.
- mac: Media Access Control (MAC) address of the device.
Why not use scapy?
Scapy is great and you can do import scapy.all as sa test=sa.BluetoothHCISocket(0) command=sa.HCI_Cmd_LE_Set_Scan_Enable(enable=1,filter_dups=0) chdr=sa.HCI_Command_Hdr(len=len(command)) hdr=sa.HCI_Hdr(type=1) test.send(hdr / chdr / command) to get things going. But... the great thing with Scapy is that there is so many versions to choose from.... and not all have all the same functions ... and installation can be haphazard, with some version not installing at all. Also scapy inludes a lot of other protocols and could be an overkill... lastly it is never too late to learn...
What can you track?
aioblescan will try to parse all the incoming advertised information. You can see the raw data when it does not know what to do. With Eddystone beacon you can see the URL, Telemetry and UID