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scarter4work

PetLibro MCP Server

by scarter4work

PetLibro MCP Server

An MCP (Model Context Protocol) server that lets Claude control PetLibro RFID pet feeders and Dockstream water fountains: check food/battery/water status, dispense food by the cup, and force-open feeder lids — all backed by the PetLibro cloud API (the same one the PetLibro mobile app uses).

Feeders and fountains are addressed by short names you define once in pets.toml (e.g. zeus, ferris, dockstream1), not by raw device serials.

Install

Requires Python >= 3.10.

cd petlibro
python -m venv .venv
.venv/bin/pip install -e ".[dev]"

This installs the petlibro-mcp console script into .venv/bin/.

Run the test suite:

.venv/bin/pytest

Related MCP server: Bambu Lab MCP Server

Configuration

.env — PetLibro cloud credentials

Create a .env file at the repo root (already git-ignored — never commit real credentials):

PETLIBRO_EMAIL=you@example.com
PETLIBRO_PASSWORD=your-petlibro-app-password
PETLIBRO_REGION=US

These are the same credentials you use to log into the PetLibro mobile app. PETLIBRO_REGION selects the regional API base URL (see src/petlibro_mcp/vendored/api.py for supported regions; US is the default).

pets.toml — your devices

Copy the bundled template and fill in your own devices (the real pets.toml is git-ignored so your serials/MACs/chip IDs stay private):

cp pets.example.toml pets.toml

pets.toml at the repo root maps your feeders and fountains to friendly names:

[defaults]
portions_per_cup = 12       # default dispense ratio, overridable per feeder
region = "US"
max_cups_per_command = 4    # safety cap; "feed" refuses more unless force=true

[[pet]]
name = "ferris"
serial = "EXAMPLE_FEEDER_SN_FERRIS"   # from the device or the cloud device list
mac = "EXAMPLE_MAC_FERRIS"
chip = "100003"
# portions_per_cup = 10             # optional per-feeder override

[[fountain]]
name = "dockstream1"
serial = "EXAMPLE_FOUNTAIN_SN_1"
mac = "EXAMPLE_MAC_FOUNTAIN_1"
near = ["zeus", "colby", "bridget"]  # cosmetic: which pets drink from it

Serials are the values the PetLibro cloud reports for each device (deviceSn in the API), not necessarily the exact string printed on the physical label. Run the smoke script below after any config change to confirm every configured serial actually matches something the cloud reports — a mismatch means feed/open_lid calls for that device will fail.

Verifying the connection (smoke test)

scripts/smoke.py is a small, read-only script (git-ignored, not part of the package) that logs in and lists devices to confirm the whole stack — .env, pets.toml, and the vendored API client — actually talks to your real account:

.venv/bin/python scripts/smoke.py

It prints login OK, the number of devices the cloud reports, each cloud device's serial/name, and then reconciles every configured feeder/fountain serial against those cloud serials (OK or MISSING from cloud). This does not feed anything or open any lid — it only calls login + list devices.

Calibrating portions_per_cup

The feeders dispense in discrete "portions," but you usually think in cups. portions_per_cup converts one to the other (cups_to_portions in config.py), and the default of 12 is a guess — calibrate it for your actual food:

  1. Use the feed tool (or the PetLibro app) to dispense a known number of portions into an empty measuring cup (e.g. 12 portions).

  2. Measure how many cups that actually filled.

  3. Compute portions_per_cup = portions_dispensed / cups_measured.

  4. Set it in pets.toml, either globally under [defaults] or per feeder (food density/kibble size can differ by station, so add a portions_per_cup = N line under any [[pet]] that needs its own ratio).

Tools

The server exposes five MCP tools:

Tool

Purpose

feed

Dispense food. Takes pets (name, list of names, or "all") and cups. Refuses to exceed max_cups_per_command unless force=true.

open_lid

Force the RFID lid open on one, several, or all feeders.

feeder_status

Food level, battery, online state, and today's feeding total for one feeder or all of them.

fountain_status

Water level %, water state, pump, filter/cleaning days remaining, and battery for one fountain or all.

list_devices

Configured feeders/fountains plus the live cloud device list — useful for spotting a serial mismatch.

Example prompts once the server is registered with Claude:

  • "Feed ferris 3 cups"

  • "Open all the lids"

  • "How much food does zeus have?"

  • "Feed everyone 1 cup"

  • "What's the status of dockstream2?"

  • "List all my PetLibro devices"

Registering with Claude

Add an entry to your MCP config (Claude Code's .mcp.json, or the Claude Desktop config). Credentials should come from .env, not be hardcoded in a config file that might get shared or committed.

The server loads .env for you. On startup it reads a .env file next to pets.toml (or at PETLIBRO_ENV), so the simplest registration just points at the console script and sets the config path — no password in the MCP config at all:

{
  "mcpServers": {
    "petlibro": {
      "command": "/home/scarter4work/projects/petlibro/.venv/bin/petlibro-mcp",
      "env": {
        "PETLIBRO_PETS_TOML": "/home/scarter4work/projects/petlibro/pets.toml"
      }
    }
  }
}

PETLIBRO_PETS_TOML also tells the server where to find .env (same directory). Real environment variables always win over the .env file, so you can still override any value from the MCP env block.

If you'd rather set credentials directly in the MCP config's env block instead of sourcing .env, never write the real password into a file that gets committed — use a placeholder and fill in the real value only in your local, git-ignored config:

{
  "mcpServers": {
    "petlibro": {
      "command": "/home/scarter4work/projects/petlibro/.venv/bin/petlibro-mcp",
      "env": {
        "PETLIBRO_EMAIL": "you@example.com",
        "PETLIBRO_PASSWORD": "REDACTED",
        "PETLIBRO_REGION": "US",
        "PETLIBRO_PETS_TOML": "/home/scarter4work/projects/petlibro/pets.toml"
      }
    }
  }
}

Either way, keep whichever file holds the real password (.env or the MCP config itself) out of git.

Safety notes

  • feed enforces max_cups_per_command as a per-call overfeed guard; force=true bypasses it deliberately, not accidentally.

  • Every tool call surfaces real errors (auth failures, unknown pet names, API errors) instead of swallowing them — a failed dispense or a serial mismatch should always be visible, never silently ignored.

  • Always run scripts/smoke.py after changing pets.toml or rotating credentials, before trusting feed/open_lid against real hardware.

Known gaps (deferred, not stubbed)

  • Schedule editing, fountain pump control, and RFID visit history (recent_visits) are not implemented.

License & attribution

Licensed under GPL-3.0-or-later (see LICENSE).

The code under src/petlibro_mcp/vendored/ is derived from the community PETLIBRO Home Assistant integration (cd1zz/petlibro-homeassistant, originally jjjonesjr33/petlibro), adapted to run standalone. That upstream is GPL-3.0, so this project is too. See NOTICE for details.

PetLibro does not publish a public API; this project uses the same private cloud endpoints as the official app. Not affiliated with or endorsed by PetLibro.

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