by CursorTouch
MCP Server for interacting with Android Devices.
# Add to your Claude Code skills
git clone https://github.com/CursorTouch/Android-MCPGuides for using mcp servers skills like Android-MCP.
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Android-MCP is a lightweight, open-source tool that bridge between AI agents and Android devices. Running as an MCP server, it lets LLM agents perform real-world tasks such as app navigation, UI interaction and automated QA testing without relying on traditional computer-vision pipelines or preprogramed scripts.
https://github.com/user-attachments/assets/cf9a5e4e-b69f-46d4-8487-0f61a7a86d67
Native Android Integration
Interact with UI elements via ADB and the Android Accessibility API: launch apps, tap, swipe, input text, and read view hierarchies.
Bring Your Own LLM/VLM
Works with any language model, no fine-tuned CV model or OCR pipeline required.
Rich Toolset for Mobile Automation
Pre-built tools for gestures, keystrokes, capture, device state, shell commands execution.
Real-Time Interaction
Typical latency between actions (e.g., two taps) ranges 2-4s depending on device specs and load.
Before running the server, ensure your Android device is connected and recognized by ADB:
adb devices
List of devices attached
emulator-5554 device
For WiFi ADB, connect the device first:
adb connect 192.168.1.3:5555
adb devices
You can run the Android MCP server using UVX (recommended) or UV (for local development).
No need to install dependencies manually. Just configure Claude Desktop:
Windows note: Use Python 3.13 for
uvxon Windows. Python 3.14 currently fails to resolve a transitivepywin32dependency used by the MCP stack.
Locate your config file
%APPDATA%\Claude\claude_desktop_config.json~/Library/Application Support/Claude/claude_desktop_config.jsonAdd the configuration
{
"mcpServers": {
"android-mcp": {
"command": "uvx",
"args": [
"--python",
"3.13",
"android-mcp"
]
}
}
}
Note: The server starts first and connects lazily when a tool runs. If no device is specified, it auto-detects the first available ADB device instead of hardcoding
emulator-5554.
Configure a specific WiFi device with environment variables:
{
"mcpServers": {
"android-mcp": {
"command": "uvx",
"args": [
"--python",
"3.13",
"android-mcp"
],
"env": {
"ANDROID_MCP_CONNECTION": "wifi",
"ANDROID_MCP_HOST": "192.168.1.3"
}
}
}
}
Or pass explicit flags:
{
"mcpServers": {
"android-mcp": {
"command": "uvx",
"args": [
"--python",
"3.13",
"android-mcp",
"--wifi",
"192.168.1.3"
]
}
}
}
Clone and Install
git clone https://github.com/CursorTouch/Android-MCP.git
cd Android-MCP
uv sync
Configure Claude Desktop
{
"mcpServers": {
"android-mcp": {
"command": "uv",
"args": [
"--directory",
"</PATH/TO/Android-MCP>",
"run",
"android-mcp"
]
}
}
}
Note: Replace
</PATH/TO/Android-MCP>with the full path to your cloned directory. You can also add"--device", "<YOUR_DEVICE_serial>","--wifi", "192.168.1.3", or"--usb"to control device selection.uv syncfollows the repo's.python-version, so local development uses Python 3.13 by default.
Android-MCP resolves devices lazily when a tool is called, so the MCP server can start even if no device is available yet.
--device RFCN2013V8D: connect to a specific USB serial--device 192.168.1.3:5555: connect to a specific WiFi ADB target--wifi 192.168.1.3: use WiFi and auto-append port 5555--usb: auto-detect the first USB-connected device--usb RFCN2013V8D: use a specific USB device--connection wifi: prefer the first available WiFi ADB device--connection usb: prefer the first available USB deviceSupported environment variables:
ANDROID_MCP_DEVICE: explicit serial or host:portANDROID_MCP_CONNECTION: auto, usb, or wifiANDROID_MCP_HOST: WiFi host, with :5555 added automatically when omittedIf nothing is configured, Android-MCP will use the first available ADB device reported by adb devices. If none are available, tool calls return a configuration error instead of crashing the MCP handshake.
Restart your Claude Desktop. You should see "android-mcp" listed as an available integration. That's it, now you're ready to start controlling your Android device with natural language.
For troubleshooting tips (log locations, common ADB issues), see the MCP docs.
Claude can access the following tools to interact with Windows:
State-Tool: To understand the state of the device.Click-Tool: Click on the screen at the given coordinates.Long-Click-Tool: Perform long click on the screen at the given coordinates.Type-Tool: Type text on the specified coordinates (optionally clears existing text).Swipe-Tool: Perform swipe from one location to other.Drag-Tool: Drag from one point to another.Press-Tool: To press the keys on the mobile device (Back, Volume Up, ...etc).Wait-Tool: Pause for a defined duration.State-Tool: Combined snapshot of active apps and interactive UI elements.Notification-Tool: To access the notifications seen on the device.Shell-Tool: To execute shell commands on the android device.SCREENSHOT_QUANTIZED: Set to true to quantize the screenshot to reduce input tokens.Android-MCP can execute arbitrary UI actions on your mobile device. Use it in controlled environments (emulators, test devices) when running untrusted prompts or agents.
This project is licensed under the MIT License. See LICENSE for details.
Contributions are welcome! Please read CONTRIBUTING for dev setup and PR guidelines.
Made with ❤️ by CursorTouch,
developers: Jeomon George, Muhammad Yaseen
@misc{
author = {cursortouch},
title = {Android-MCP},
year = {2025},
publisher = {GitHub},
howpublished = {\url{https://github.com/CursorTouch/Android-MCP}},
note = {Lightweight open-source bridge between LLM agents and Android},
}