Philips Hue MCP Server
A Model Context Protocol interface that enables AI assistants like Claude to control Philips Hue smart lighting systems through natural language commands.
README Documentation
Philips Hue MCP Server
A powerful Model Context Protocol (MCP) interface for controlling Philips Hue smart lighting systems. Enable AI assistants like Claude to control your lights using natural language.
Table of Contents
- Philips Hue MCP Server
Overview
This server leverages the Model Context Protocol (MCP) to provide a seamless integration between AI assistants like Claude and your Philips Hue lighting system. With it, you can control your smart lights using natural language, access detailed lighting information, and create advanced lighting setups through a standardized AI-friendly interface.
Features
- Complete Light Control: Turn on/off, adjust brightness, change colors, set color temperature
- Comprehensive Group Management: Control multiple lights together, create custom groups
- Scene Handling: Apply existing scenes, create quick custom lighting scenes
- Activity-Based Presets: Ready-made settings for reading, relaxation, concentration, and more
- Special Effects: Access dynamic lighting effects like color loops
- Natural Language Control: Specialized prompts for lighting control through conversation
- Secure Local Integration: Connects directly to your Hue bridge on your local network
Quick Start
# Install dependencies using uv (recommended)
uv sync
# Test with MCP Inspector
uv run mcp dev hue_server.py
# Install in Claude Desktop
uv run mcp install hue_server.py --name "Philips Hue"
Then in Claude, start with: "I'd like to control my Philips Hue lights. Can you show me which lights I have available?"
Setup
Prerequisites
- Python 3.10 or higher
- uv package manager (recommended)
- A Philips Hue bridge on your local network
- Philips Hue lights paired with your bridge
Installation
Using uv (recommended):
# Clone the repository
git clone https://github.com/ThomasRohde/hue-mcp.git
cd hue-mcp
# Install dependencies and create virtual environment automatically
uv sync
# Activate the virtual environment (optional, uv run handles this automatically)
source .venv/bin/activate # On Windows: .venv\Scripts\activate
Using pip:
# Clone the repository
git clone https://github.com/ThomasRohde/hue-mcp.git
cd hue-mcp
# Create and activate a virtual environment
python -m venv .venv
source .venv/bin/activate # On Windows: .venv\Scripts\activate
# Install dependencies
pip install -e ".[dev]"
First Run
- Test the server with the MCP Inspector:
uv run mcp dev hue_server.py
- When prompted, press the link button on your Hue bridge to authorize the connection
- Your connection details will be saved in
~/.hue-mcp/config.jsonfor future use
Using with Claude
Install in Claude Desktop
The easiest way to use this server with Claude Desktop:
# Install with default name
uv run mcp install hue_server.py
# Or with custom name
uv run mcp install hue_server.py --name "Philips Hue Controller"
# With environment variables if needed
uv run mcp install hue_server.py --name "Hue" -v DEBUG=1
Manual Configuration
Alternatively, you can manually configure Claude Desktop by editing the configuration file:
macOS: ~/Library/Application Support/Claude/claude_desktop_config.json
Windows: %APPDATA%\Claude\claude_desktop_config.json
Add the following configuration:
macOS:
{
"mcpServers": {
"hue": {
"command": "uv",
"args": [
"--directory",
"/Users/username/Projects/hue-mcp",
"run",
"hue_server.py"
]
}
}
}
Windows:
{
"mcpServers": {
"hue": {
"command": "uv",
"args": [
"--directory",
"c:\\Users\\username\\Projects\\hue-mcp",
"run",
"hue_server.py"
]
}
}
}
Replace /Users/username/Projects/hue-mcp (macOS) or c:\\Users\\username\\Projects\\hue-mcp (Windows) with the actual path to your cloned repository. The --directory flag ensures uv runs in the correct project directory and can find the dependencies defined in pyproject.toml.
After updating the configuration, restart Claude Desktop for the changes to take effect.
Test with MCP Inspector
For development and testing, use the MCP Inspector:
uv run mcp dev hue_server.py
# With additional dependencies
uv run mcp dev hue_server.py --with pandas
# With debug logging
uv run mcp dev hue_server.py --log-level debug
API Reference
Resources
| Resource | Description |
|---|---|
hue://lights | Information about all lights |
hue://lights/{light_id} | Detailed information about a specific light |
hue://groups | Information about all light groups |
hue://groups/{group_id} | Information about a specific group |
hue://scenes | Information about all scenes |
Tools
| Tool | Description |
|---|---|
get_all_lights | Get information about all lights |
get_light | Get detailed information about a specific light |
get_all_groups | Get information about all light groups |
get_group | Get information about a specific group |
get_all_scenes | Get information about all scenes |
turn_on_light | Turn on a specific light |
turn_off_light | Turn off a specific light |
set_brightness | Adjust light brightness (0-254) |
set_color_rgb | Set light color using RGB values |
set_color_temperature | Set light color temperature (2000-6500K) |
turn_on_group | Turn on all lights in a group |
turn_off_group | Turn off all lights in a group |
set_group_brightness | Adjust group brightness (0-254) |
set_group_color_rgb | Set color for all lights in a group |
set_scene | Apply a scene to a group |
find_light_by_name | Search for lights by name |
create_group | Create a new light group |
quick_scene | Apply custom settings to create a scene |
refresh_lights | Update light information cache |
set_color_preset | Apply a color preset to a light |
set_group_color_preset | Apply a color preset to a group |
alert_light | Make a light flash briefly |
set_light_effect | Set dynamic effects like color loops |
Prompts
| Prompt | Description |
|---|---|
control_lights | Natural language light control |
create_mood | Setup mood lighting for activities |
light_schedule | Learn about scheduling options |
Examples
Controlling Single Lights
# Turn on a light
turn_on_light(1)
# Set a light to 50% brightness
set_brightness(1, 127)
# Change a light color to purple
set_color_rgb(1, 128, 0, 128)
# Set reading mode
set_color_preset(1, "reading")
Working with Groups
# Turn off all lights in living room (group 2)
turn_off_group(2)
# Create a new group
create_group("Bedroom", [3, 4, 5])
# Set all kitchen lights to energizing mode
set_group_color_preset(3, "energize")
Creating Scenes
# Apply an existing scene
set_scene(2, "abc123") # Group 2, scene ID abc123
# Create a quick relaxing scene for the living room
quick_scene("Evening Relaxation", group_id=2, rgb=[255, 147, 41], brightness=120)
Advanced Options
Command Line Arguments
The server supports the following command line arguments when run directly:
# Run with stdio transport (default, for MCP clients)
python hue_server.py
# Run with custom host and port (HTTP/SSE mode)
python hue_server.py --sse --host 0.0.0.0 --port 8888
# Enable debug logging
python hue_server.py --log-level debug
# Show all available options
python hue_server.py --help
| Argument | Description | Default |
|---|---|---|
--host | Host to bind the server to (SSE mode only) | 127.0.0.1 |
--port | Port to run the server on (SSE mode only) | 8080 |
--log-level | Logging level (debug, info, warning, error, critical) | info |
--sse | Run server using SSE transport instead of stdio | False |
Development Mode
When developing or testing:
# Use MCP dev command for automatic reloading
uv run mcp dev hue_server.py --log-level debug
# Or run directly with uv (stdio is default)
uv run python hue_server.py --log-level debug
Troubleshooting
-
Bridge not found: If automatic discovery doesn't work, you have two options:
- Manually edit the
BRIDGE_IPvariable in the script with your bridge's IP address - Manually create a config file:
# Create the config directory mkdir -p ~/.hue-mcp # Create a config.json file with your bridge IP echo '{"bridge_ip": "192.168.1.x"}' > ~/.hue-mcp/config.json
- Manually edit the
-
Connection issues: Delete
~/.hue-mcp/config.jsonand restart the server to re-authenticate -
Light control not working: Use
refresh_lightstool to update the light information cache -
Groups or scenes not showing up: Restart the bridge and server to sync all data
How It Works
This server connects to your Philips Hue bridge using the phue Python library and exposes functionality through the Model Context Protocol. When an AI like Claude connects:
- The server authenticates with your bridge using stored credentials
- It provides resources that describe your lighting setup
- It exposes tools that Claude can use to control your lights
- It offers prompts that help Claude understand how to interact with your lights
All communication with your Hue system happens locally within your network for security and privacy.
Contributing
We are passionate about supporting contributors of all levels of experience and would love to see you get involved in the project. See the contributing guide to get started.
Project Structure
hue-mcp/
├── hue_server.py # Main MCP server implementation
├── pyproject.toml # Project configuration and dependencies
├── README.md # This file
├── CONTRIBUTING.md # Contribution guidelines
├── CHANGELOG.md # Version history
├── LICENSE # MIT License
├── tests/ # Test suite
│ ├── __init__.py
│ └── test_hue_server.py
└── .venv/ # Virtual environment (created during setup)
Development
# Install development dependencies
uv sync
# Run tests
uv run pytest
# Format code
uv run ruff check --fix hue_server.py
# Type check
uv run mypy hue_server.py
# Test with MCP Inspector
uv run mcp dev hue_server.py --log-level debug
License
This project is available under the MIT license. See LICENSE for details.