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Un-cloud your Whisker devices — fully-local MQTT control + telemetry for the Litter-Robot 4.

Project description

whiskerless

Un-cloud your Whisker devices. Fully-local MQTT control and telemetry for the Whisker Litter-Robot 4 — no cloud account, no internet round-trip, no third-party servers. Your robot talks to your broker, and that's it.

Primary repository: developed at forgejo.bryantserver.com/SisyphusMD/whiskerless. The GitHub copy is a read-only mirror (HACS installs from it). Please file issues and pull requests on GitHub — the Forgejo repository does not take external issues.

Status: beta. The local protocol was recovered by reverse-engineering and validated against a real robot. Re-provisioning, telemetry, and settings are proven on hardware. The discrete actions (clean cycle, power, empty, resets) are intentionally left out — see What's not here.


Why

Out of the box, a Litter-Robot 4 only works through Whisker's AWS cloud: every status update and every button press makes a round-trip to the internet, and Whisker actively blocks third-party clients. whiskerless cuts the cloud out entirely. The robot keeps its firmware; you just re-point its MQTT trust + broker at your own, over its own BLE provisioning channel — no teardown, no UART, no reflash, and fully reversible.

You get:

  • a Home Assistant integration (HACS) built to the Platinum quality bar — fully local, push-first, fully typed;
  • a whiskerless CLI + Python library to provision, monitor, read, and control a robot directly;
  • a complete, public protocol reference — the first published map of the LR4 local MQTT protocol.

How it works (30 seconds)

  BLE (one-time)        re-point trust + broker          runtime (forever after)
  your laptop  ───►  CA + host + topics over protocomm  ───►  robot ──MQTT/TLS──► your broker ──► Home Assistant

The robot stores all of its cloud identity in NVS and exposes esp-idf protocomm provisioning over BLE with no PIN. whiskerless writes your CA into its root-CA slot and your broker IP as its host, then commits. From then on the robot connects to your broker over TLS and speaks plain JSON — requestState, settings writes, and a live telemetry stream. Full detail in docs/how-it-works.md.

Install

Home Assistant (HACS)

  1. HACS → ⋮ → Custom repositories → add https://github.com/SisyphusMD/whiskerless as an Integration.
  2. Install Whiskerless, restart Home Assistant.
  3. Make sure Home Assistant's MQTT integration is connected to your broker.
  4. Provision each robot onto that broker (below). It then appears on its own under Settings → Devices & Services as a Discovered device — click Add and give it a name. No broker details or serials to type.

See docs/setup/ for the broker, certificate, and discovery details.

The "app" — no Python needed (for provisioning)

Re-provisioning happens over Bluetooth from a computer near the robot. Grab the build for your OS from the releases page — Forgejo (primary) or GitHub (mirror):

  • macOS — download the signed installer for your chip (whiskerless-macos-arm64.pkg for Apple Silicon, whiskerless-macos-x86_64.pkg for Intel), double-click to install, then run it in any terminal — it prompts for everything:

    whiskerless provision
    

    It's signed and notarized by Apple, so there's no "unidentified developer" warning. The first time it scans, macOS asks to let your terminal use Bluetooth — allow it. To update later, just download the newer .pkg and double-click — it installs over the old one in place.

  • Linux — download whiskerless-linux-x86_64 and run it:

    chmod +x ./whiskerless-linux-x86_64
    ./whiskerless-linux-x86_64 provision
    
  • Windows — no standalone binary, but the PyPI CLI works nativelybleak drives Windows' built-in Bluetooth:

    uvx whiskerless provision
    

    (Don't run the Linux binary under WSL: WSL can't reach the Bluetooth adapter, so provisioning won't work there.)

Prefer not to install anything? uvx whiskerless provision runs it one-shot.

CLI / library (PyPI)

  • One-shot, no install: uvx whiskerless provision
  • CLI on your PATH: pipx install whiskerless
  • Library + BLE re-provisioning: pip install 'whiskerless[ble]'

Quickstart (CLI)

Re-provision the robot onto your broker (one-time, over BLE; prompts for anything you omit — --host-ip is your broker's address):

whiskerless provision --serial LR4Cxxxxxx --host-ip <broker-ip> --ca ca.crt --wifi-ssid MyIoT

Watch it:

whiskerless monitor --serial LR4Cxxxxxx --host <broker-ip> --ca ca.crt

Read its decoded state:

whiskerless state --serial LR4Cxxxxxx --host <broker-ip> --ca ca.crt

Change a setting (writes, then reads back to confirm):

whiskerless set night-light-mode auto --serial LR4Cxxxxxx --host <broker-ip> --ca ca.crt

Safety first

This library talks straight to a robot's controller, and some opcodes can reset it or, in the worst case, brick a control board. So it guards every send:

  • Four opcodes are refused unconditionally (0xA3, 0xA4, 0xAC, 0xAD — reset / main-board-OTA orchestrator, globe-motor OTA, flash erase, hardware reset). No flag lets them through.
  • No motor command is exposed. No opcode is yet proven to drive the globe — the byte once shipped as "clean cycle" turned out to reset the robot — so the motor gate sits empty until a real trigger is confirmed.
  • Untraced / control-band / calibration writes are refused unless you override them on purpose.

The guard lives in safety.py and both the CLI and the integration funnel through it — see docs/devices/litter-robot-4/.

What's not here

The clean cycle, power on/off, the empty cycle, and the panel/drawer resets are deliberately omitted. Reverse-engineering could not pin their exact register+value to safe, actionable confidence — the firmware that dispatches those inbound actions lives in a bootloader region absent from every public image, and the byte once shipped as "clean cycle" was proven on a live robot to reset the unit, not cycle it. Shipping the candidates as guesses would risk dangerous control-band writes. They're tracked as open items with a clear path to close them — see the reverse-engineering writeup, docs/devices/litter-robot-4/compatibility.md, and the issue templates. Contributions welcome.

Repository layout

whiskerless/
├─ src/whiskerless/            # the pip library (codec, MQTT, BLE, safety, CLI)
│  └─ devices/litter_robot_4/  # LR4 protocol: codec, commands, state model, link
├─ custom_components/whiskerless/  # the Home Assistant integration (depends on the lib)
├─ docs/                       # protocol reference + setup + recovery guides
├─ examples/                   # example automations
└─ tests/                      # codec / safety / command / integration tests

Documentation

Adding another Whisker device

The library is structured so a new robot drops in under src/whiskerless/devices/<x>/ (codec + commands + state model) and custom_components/whiskerless/devices/<x>.py, reusing the shared MQTT transport, BLE provisioning, and safety guard. See CONTRIBUTING.md.

License

MIT. Not affiliated with or endorsed by Whisker. "Litter-Robot" is a trademark of its respective owner; this project is independent and interoperates with hardware you own.

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