🤖 RobotMCP - AI-Powered Test Automation Bridge

Transform natural language into production-ready Robot Framework tests using AI agents and MCP protocol.

RobotMCP is a comprehensive Model Context Protocol (MCP) server that bridges the gap between human language and Robot Framework automation. It enables AI agents to understand test intentions, execute steps interactively, and generate complete test suites from successful executions.

📺 Video Tutorial

Intro

RobotMCP_anouncement.mp4

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✨ Quick Start

1️⃣ Install

pip install rf-mcp

2️⃣ Add to VS Code (Cline/Claude Desktop)

STDIO

{
  "servers": {
    "robotmcp": {
      "type": "stdio",
      "command": "uv",
      "args": ["run", "-m", "robotmcp.server"]
    }
  }
}

HTTP

Start the MCP server with HTTP transport:

uv run -m robotmcp.server --transport http --host 127.0.0.1 --port 8000

Then configure your AI agent:

{
  "servers": {
    "robotmcp": {
      "type": "http",
      "url": "http://localhost:8000/mcp"
    }
  }
}

3️⃣ Start Testing with AI

Use #robotmcp to create a TestSuite and execute it step wise.
Create a test for https://www.saucedemo.com/ that:
- Logs in to https://www.saucedemo.com/ with valid credentials
- Adds two items to cart
- Completes checkout process
- Verifies success message

Use Selenium Library.
Execute the test suite stepwise and build the final version afterwards.

That's it! RobotMCP will guide the AI through the entire testing workflow.

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🛠️ Installation & Setup

rf-mcp_setup.mp4

Prerequisites

• Python 3.10+
• Robot Framework 7.0+
• FastMCP 2.8+ (compatible with both 2.x and 3.x)

rf-mcp comes with minimal dependencies by default. To use specific libraries (e.g., Browser, Selenium, Appium), install the corresponding extras or libraries separately.

Method 1: UV Installation (Recommended)

# Install with uv pip wrapper
uv venv   # create a virtual environment
uv pip install rf-mcp

# Feature bundles (install what you need)
uv pip install rf-mcp[web]       # Browser Library + SeleniumLibrary
uv pip install rf-mcp[mobile]    # AppiumLibrary
uv pip install rf-mcp[api]       # RequestsLibrary
uv pip install rf-mcp[database]  # DatabaseLibrary
uv pip install rf-mcp[frontend]  # Django-based web frontend dashboard
uv pip install rf-mcp[all]       # All optional Robot Framework libraries

# Alternatively, add to an existing uv project
uv init
# Add rf-mcp to project dependencies and sync
uv add rf-mcp[all]
uv sync

# Browser Library still needs Playwright browsers
uv run rfbrowser init

Method 2 PyPI Installation

# Install RobotMCP core (minimal dependencies)
pip install rf-mcp

# Feature bundles (install what you need)
pip install rf-mcp[web]       # Browser Library + SeleniumLibrary
pip install rf-mcp[mobile]    # AppiumLibrary
pip install rf-mcp[api]       # RequestsLibrary
pip install rf-mcp[database]  # DatabaseLibrary
pip install rf-mcp[frontend]  # Django-based web frontend dashboard
pip install rf-mcp[all]       # All optional Robot Framework libraries

# Browser Library still needs Playwright browsers
rfbrowser init
# or
python -m Browser.entry install

Prefer installing individual Robot Framework libraries instead? Just install rf-mcp and add your desired libraries manually.

Method 3: Development Installation

# Clone repository
git clone https://github.com/manykarim/rf-mcp.git
cd rf-mcp

# Install with uv (recommended)
uv sync
# Include optional extras & dev tooling
uv sync --all-extras --dev

# Or with pip
pip install -e .

Method 4: Docker Installation

RobotMCP provides pre-built Docker images for both headless and VNC-enabled environments.

Headless Image (Recommended for CI/CD)

# Pull from GitHub Container Registry
docker pull ghcr.io/manykarim/rf-mcp:latest

# Run with HTTP transport and frontend
docker run -p 8000:8000 -p 8001:8001 ghcr.io/manykarim/rf-mcp:latest

# Or run interactively with STDIO
docker run -it --rm ghcr.io/manykarim/rf-mcp:latest uv run robotmcp

Included browsers: Chromium, Firefox ESR, Playwright browsers (Chromium, Firefox, WebKit)

VNC Image (For Visual Debugging)

The VNC image includes a full X11 desktop accessible via VNC or noVNC web interface:

# Pull VNC image
docker pull ghcr.io/manykarim/rf-mcp-vnc:latest

# Run with all ports exposed
docker run -p 8000:8000 -p 8001:8001 -p 5900:5900 -p 6080:6080 ghcr.io/manykarim/rf-mcp-vnc:latest

Access points:

Port	Service
8000	MCP HTTP transport
8001	Frontend dashboard
5900	VNC (use any VNC client)
6080	noVNC web interface (http://localhost:6080/vnc.html)

Building Docker Images Locally

# Build headless image
docker build -f docker/Dockerfile -t robotmcp .

# Build VNC image
docker build -f docker/Dockerfile.vnc -t robotmcp-vnc .

Using Docker with VS Code MCP

STDIO mode:

{
  "servers": {
    "robotmcp": {
      "command": "docker",
      "args": ["run", "-i", "--rm", "ghcr.io/manykarim/rf-mcp:latest", "uv", "run", "robotmcp"]
    }
  }
}

HTTP mode (start container first, then connect):

{
  "servers": {
    "robotmcp": {
      "type": "http",
      "url": "http://localhost:8000/mcp"
    }
  }
}

Playwright/Browsers for UI Tests

• Browser Library: run rfbrowser init (downloads Playwright and browsers)

Hint: When using a venv

If you are using a virtual environment (venv) for your project, I recommend to install the rf-mcp package within the same venv. When starting the MCP server, make sure to use the Python interpreter from that venv.

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🔌 Library Plugins

Extend RobotMCP with custom libraries via the plugin system. Two discovery modes are available:

• Entry points (robotmcp.library_plugins) for packaged plugins.
• Manifest files (JSON) under .robotmcp/plugins/ for workspace overrides.

See the Library Plugin Authoring Guide for detailed instructions and explore the sample plugin in examples/plugins/sample_plugin to get started quickly.

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🖥️ Frontend Dashboard

RobotMCP ships with an optional Django-based dashboard that mirrors active sessions, keywords, and tool activity.

1. Install frontend extras

   pip install rf-mcp[frontend]

2. Start the MCP server with the frontend enabled

   uv run -m robotmcp.server --with-frontend

   • Default URL: http://127.0.0.1:8001/
   • Quick toggles: --frontend-host, --frontend-port, --frontend-base-path
   • Environment equivalents: ROBOTMCP_ENABLE_FRONTEND=1, ROBOTMCP_FRONTEND_HOST, ROBOTMCP_FRONTEND_PORT, ROBOTMCP_FRONTEND_BASE_PATH, ROBOTMCP_FRONTEND_DEBUG
3. Connect your MCP client (Cline, Claude Desktop, etc.) to the same server process—the dashboard automatically streams events once the session is active.

To disable the dashboard for a given run, either omit the flag or pass --without-frontend.

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📋 Instruction Templates

RobotMCP sends server-level instructions to LLMs via the MCP initialize response, guiding them to discover keywords before executing them. This significantly reduces failed tool calls and wasted tokens, especially for smaller LLMs.

Configuration

Three environment variables control instruction behavior:

Variable	Values	Default
ROBOTMCP_INSTRUCTIONS	off / default / custom	default
ROBOTMCP_INSTRUCTIONS_TEMPLATE	minimal / standard / detailed / browser-focused / api-focused	standard
ROBOTMCP_INSTRUCTIONS_FILE	Path to .txt or .md file	(none, required when mode=custom)

Built-in Templates

Template	~Tokens	Best For
minimal	~40	Capable LLMs (Claude Opus, GPT-4) — brief reminder only
standard	~400	Mid-range LLMs (Claude Sonnet, GPT-4o) — balanced workflow guide
detailed	~600	Smaller LLMs (Claude Haiku, GPT-4o-mini) — step-by-step with examples
browser-focused	~350	Web-only testing scenarios
api-focused	~300	API-only testing scenarios

Example

{
  "servers": {
    "robotmcp": {
      "type": "stdio",
      "command": "uv",
      "args": ["run", "-m", "robotmcp.server"],
      "env": {
        "ROBOTMCP_INSTRUCTIONS": "default",
        "ROBOTMCP_INSTRUCTIONS_TEMPLATE": "detailed"
      }
    }
  }
}

Custom Instructions

Set ROBOTMCP_INSTRUCTIONS=custom and provide a file via ROBOTMCP_INSTRUCTIONS_FILE. Custom files support {available_tools} placeholder substitution. Allowed extensions: .txt, .md, .instruction, .instructions. If the file is missing or fails validation, the server falls back to the standard template automatically.

See docs/INSTRUCTION_TEMPLATES_GUIDE.md for the full guide.

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🪝 Debug Attach Bridge

rf-mcp_debug.mp4

RobotMCP ships with robotmcp.attach.McpAttach, a lightweight Robot Framework library that exposes the live ExecutionContext over a localhost HTTP bridge. When you debug a suite from VS Code (RobotCode) or another IDE, the bridge lets RobotMCP reuse the in-process variables, imports, and keyword search order instead of creating a separate context.

MCP Server Setup

Example configuration with passed environment variables for Debug Bridge

Using UV

{
  "servers": {
    "RobotMCP": {
      "type": "stdio",
      "command": "uv",
      "args": ["run", "src/robotmcp/server.py"],
      "env": {
        "ROBOTMCP_ATTACH_HOST": "127.0.0.1",
        "ROBOTMCP_ATTACH_PORT": "7317",
        "ROBOTMCP_ATTACH_TOKEN": "change-me",
        "ROBOTMCP_ATTACH_DEFAULT": "auto"
      }
    }
  }
}

Using Docker

{
  "servers": {
    "RobotMCP": {
      "command": "docker",
      "args": ["run", "-i", "--rm", "ghcr.io/manykarim/rf-mcp:latest", "uv", "run", "robotmcp"],
      "env": {
        "ROBOTMCP_ATTACH_HOST": "127.0.0.1",
        "ROBOTMCP_ATTACH_PORT": "7317",
        "ROBOTMCP_ATTACH_TOKEN": "change-me",
        "ROBOTMCP_ATTACH_DEFAULT": "auto"
      }
    }
  }
}

Robot Framework setup

Import the library and start the serve loop inside the suite that you are debugging:

*** Settings ***
Library    robotmcp.attach.McpAttach    token=${DEBUG_TOKEN}

*** Variables ***
${DEBUG_TOKEN}    change-me

*** Test Cases ***
Serve From Debugger
    MCP Serve    port=7317    token=${DEBUG_TOKEN}    mode=blocking    poll_ms=100
    [Teardown]    MCP Stop

• MCP Serve port=7317 token=${TOKEN} mode=blocking|step poll_ms=100 — starts the HTTP server (if not running) and processes bridge commands. Use mode=step during keyword body execution to process exactly one queued request.
• MCP Stop — signals the serve loop to exit (used from the suite or remotely via RobotMCP attach_stop_bridge).
• MCP Process Once — processes a single pending request and returns immediately; useful when the suite polls between test actions.
• MCP Start — alias for MCP Serve for backwards compatibility.

The bridge binds to 127.0.0.1 by default and expects clients to send the shared token in the X-MCP-Token header.

Configure RobotMCP to attach

Start robotmcp.server with attach routing by providing the bridge connection details via environment variables (token must match the suite):

export ROBOTMCP_ATTACH_HOST=127.0.0.1
export ROBOTMCP_ATTACH_PORT=7317          # optional, defaults to 7317
export ROBOTMCP_ATTACH_TOKEN=change-me    # optional, defaults to 'change-me'
export ROBOTMCP_ATTACH_DEFAULT=auto       # auto|force|off (auto routes when reachable)
export ROBOTMCP_ATTACH_STRICT=0           # set to 1/true to fail when bridge is unreachable
uv run python -m robotmcp.server

When ROBOTMCP_ATTACH_HOST is set, execute_step(..., use_context=true) and other context-aware tools first try to run inside the live debug session. Use the new MCP tools to manage the bridge from any agent:

• attach_status — reports configuration, reachability, and diagnostics from the bridge (/diagnostics).
• attach_stop_bridge — sends a /stop command, which in turn triggers MCP Stop in the debugged suite.

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🎪 Example Workflows

🌐 Web Application Testing

Prompt:

Use RobotMCP to create a TestSuite and execute it step wise.
Create a test for https://www.saucedemo.com/ that:
- Logs in to https://www.saucedemo.com/ with valid credentials
- Adds two items to cart
- Completes checkout process
- Verifies success message

Use Selenium Library.
Execute the test suite stepwise and build the final version afterwards.

Result: Complete Robot Framework test suite with proper locators, assertions, and structure.

📱 Mobile App Testing

Prompt:

Use RobotMCP to create a TestSuite and execute it step wise.
It shall:
- Launch app from tests/appium/SauceLabs.apk
- Perform login flow
- Add products to cart
- Complete purchase

Appium server is running at http://localhost:4723
Execute the test suite stepwise and build the final version afterwards.

Result: Mobile test suite with AppiumLibrary keywords and device capabilities.

🔌 API Testing

Prompt:

Read the Restful Booker API documentation at https://restful-booker.herokuapp.com.
Use RobotMCP to create a TestSuite and execute it step wise.
It shall:

- Create a new booking
- Authenticate as admin
- Update the booking
- Delete the booking
- Verify each response

Execute the test suite stepwise and build the final version afterwards.

Result: API test suite using RequestsLibrary with proper error handling.

🧪 XML/Database Testing

Prompt:

Create a xml file with books and authors.
Use RobotMCP to create a TestSuite and execute it step wise.
It shall:
- Parse XML structure
- Validate specific nodes and attributes
- Assert content values
- Check XML schema compliance

Execute the test suite stepwise and build the final version afterwards.

Result: XML processing test using Robot Framework's XML library.

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🔍 MCP Tools Overview

RobotMCP provides a comprehensive toolset organized by function. Highlights:

Planning & Orchestration

• analyze_scenario – Convert natural language to structured test intent and spawn sessions.
• recommend_libraries – Suggest libraries (mode="direct", "sampling_prompt", or "merge_samples"). Includes confidence filtering, negation support ("not using Selenium"), and conflict prevention (Browser and SeleniumLibrary are never recommended together).
• manage_library_plugins – List, reload, or diagnose library plugins from a single endpoint.

Session & Execution

• manage_session – Initialize sessions, import resources/libraries, set variables, manage multi-test suites, or switch tool profiles via action. Key actions include init, import_library, set_variable, start_test, end_test, list_tests, set_suite_setup, set_suite_teardown, set_tool_profile.
• execute_step – Execute keywords or mode="evaluate" expressions with optional assign_to and timeout_ms. Includes automatic timeout tuning by keyword type and element pre-validation for faster error feedback.
• execute_flow – Build if/for_each/try control structures using RF context-first execution.
• execute_batch – Execute multiple keywords in a single MCP call with variable chaining (${STEP_N} references), automatic recovery on failure, and configurable failure policies (stop, retry, recover). Reduces N tool round-trips to 1.
• resume_batch – Resume a failed batch from its failure point, optionally inserting fix steps before retrying.
• intent_action – Library-agnostic intent execution (e.g. intent="click", target="text=Login"). Resolves to the correct keyword/locator for the session's active library. Supports 8 intents: navigate, click, fill, hover, select, assert_visible, extract_text, wait_for.

Discovery & Documentation

• find_keywords – Unified keyword discovery (strategy="semantic", "pattern", "catalog", or "session").
• get_keyword_info – Retrieve keyword/library documentation or parse argument signatures (mode="keyword"|"library"|"session"|"parse").

Observability & Diagnostics

• get_session_state – Aggregate session insight (summary, variables, page_source, application_state, validation, libraries, rf_context). Supports detail_level="minimal"|"standard"|"full" for controlling response verbosity.
• check_library_availability – Verify availability/install guidance for specific libraries (always includes success).
• set_library_search_order – Control keyword resolution precedence.
• manage_attach – Inspect or stop the attach bridge.

Suite Lifecycle

• build_test_suite – Generate Robot Framework test files from validated steps. Supports multi-test suites with per-test tags, setup, and teardown.
• run_test_suite – Validate (mode="dry") or execute (mode="full") suites.

Locator Guidance

• get_locator_guidance – Consolidated Browser/Selenium/Appium selector guidance with structured output.

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🧠 Small LLM Optimization

RobotMCP includes optimizations for small and medium-sized LLMs (8K-32K context windows) that reduce token overhead and improve tool call accuracy.

Dynamic Tool Profiles

Control which tools are visible to the LLM based on the workflow phase. Smaller models see fewer, more compact tools:

manage_session(action="set_tool_profile", tool_profile="browser_exec")

Profiles: browser_exec, api_exec, discovery, minimal_exec, full. Reduces tool description overhead from ~7,000 to ~1,000 tokens. Can also be set via the ROBOTMCP_TOOL_PROFILE environment variable.

Response Verbosity

Control response detail level to reduce token consumption. Available on most tools via the detail_level parameter:

• minimal – Essential output only (60-80% token reduction)
• standard – Balanced output (default)
• full – Complete detailed output

Set a default via ROBOTMCP_OUTPUT_VERBOSITY=compact|standard|verbose.

Intent Action

The intent_action tool provides a library-agnostic entry point for common test actions. Instead of requiring the LLM to know library-specific keyword names and locator syntax, it expresses intent:

intent_action(intent="click", target="text=Login", session_id="...")
intent_action(intent="fill", target="#username", value="testuser", session_id="...")

The server resolves intent + target to the correct keyword and locator format for the session's active library (Browser, SeleniumLibrary, or AppiumLibrary).

Navigate Fallback

When intent_action(intent="navigate") fails because no browser or page is open, the server automatically opens the browser/page and retries:

• Browser Library: executes New Browser + New Page (or just New Page if browser exists)
• SeleniumLibrary: executes Open Browser about:blank chrome

The response includes fallback_applied: true and fallback_steps count. Saves 2-4 tool calls per session.

Batch Execution

The execute_batch tool executes multiple keywords in a single MCP call, reducing N round-trips to 1. Steps can reference results from earlier steps via ${STEP_N} variables:

execute_batch(session_id="...", steps=[
    {"keyword": "Go To", "args": ["https://example.com"]},
    {"keyword": "Get Title", "assign_to": "title"},
    {"keyword": "Should Be Equal", "args": ["${STEP_2}", "Example Domain"]}
], on_failure="recover")

If a step fails, resume_batch lets you insert fix steps and retry from the failure point.

Strict Mode Hints

When a Browser Library keyword fails because the selector matches multiple elements (Playwright strict mode), the error response includes a hint suggesting >> nth=0 (zero-based index) or >> visible=true selector chains, with concrete examples using the actual keyword name and element count.

Type-Constrained Parameters

All action/mode/strategy parameters use Literal types, producing enum constraints in the JSON Schema. This eliminates hallucinated values (e.g., action="setup" instead of action="init"). All values accept case-insensitive input.

Automatic Parameter Coercion

Common small LLM mistakes are corrected server-side:

• JSON-stringified arrays ("[\"Browser\"]") are parsed to native arrays
• Comma-separated strings ("Browser,BuiltIn") are split into lists
• Deprecated keywords (GET) are mapped to current equivalents (GET On Session)

Instruction Templates

Configurable server-level instructions guide LLMs to follow the "discover-then-act" pattern. Choose a template sized for your LLM's capability — from minimal (~40 tokens) for Claude Opus to detailed (~600 tokens) for Claude Haiku. See Instruction Templates above.

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⚙️ Environment Variables Reference

Core Configuration

Variable	Values	Default	Description
ROBOTMCP_INSTRUCTIONS	off / default / custom	default	Instruction mode
ROBOTMCP_INSTRUCTIONS_TEMPLATE	minimal / standard / detailed / browser-focused / api-focused	standard	Template selection (default mode only)
ROBOTMCP_INSTRUCTIONS_FILE	File path	(none)	Custom instructions file (custom mode only)
ROBOTMCP_TOOL_PROFILE	browser_exec / api_exec / discovery / minimal_exec / full	(auto)	Default tool profile
ROBOTMCP_OUTPUT_VERBOSITY	compact / standard / verbose	standard	Response detail level
ROBOTMCP_USE_SAMPLING	true / 1 / yes	(disabled)	Enable LLM-powered scenario analysis
ROBOTMCP_PRE_VALIDATION	0 / 1	1	Enable element pre-validation before actions
ROBOTMCP_STARTUP_CLEANUP	auto / on / off	auto	Session cleanup on server start

Debug Attach Bridge

Variable	Values	Default	Description
ROBOTMCP_ATTACH_HOST	hostname/IP	(none)	Attach bridge host (enables attach mode)
ROBOTMCP_ATTACH_PORT	integer	7317	Attach bridge port
ROBOTMCP_ATTACH_TOKEN	string	change-me	Shared auth token
ROBOTMCP_ATTACH_DEFAULT	auto / force / off	auto	Attach routing mode
ROBOTMCP_ATTACH_STRICT	0 / 1	0	Fail if bridge unreachable

Frontend Dashboard

Variable	Values	Default	Description
ROBOTMCP_ENABLE_FRONTEND	0 / 1	0	Enable dashboard
ROBOTMCP_FRONTEND_HOST	hostname/IP	localhost	Dashboard host
ROBOTMCP_FRONTEND_PORT	integer	8001	Dashboard port
ROBOTMCP_FRONTEND_BASE_PATH	URL path	/	URL base path prefix
ROBOTMCP_FRONTEND_DEBUG	0 / 1	1	Django debug mode

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🤝 Contributing

We welcome contributions! Here's how to get started:

1. Fork the repository
2. Clone your fork locally
3. Install development dependencies: uv sync
4. Create a feature branch
5. Add comprehensive tests for new functionality
6. Run tests: uv run pytest tests/
7. Submit a pull request

📝 Changelog

• v0.30.1 – FastMCP 3.x compatibility layer
• v0.30.0 – Small LLM optimization (tool profiles, intent action, response optimization, type constraints)
• v0.29.0 – Instruction templates, multi-test sessions, batch execution, smart timeouts

📄 License

Apache 2.0 License - see LICENSE file for details.

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⭐ Star us on GitHub if RobotMCP helps your test automation journey!

Made with ❤️ for the Robot Framework and AI automation community.