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Bluetooth Clocks

Set and get the time on various Bluetooth Low Energy clocks

This project offers a way to easily recognize Bluetooth Low Energy (BLE) clocks from their advertisements and has a device-independent API to set and get the time on them.

Synchronize all your Bluetooth Low Energy clocks

Supported devices

Bluetooth Clocks supports the following devices:

Device Set time Set 12/24h format Read time
Current Time Service (e.g. PineTime with InfiniTime firmware) Yes No Yes
PVVX firmware (LYWSD03MMC, MHO-C401, CGG1, CGDK2, MJWSD05MMC, MHO-C122) Yes No Yes
Qingping BT Clock Lite Yes No No
ThermoPro TP358/TP393 Yes Yes No
Xiaomi LYWSD02 Yes No Yes

Installation

You can install bluetooth-clocks as a package from PyPI with pip:

pip install bluetooth-clocks

Usage of the command-line program

If you have installed the package with pip, you can run the program as bluetooth-clocks:

$ bluetooth-clocks -h
usage: bluetooth-clocks [-h] [--version] [-v] [-vv] {discover,get,set} ...

Bluetooth Clocks

options:
  -h, --help           show this help message and exit
  --version            show program's version number and exit
  -v, --verbose        set loglevel to INFO
  -vv, --very-verbose  set loglevel to DEBUG

Subcommands:
  {discover,get,set}
    discover           discover supported Bluetooth clocks
    get                get the time from a Bluetooth clock
    set                set the time of a Bluetooth clock

Discovering Bluetooth clocks

You can discover supported Bluetooth clocks with bluetooth-clocks discover:

$ bluetooth-clocks discover
Scanning for supported clocks...
Found a ThermoPro TP358: address BC:C7:DA:6A:52:C6, name TP358 (52C6)
Found a Xiaomi LYWSD02: address E7:2E:00:B1:38:96, name LYWSD02
Found a ThermoPro TP393: address 10:76:36:14:2A:3D, name TP393 (2A3D)
Found a Qingping BT Clock Lite: address 58:2D:34:54:2D:2C, name Qingping BT Clock Lite
Found a Current Time Service: address EB:76:55:B9:56:18, name F15

These are the options that the discover subcommand recognizes:

$ bluetooth-clocks discover -h
usage: bluetooth-clocks discover [-h] [-s SCAN_DURATION]

options:
  -h, --help            show this help message and exit
  -s SCAN_DURATION, --scan-duration SCAN_DURATION
                        scan duration (default: 5 seconds)

Setting the time

Set the time of a clock with a given Bluetooth address:

$ bluetooth-clocks set -a E7:2E:00:B1:38:96
Scanning for device E7:2E:00:B1:38:96...
Writing time to device...
Synchronized time

If you want to regularly synchronize the time on the device, you can run this command as a service, e.g. with a systemd service or in a cron job in Linux.

These are the options that the set subcommand recognizes:

$ bluetooth-clocks set -h
usage: bluetooth-clocks set [-h] -a ADDRESS [-s SCAN_DURATION] [-t TIME] [-p]

options:
  -h, --help            show this help message and exit
  -a ADDRESS, --address ADDRESS
                        Bluetooth address (e.g. 12:34:56:78:9A:BC)
  -s SCAN_DURATION, --scan-duration SCAN_DURATION
                        scan duration (default: 5 seconds)
  -t TIME, --time TIME  the time to set, in ISO 8601 format (e.g. 2023-01-10T16:20,
                        default: current time)
  -p, --am-pm           use AM/PM format (default: 24-hour format)

Warning

Don't be a jerk by changing the time of other people's clocks. Use this tool responsibly.

Getting the time

Get the time from a clock with a given Bluetooth address:

$ bluetooth-clocks get -a E7:2E:00:B1:38:96
Scanning for device E7:2E:00:B1:38:96...
Reading time from device...
2023-01-14T17:54:17

These are the options that the get subcommand recognizes:

$ bluetooth-clocks get -h
usage: bluetooth-clocks get [-h] -a ADDRESS [-s SCAN_DURATION]

options:
  -h, --help            show this help message and exit
  -a ADDRESS, --address ADDRESS
                        Bluetooth address (e.g. 12:34:56:78:9A:BC)
  -s SCAN_DURATION, --scan-duration SCAN_DURATION
                        scan duration (default: 5 seconds)

Usage of the library

The functionality of the command-line program can also be used in your own Python programs by using this project as a library.

See the module reference for complete API documentation.

Documentation

Read the online documentation of Bluetooth Clocks.

Learn more about Bluetooth Low Energy development

If you want to learn more about Bluetooth Low Energy development, read the book Develop your own Bluetooth Low Energy Applications for Raspberry Pi, ESP32 and nRF52 with Python, Arduino and Zephyr and the accompanying GitHub repository koenvervloesem/bluetooth-low-energy-applications.

License

This project is provided by Koen Vervloesem as open source software with the MIT license. See the LICENSE file for more information.