chrome-debug-mcp

chrome-debug-mcp is an asynchronous Rust-based Model Context Protocol (MCP) server that allows AI agents and Large Language Models to natively control, automate, and debug Chromium-based browsers via the Chrome DevTools Protocol (CDP).

Using cdp-lite underneath, this MCP server directly hooks into the browser avoiding heavy abstractions, enabling live-debugging sessions directly from your editor or chat-interface. Starting from v0.2.0, it can also manage the Chrome process lifecycle automatically.

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✨ Features (v1.0.9)

This server natively implements a suite of tools categorized by CDP domains and native process management:

🛡️ Privacy & Security

• Isolated Profiles (Default): By default, every time the MCP server launches Chrome, it creates a fresh, temporary user profile in your system's temporary directory. This profile is completely independent of your main browser profile.
• Incognito-like Experience: No cookies, history, saved passwords, or session data from your personal accounts are shared with the managed instance by default.
• Identity Protection: Even if an LLM has full control over the browser, it cannot access your logged-in sessions (e.g., Google, GitHub, banking) or impersonate you unless explicitly authorized.
• User Profile Mode (v1.0.4+): Use the --user-profile flag to launch Chrome using your existing system profile. This is useful when you want the LLM to work within your active sessions (cookies, saved logins, etc.) without having to re-authenticate on every site. Use with caution as this provides the LLM access to your personal browser data.
  • ⚠️ Note on --user-profile: Due to Chrome's singleton architecture, if your browser is already open, it will delegate the request and fail to open the debugging port. You must either close all existing Chrome instances before starting the MCP, or start your browser manually with the --remote-debugging-port=9222 flag.

🚀 Chrome Instance Management (v1.0.0)

• Isolated Profiles: Launches Chrome using a fresh, temporary profile by default, ensuring it doesn't share cookies, passwords, or session data with your main browser.

• User Profile Support (v1.0.4): Optionally use --user-profile to leverage your existing browser sessions and cookies.

• Dynamic Port Management (v1.0.9): Automatically detects if the default port (9222) is in use.

  • If used by another managed chrome-debug-mcp instance, it automatically finds a new available port to avoid collisions.
  • If used by a user-started Chrome instance, it automatically attaches to it instead of spawning a new one.

• Docker & Headless Support: Full compatibility with Docker environments. Use the --headless flag to run Chrome without a GUI inside containers.

• Remote/Host Connection: Use the --host argument to connect to a Chrome instance running on a different machine or the host machine (e.g., --host host.docker.internal from inside a container).

• Optional Automation Infobar: Add the --enable-automation flag to explicitly show the native "Chrome is being controlled by automated test software" message. By default, this is disabled for stealthier interaction.

• Proxy Support: restart_chrome now accepts an optional proxy_server argument to launch Chrome routing traffic through a proxy.

• Auto-Launch: Automatically detects if Chrome is running on the specified port. If not, it spawns a new instance with the required flags.

• restart_chrome: Restarts the managed Chrome instance.

• stop_chrome: Shuts down the managed Chrome instance gracefully (SIGTERM/SIGINT with fallback to SIGKILL).

• Robust Lifecycle: Fixed issues with dangling Chrome processes and patched preferences for cleaner restarts.

🔐 Proxy Authentication (v0.8.0)

• enable_proxy_auth: Automatically handles proxy authentication challenges by hooking into the Fetch CDP domain and supplying user-provided credentials (username & password).
• Robustness Improvements: Now features a 30-second timeout for slower residential proxies, and defaults to only intercepting Document requests to prevent breaking background requests.
• Pre-warming: Automatically navigates to a prewarm_url (defaults to http://api.ipify.org?format=json) to establish the proxy tunnel reliably before your main navigation task. You can optionally restrict the interception to a specific resource_type.

🖱️ User Input (v0.5.1)

• click_element: Simulates a native mouse click on a specific element by using a CSS selector. It calculates the center coordinates of the element and dispatches CDP mouse events directly.
• fill_input: Fills an input field in the DOM with specified text. It focuses the element via CSS selector and then uses native CDP Input.insertText.
• scroll: Scrolls the page by pixels, viewport heights (pages), or to a specific element. Essential for interacting with lazy-loaded content or infinite scrolling.

📡 Network Inspection (v0.3.0)

• get_network_logs: Retrieve intercepted network requests (REST/HTTP) and WebSocket frames.
• Advanced Filtering: Filter logs by URL, resource type, WebSocket direction, or payload content.
• Payload Inspection: Access full request/response headers, REST response bodies, and WebSocket frames.
• Context Optimized: Optional "summary mode" to avoid flooding the LLM context window.

🪵 Console & Errors (v0.6.0)

• get_console_logs: Retrieve console logs from the browser. This includes console.log/warn/error calls, exceptions, and network errors. Crucial for troubleshooting page scripts and errors. Includes optional log level filtering and a clear flag to manage state efficiently.

⚡ Performance & Profiling (v0.7.1)

• get_performance_metrics: Retrieve run-time performance metrics from the browser (e.g., JS heap size, DOM nodes, layout duration). Useful for getting a quick snapshot of the page's memory and computational overhead.
• profile_page_performance: Record and analyze a performance trace of the page. It automatically calculates Core Web Vitals (FCP, LCP, DCL, Load) and identifies the top Long Tasks (main thread blocking operations). You can optionally reload the page with cache disabled to simulate a cold start.

🌐 Page & Runtime Control

• capture_screenshot: Take a screenshot of the current page (or full page layout) and return it to the LLM client as a base64 encoded image block.
• navigate: Navigate the active tab to a specific URL.
• reload: Reload the current page.
• inspect_dom: Fetch the entire HTML or a smart snippet around a search query.
  • Context Search: Search for specific text and get a configurable number of characters around it.
  • Token Efficiency: Drastically reduce context window usage for large pages.
• evaluate_js: Run an arbitrary JavaScript expression globally on the page context.

🐞 Live Debugging & Execution Control

• pause_on_load: Enables the debugger and triggers a page reload, pausing execution on the very first parsed script statement.
• search_scripts: Search across all parsed script contexts for a query to accurately find lines and columns for breakpoints.
• set_breakpoint: Set a precise JS breakpoint using script_id, url, or exact script_hash.
• evaluate_on_call_frame: Evaluate a JavaScript expression directly inside the local scope of the currently paused debugger call frame.
• step_over: Step over the next expression line.
• resume: Unpause and resume the execution.
• remove_breakpoint: Remove a previously set breakpoint.

🧪 Stability & Reliability

• Extensive Unit Testing: Comprehensive test suite ensuring the reliability of event processing and tool deserialization, particularly in the debugger domain.
• Side-Effect Free Tests: All unit tests are designed to run in isolation, without launching real Chrome instances or modifying the filesystem.
• Internal Refactoring: Decoupled core logic through traits and dependency injection to ensure long-term maintainability.

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⚙️ Configuration

By default, the MCP Server attempts to find the Chrome executable in standard OS-specific locations (e.g., /Applications/Google Chrome.app/Contents/MacOS/Google Chrome on macOS, or chrome in your system PATH on Windows).

Arguments:

• --local: Restricts navigation to local addresses only (localhost, 127.0.0.1, 192.168.x.x, or *.local). Highly recommended for security.
• --headless: Runs Chrome in headless mode (no GUI). Essential for Docker or server environments.
• --user-profile: Use the default system user profile (sessions, cookies, etc.) instead of a fresh one. This is useful for avoiding repeated logins during research sessions.
• --host: Specifies the target host for the Chrome instance (default: 127.0.0.1). Use host.docker.internal to connect to a host machine from a container.
• --port: Specifies the remote debugging port (default: 9222).
• --enable-automation: Enables the "controlled by automated software" infobar.

Environment Variables:

• CHROME_PATH: Explicitly define the path to the Chrome executable.

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🐳 Docker & Headless Usage (v1.0.0)

chrome-debug-mcp is fully container-ready. This allows several powerful use cases for LLMs:

1. Cloud Deployment (via Glama)

The easiest way to use this server. Glama spawns a Docker container with Chrome pre-installed. The LLM gets immediate access to a browser in the cloud without any local setup.

2. Isolated Local Use

Run everything inside Docker to avoid installing Chrome or Rust on your host machine:

docker build -t chrome-mcp .
docker run -i --rm chrome-mcp --headless

3. Hybrid Mode (Container controlling Host)

The MCP server runs inside a secure Docker container but controls the Chrome instance on your actual desktop. This allows the LLM to assist you in your real browsing session:

1. Start your local Chrome with: --remote-debugging-port=9222
   • Note: If you need proxy support in this mode, you must also start Chrome with the --proxy-server="http://your-proxy:port" flag.
2. Run the container:

# On macOS/Windows
docker run -i --rm chrome-mcp --host host.docker.internal

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🚀 Quick Start

The easiest way to install and run the MCP Server natively is via Rust's Cargo or by downloading the pre-compiled binaries. You do not need to start Chrome manually anymore, the MCP Server will automatically launch a visible instance of Chrome with the correct debugging flags.

1. Installation

Option A: Pre-compiled Binaries (Recommended) Go to the Releases page and download the native executable for your platform (macOS, Windows, Linux). We provide .msi installers for Windows and shell scripts for UNIX systems.

Option B: Install via Cargo

cargo install --git https://github.com/raultov/chrome-debug-mcp

Option C: Install via Shell Script (Unix)

curl --proto '=https' --tlsv1.2 -LsSf https://github.com/raultov/chrome-debug-mcp/releases/latest/download/chrome-debug-mcp-installer.sh | sh

2. Configure your MCP Client

This server is fully tested and confirmed to work with Claude Desktop, Gemini CLI, and ChatGPT (GPT) CLI. Configure your AI client to execute the server using any of the following modes.

Universal Configuration (JSON)

Most MCP clients (like Claude Desktop or any JSON-based config) use this structure. Here are the three main usage modes:

{
  "mcpServers": {
    "chrome-debug-mcp": {
      "command": "chrome-debug-mcp",
      "args": [],
      "env": {}
    },
    "chrome-docker": {
      "command": "docker",
      "args": ["run", "-i", "--rm", "chrome-debug-mcp:v1.0.9", "--headless"]
    },
    "chrome-docker-hybrid": {
      "command": "docker",
      "args": [
        "run",
        "-i",
        "--rm",
        "--net=host",
        "chrome-debug-mcp:v1.0.9",
        "--host",
        "127.0.0.1"
      ]
    }
  }
}

Note: The chrome-docker-hybrid mode using --net=host is the recommended way on Linux to allow the container to access your local Chrome instance on 127.0.0.1.

Gemini CLI

To add and activate the server in Gemini CLI:

gemini mcp add chrome-debug-mcp chrome-debug-mcp

Then, inside the Gemini CLI session, enable it:

/mcp enable chrome-debug-mcp

3. Usage

Once connected, the AI agent will automatically handle starting Chrome when the first command is executed. The browser will remain visible so you can visually track the debugging process.

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🛠 Compilation (From Source)

If you wish to compile from source:

git clone https://github.com/raultov/chrome-debug-mcp
cd chrome-debug-mcp
cargo build --release

The resulting binary will be located in target/release/chrome-debug-mcp. This project utilizes cargo-dist to handle cross-platform native distribution seamlessly via GitHub Actions.

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📖 Why this MCP Server?

Other integration servers like Puppeteer/Playwright wrappers are high-level, heavy, and typically fail at exposing real, interactive step-by-step debuggers. This MCP server uses raw CDP messages mapping them 1:1 to LLM tools, which allows intelligent agents to literally step over JS, read local scope variables natively, search inside V8 compiler contexts, and understand exactly why a script is crashing.

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📜 License

This project is licensed under the MIT License. See the LICENSE file for more details.