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MCP server for Raspberry Pi peripheral bus access, enabling AI agents to interact with CAN, I2C, SPI, UART, and GPIO directly through natural language.

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Описание

MCP server for Raspberry Pi peripheral bus access, enabling AI agents to interact with CAN, I2C, SPI, UART, and GPIO directly through natural language.

README

An MCP server that gives an AI agent (Claude Desktop, Claude Code, or any MCP-compatible client) direct access to a Raspberry Pi's peripheral buses:

  • CAN / CAN-FD — SocketCAN (PiCAN, Waveshare 2-CH CAN HAT, on-board CAN on CM5)
  • RS485 / UART — pyserial (/dev/ttyUSB*, /dev/ttyAMA*, /dev/ttyS*)
  • I2C — smbus2 (/dev/i2c-1, /dev/i2c-3)
  • SPI — spidev (/dev/spidev0.0, etc.)
  • GPIO — lgpio (Pi 4 / Pi 5 / CM4 / CM5)

The agent gets a small, opinionated tool set — bus_list, can_send, i2c_read, gpio_write, … — plus per-bus *_configure tools so it can retune bitrate / baud / SPI mode mid-session. Point Claude at a Pi and it can talk to a sensor, dump CAN traffic, or wiggle a pin without you writing a Python script first.

bus-mcp architecture

Quick install on a Pi

git clone https://github.com/Pan-Robotics/bus-mcp.git
cd bus-mcp
./packaging/install.sh --allow-write

That's it. The installer:

  • creates ~/.local/share/bus-mcp/.venv with --system-site-packages so apt-packaged lgpio / pyserial / smbus2 / spidev are reused (no SWIG rebuild)
  • installs mcp + python-can + bus-mcp itself
  • adds you to spi / i2c / gpio / dialout groups
  • installs /etc/systemd/system/bus-mcp.service and enables it
  • prints the MCP endpoint URL + the claude mcp add line for your host

It does not touch /boot/firmware/config.txt (CAN HAT overlays vary by HAT variant), pick a CAN bitrate, or open firewall ports.

Re-running is idempotent. To remove everything: ./packaging/install.sh --uninstall.

Manual install (PyPI, no systemd)

On a Pi:

pip install "bus-mcp[pi-all]"

On a dev laptop (no hardware) — for editing + tests:

pip install bus-mcp

The bus libraries (python-can, pyserial, smbus2, spidev, lgpio) load lazily. Missing libs only error when you call a tool that needs them.

Run

bus-mcp list                            # show discovered buses
bus-mcp serve                           # stdio (Claude Desktop / Code)
bus-mcp serve --allow-write             # writes on every bus
bus-mcp serve --allow-write=can,serial  # writes only on CAN + serial

# HTTP / streamable-http transport (localhost only by default)
bus-mcp serve --transport http
bus-mcp serve --transport http --port 7820 --allow-write
bus-mcp serve --transport http --host 0.0.0.0 --port 7820  # LAN-reachable

The HTTP endpoint is at http://<host>:<port>/mcp and speaks the MCP streamable-HTTP protocol (POST JSON-RPC, response as a single SSE message). The default bind is 127.0.0.1 so the server is invisible outside the Pi until you opt in with --host 0.0.0.0 (and an SSH tunnel / firewall rule to fence access).

Wire into Claude Desktop (stdio)

Edit ~/.config/Claude/claude_desktop_config.json:

{
  "mcpServers": {
    "bus-mcp": {
      "command": "bus-mcp",
      "args": ["serve", "--allow-write"]
    }
  }
}

Wire into Claude Code

stdio (Claude Code on the same Pi):

claude mcp add bus-mcp -- bus-mcp serve --allow-write

HTTP (Pi reachable on pi.local:7820, or substitute your hostname / IP):

claude mcp add --transport http bus-mcp http://pi.local:7820/mcp

The installer prints the exact URL for your host at the end of its run.

Tools the agent gets

Tool Purpose
bus_list Enumerate discovered buses
bus_status Inspect descriptor + stored config (no driver open)
bus_close Release a bus the agent opened earlier
write_permissions Show which bus kinds writes are enabled on
can_configure Set bitrate / fd / data_bitrate / restart_ms
can_send Transmit a CAN / CAN-FD frame
can_receive Drain frames with an optional kernel filter
serial_configure Set baudrate / bytesize / parity / stopbits / flow
serial_send Write bytes to a UART / RS485 port
serial_receive Read bytes from a UART / RS485 port
i2c_read Read from a device register
i2c_write Write to a device register
i2c_scan i2cdetect-equivalent address probe
spi_configure Set max_speed_hz / mode / bits_per_word / lsb_first
spi_xfer Full-duplex transfer (optional per-call speed)
gpio_configure Set direction / pull / active-low / debounce
gpio_read Read a pin
gpio_write Drive a pin

*_configure tools take all fields as optional kwargs — pass only what you want to change. The bus is closed immediately so the next call reopens it with the new config. Blocking receive tools (can_receive, serial_receive, i2c_scan) run on a worker thread via asyncio.to_thread, so a single client can hold a long receive open while firing other tool calls in parallel.

Safety

Default is read-only on every bus. Write tools refuse cleanly with a message that names the right --allow-write flag. Refusals are returned as MCP tool errors so the agent can surface the state instead of crashing.

There is no protocol-level checking past the write gate: if you enable writes and the agent transmits a destructive CAN frame, your ECU sees it. Use this on bench setups, not on a live vehicle without a hardware kill switch.

Verifying on a Pi — Waveshare 2-CH CAN HAT loopback

The Waveshare 2-CH CAN HAT gives you two MCP2515 channels exposed as can0 + can1. With both channels wired into each other (CAN_H ↔ CAN_H, CAN_L ↔ CAN_L, plus the on-board 120 Ω termination jumpers enabled on both sides), frames sent on one channel land on the other — a perfect end-to-end test.

# 1. Enable SPI + the overlays (one-time).
#    These values are for the ORIGINAL 2-CH CAN HAT (16 MHz crystals,
#    IRQs on GPIO 23 + 25). The HAT+ variant uses different pins —
#    check your HAT before pasting.
sudo raspi-config nonint do_spi 0
sudo tee -a /boot/firmware/config.txt <<'EOF'
dtoverlay=mcp2515-can0,oscillator=16000000,interrupt=23
dtoverlay=mcp2515-can1,oscillator=16000000,interrupt=25
EOF
sudo reboot

# 2. After reboot — bring both interfaces up.
sudo ip link set can0 up type can bitrate 500000
sudo ip link set can1 up type can bitrate 500000

# 3. Install bus-mcp and start it.
./packaging/install.sh --allow-write    # or: bus-mcp serve --transport http --allow-write &

# 4. From an agent (or curl directly), exercise the loopback:
#    - on can0: can_send {arbitration_id=0x123, data_hex="deadbeef"}
#    - on can1: can_receive {timeout_s=1, count=1}
#    expect: one frame with arbitration_id=0x123, data="deadbeef"

A raw curl smoke-test (initialize the MCP session) — substitute your Pi's hostname / IP for <HOST>:

curl -i -X POST -H 'Content-Type: application/json' \
  -H 'Accept: application/json, text/event-stream' \
  --data '{"jsonrpc":"2.0","id":1,"method":"initialize","params":{"protocolVersion":"2024-11-05","capabilities":{},"clientInfo":{"name":"test","version":"0.0.1"}}}' \
  http://<HOST>:7820/mcp

If the controllers settle into ERROR-PASSIVE instead of ERROR-ACTIVE (ip -details link show can0), the on-board termination jumpers probably aren't enabled. Either turn them on or drop the bitrate to something the bus can sustain (sudo ip link set can0 down; sudo ip link set can0 type can bitrate 250000; sudo ip link set can0 up).

Architecture

See docs/architecture.png for the full layered view, or re-render after editing:

python docs/render_arch.py    # writes docs/architecture.png

The render script (docs/render_arch.py) uses pure-PIL — no dot / mmdc / browser engines — and auto-sizes each layer band from its tallest box, so adding tools or drivers doesn't require manual layout tuning.

Logs + service control (systemd install only)

sudo systemctl status bus-mcp           # is it up?
sudo systemctl restart bus-mcp          # bounce it
sudo journalctl -u bus-mcp -f           # tail logs
sudo journalctl -u bus-mcp --since=-1h  # past hour

Roadmap

  • mDNS advertise so a roaming agent on the LAN can find the Pi
  • Auth on the HTTP endpoint (shared secret header)
  • Filter expressions on can_receive beyond single-id+mask
  • PyPI publish (today: install from source)

License

MIT — see LICENSE.

from github.com/Pan-Robotics/bus-mcp

Установка Bus

У этого сервера нет опубликованного пакета — он собирается из исходников. Открой репозиторий и следуй инструкции в README.

▸ github.com/Pan-Robotics/bus-mcp

FAQ

Bus MCP бесплатный?

Да, Bus MCP бесплатный — установка в пару кликов через Unyly без оплаты.

Нужен ли API-ключ для Bus?

Нет, Bus работает без API-ключей и переменных окружения.

Bus — hosted или self-hosted?

Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.

Как установить Bus в Claude Desktop, Claude Code или Cursor?

Открой Bus на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.

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