Edge
БесплатноНе проверенEnables cloud LLM agents to discover and invoke physical hardware on edge and IoT devices through standard MCP tools, bridging constrained device channels like
Описание
Enables cloud LLM agents to discover and invoke physical hardware on edge and IoT devices through standard MCP tools, bridging constrained device channels like UART, BLE, and Wi-Fi.
README
Extend the Model Context Protocol (MCP) to edge and IoT devices.
MCP-Edge lets cloud LLM agents discover and invoke physical hardware through the same tool interface they already use for software APIs. It provides:
- a gateway that bridges cloud-native MCP transports (SSE / HTTP) to constrained device channels (UART, BLE, local Wi-Fi), presenting every downstream device as a standard MCP tool provider;
- MCP-Lite, a lightweight MCP server for devices with as little as ~512 KB of RAM;
- a four-tier device taxonomy (constrained MCUs, smart IoT nodes, BLE-only wearables, Linux-class edge computers) that maps an MCP strategy to each tier;
- protocol adaptations for constrained links: CBOR encoding, schema caching, connection pooling, and offline request buffering.
Status: alpha, under active development. The public API is unstable and will change. This is the reference implementation of the MCP-Edge framework (IEEE Cloud Summit 2026): the gateway, MCP-Lite server, four-tier device taxonomy, and serial/UART, BLE, and Wi-Fi (TCP) transports, all covered by a hermetic test suite, with ESP32 MicroPython example firmware and a Wokwi boot test in CI, and the gateway install + boot verified on aarch64 Linux and Raspberry Pi OS (QEMU) in CI — see platform support.
Installation
Requires Python 3.10+.
pip install mcp-edge
For development, install from source:
git clone https://github.com/jemsbhai/mcp-edge
cd mcp-edge
pip install -e ".[dev]"
Quickstart
Run a demo gateway — an MCP server exposing two simulated devices over stdio:
mcp-edge run --demo
This serves a simulated sensor (read_temp, read_humidity) and a simulated ring
(heart_rate), each tool namespaced by device (sensor-01/read_temp, ...). To drive it
from an MCP client such as the MCP Inspector or Claude Desktop, configure a stdio server
with command mcp-edge and arguments ["run", "--demo"]. The process logs to stderr and
waits for a client on stdin.
Use the gateway as a library:
import asyncio
from mcp_edge.client import MCPLiteClient
from mcp_edge.devices import SimulatedDevice
from mcp_edge.gateway import Gateway
from mcp_edge.registry import DeviceRegistry
from mcp_edge.tiers import Tier
from mcp_edge.transports import LoopbackTransport
async def main() -> None:
device = SimulatedDevice("sensor-01")
device.add_tool("read_temp", lambda args: {"celsius": 21.5})
transport = LoopbackTransport(device.handle)
await transport.open()
registry = DeviceRegistry()
registry.register("sensor-01", MCPLiteClient(transport), Tier.SMART_NODE)
gateway = Gateway(registry)
print([tool["name"] for tool in await gateway.list_tools()]) # ['sensor-01/read_temp']
print(await gateway.call_tool("sensor-01/read_temp", {})) # {'celsius': 21.5}
asyncio.run(main())
Connect your own device over serial (experimental) — install the serial extra
(pip install "mcp-edge[serial]") and point SerialTransport at the port your device is
on. It exposes the same Transport interface, so it drops into the example above in place
of LoopbackTransport:
from mcp_edge.transports import SerialTransport
# "COM3" on Windows, "/dev/ttyUSB0" on Linux/macOS
transport = SerialTransport("COM3", baudrate=115200)
Frames use a length-prefixed wire format — a 2-byte big-endian length followed by the CBOR
payload — documented in transports/serial.py. Device firmware must frame its replies the
same way; the exported encode_frame / decode_frame helpers make that straightforward.
This path is not yet validated on physical hardware. Worked ESP32 MicroPython firmware
for the serial, BLE, and Wi-Fi transports lives in
examples/firmware/esp32_micropython/.
Roadmap
- v0.1 — gateway core, in-process (loopback) transport, protocol adaptations (CBOR, schema caching, connection pooling, offline buffering), device simulator, health monitor, CLI, hermetic CI
- v0.2 — real transports and Wokwi firmware-in-the-loop
tests (Arduino / ESP32 / RP2040). The serial/UART (
pyserial), BLE (bleak), and Wi-Fi (TCP, with mDNS discovery viazeroconf) transports have landed (software-tested), each with ESP32 MicroPython example firmware - v0.2+ — Edge Impulse (inference as an MCP tool) and Arduino IoT Cloud (properties as MCP) integration examples; Renode / QEMU backends
Development
pip install -e ".[dev]"
pytest -q
ruff check .
License
MIT — see LICENSE.
Установка Edge
У этого сервера нет опубликованного пакета — он собирается из исходников. Открой репозиторий и следуй инструкции в README.
▸ github.com/jemsbhai/mcp-edgeFAQ
Edge MCP бесплатный?
Да, Edge MCP бесплатный — установка в пару кликов через Unyly без оплаты.
Нужен ли API-ключ для Edge?
Нет, Edge работает без API-ключей и переменных окружения.
Edge — hosted или self-hosted?
Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.
Как установить Edge в Claude Desktop, Claude Code или Cursor?
Открой Edge 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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