wot-mcp
Bridges Web of Things (WoT) devices to AI assistants via MCP, enabling discovery, monitoring, and control of IoT devices through natural language.
README
WoT-MCP
WoT-MCP is a server application that exposes Web of Things (WoT) devices to AI assistants via the Model Context Protocol (MCP).
As AI agents become more sophisticated, their ability to interact with the real world remains limited by fragmented IoT protocols. WoT-MCP solves this by translating the standardized Web of Things model (Properties, Actions, Events) into MCP primitives (Resources and Tools).
This allows any MCP-compliant AI client (like Claude Desktop or LangChain agents) to natively discover, monitor, and control physical devices without needing custom code for each device.
Features
- Protocol Translation: Converts WoT Properties, Actions, and Events into MCP Resources and Tools.
- Two Tool Strategies:
explicit: Generates individual tools for every property and action (e.g.,set_temperature,get_humidity). Best for small numbers of devices.generic: Provides a fixed set of tools (list_devices,read_property,write_property,invoke_action) to manage any number of devices. Best for scalability.
- Transport Modes: Supports both
stdioandstreamable-http. - Event Buffering: Captures WoT events and exposes them as MCP resources.
- Docker Support: Ready-to-use Dockerfile for containerized deployment.
Installation
git clone https://github.com/macc-n/wot-mcp.git
cd wot-mcp
npm install
npm run build
Usage
Stdio (Local Clients)
To use WoT-MCP with local clients like Claude Desktop, you can configure them to spawn the server directly.
Claude Desktop Configuration:
Add the following to your claude_desktop_config.json:
{
"mcpServers": {
"wot": {
"command": "npm",
"args": [
"--prefix",
"<absolute-path>/wot-mcp",
"start",
"--",
"--tool-strategy",
"explicit",
"--config",
"<absolute-path>/things-config.json"
]
}
}
}
Note: Ensure you use absolute paths for both the script and the configuration file.
Streamable HTTP
To expose the MCP server over HTTP:
npm start -- --mode streamable-http --port 3000 --config things-config.json
Claude Desktop Configuration:
Add the following to your claude_desktop_config.json:
{
"mcpServers": {
"wot": {
"command": "npx",
"args": [
"-y",
"mcp-remote",
"http://<remote-ip>:<port>/mcp",
"--allow-http"
]
}
}
}
Tool Strategies
Explicit Strategy (Default) Creates a unique tool for every capability:
- WoT Property:
- Creates a getter tool.
- If the property is writable, creates also a setter tool.
- WoT Action:
- Create a single tool with the input schema derived directly from the WoT Action input schema.
- WoT Event:
- Exposes a subscriptable resource.
npm start -- --tool-strategy explicit --config things-config.json
Generic Strategy Uses 4 static tools to manage all devices:
list_devices: Return a JSON list of all devices and their capabilties.read_property: Takesdevide_idandproperty_name.write_property: Takesdevide_id,property_name, andvalue.invoke_action: Takesdevide_id,action_name, and optionalparams.
Note: WoT Events are managed as described before.
npm start -- --tool-strategy generic --config things-config.json
Configuration File
You must load things from a JSON configuration file. The file supports HTTP, CoAP, and MQTT devices.
// things-config.json
{
"things": [
{
"protocol": "http",
"url": "http://localhost:8080/httpthermostat"
},
{
"protocol": "coap",
"url": "coap://localhost:5683/coaplight"
},
{
"protocol": "mqtt",
"url": "mqtt://test.mosquitto.org/MqttSensor",
"td": "/path/to/mqtt-td.json"
}
]
}
Note: For mqtt devices, the td field is required and must point to a local file containing the Thing Description, as TD discovery is not supported over MQTT.
Examples
The wot-mcp-cli repository contains an interactive Command Line Interface (CLI) client for the WoT-MCP server, allowing you to inspect tools and interact with devices.
The wot-mcp-examples repository contains sample code for devices, configuration files, and clients.
For comprehensive documentation and further details, please consult the respective repositories.
Docker
Build the image:
docker build -t wot-mcp .
Run with a configuration file:
docker run --rm --network="host" \
-v $(pwd)/things-config.json:/app/things-config.json \
wot-mcp \
--tool-strategy explicit \
--config /app/things-config.json \
--mode streamable-http \
--port 3000
Note: Replace the path of the config file.
Known Limitations
This first release focuses on the core functionality of bridging Web of Things devices to MCP. It does not yet include advanced features such as authentication, security mechanisms, or a persistent storage layer.
Recommended Servers
playwright-mcp
A Model Context Protocol server that enables LLMs to interact with web pages through structured accessibility snapshots without requiring vision models or screenshots.
Magic Component Platform (MCP)
An AI-powered tool that generates modern UI components from natural language descriptions, integrating with popular IDEs to streamline UI development workflow.
Audiense Insights MCP Server
Enables interaction with Audiense Insights accounts via the Model Context Protocol, facilitating the extraction and analysis of marketing insights and audience data including demographics, behavior, and influencer engagement.
VeyraX MCP
Single MCP tool to connect all your favorite tools: Gmail, Calendar and 40 more.
graphlit-mcp-server
The Model Context Protocol (MCP) Server enables integration between MCP clients and the Graphlit service. Ingest anything from Slack to Gmail to podcast feeds, in addition to web crawling, into a Graphlit project - and then retrieve relevant contents from the MCP client.
Kagi MCP Server
An MCP server that integrates Kagi search capabilities with Claude AI, enabling Claude to perform real-time web searches when answering questions that require up-to-date information.
E2B
Using MCP to run code via e2b.
Neon Database
MCP server for interacting with Neon Management API and databases
Exa Search
A Model Context Protocol (MCP) server lets AI assistants like Claude use the Exa AI Search API for web searches. This setup allows AI models to get real-time web information in a safe and controlled way.
Qdrant Server
This repository is an example of how to create a MCP server for Qdrant, a vector search engine.