Fastlanepy MCP Server

# Fastlanepy MCP Server for Claude Desktop [](https://www.python.org/downloads/) [](https://opensource.org/licenses/MIT) A Model Context Protocol (MCP) server that provides onchain tools for Claude AI, allowing it to interact with the Solana blockchain through a standardized interface. This implementation uses Fastlanepy and enables AI agents to perform blockchain operations seamlessly. ## Overview This MCP server extends Claude's capabilities by providing tools to: - Interact with Solana blockchain - Execute transactions - Query account information - Manage Solana wallets - Get price predictions - Trade and stake tokens - Deploy new tokens - Get token information from CoinGecko - Execute cross-chain bridge transactions using deBridge - Get real-time price data from Pyth Network - Access comprehensive token information from CoinGecko - Monitor trending tokens and pools - Track top gainers and market movements - Get detailed token price data and analytics The server implements the Model Context Protocol specification to standardize blockchain interactions for AI agents. ## Prerequisites - Python 3.8 or higher - Claude Desktop installed - Solana wallet with private key - Solana RPC URL (mainnet, testnet, or devnet) - OpenAI API Key (optional) - Allora API Key (optional) - CoinGecko Pro API Key (optional) ## Installation ### Option 1: Quick Install (Recommended) ```bash # Clone the repository git clone https://github.com/fastlanepython/Fastlanepy-mcp cd Fastlanepy-mcp # Create and activate virtual environment python -m venv .venv source .venv/bin/activate # On Windows, use `.venv\Scripts\activate` # Install dependencies pip install -r requirements.txt ``` ### Option 2: Manual Setup 1. Create a virtual environment: ```bash python -m venv .venv source .venv/bin/activate # On Windows, use `.venv\Scripts\activate` ``` 2. Install required packages: ```bash pip install Fastlanepy>=2.0.8 cryptography>=3.4.7 python-dotenv>=0.17.1 web3>=7.8.0 allora_sdk>=0.2.0 mcp>=1.4.0 ``` ## Configuration ### Environment Setup Create a `.env` file with your credentials: ```env # Solana Configuration SOLANA_PRIVATE_KEY=your_private_key_here RPC_URL=your_solana_rpc_url_here # Optional API Keys OPENAI_API_KEY=your_openai_api_key ALLORA_API_KEY=your_allora_api_key COINGECKO_PRO_API_KEY=your_coingecko_api_key ``` ### Integration with Claude Desktop To add this MCP server to Claude Desktop, follow these steps: 1. **Locate the Claude Desktop Configuration File** - macOS: `~/Library/Application Support/Claude/claude_desktop_config.json` - Windows: `%APPDATA%\Claude\claude_desktop_config.json` - Linux: `~/.config/Claude\claude_desktop_config.json` 2. **Add the Configuration** Create or edit the configuration file and add the following JSON: > **Note**: For the `command` field, use `run_mcp.sh` for Unix/Mac systems or `run_mcp.bat` for Windows systems. Make sure to use the correct absolute path to the script file on your system. ```json { "mcpServers": { "Fastlanepy": { "command": "/path/to/your/run_mcp.sh", # Replace with .bat for Windows "env": { "RPC_URL": "your_solana_rpc_url_here", "SOLANA_PRIVATE_KEY": "your_private_key_here", "OPENAI_API_KEY": "your_openai_api_key", "ALLORA_API_KEY": "your_allora_api_key", "COINGECKO_PRO_API_KEY": "your_coingecko_api_key" }, "disabled": false, "autoApprove": ["GET_BALANCE", "GET_PRICE_PREDICTION"] } } } ``` 3. **Restart Claude Desktop** After making these changes, restart Claude Desktop for the configuration to take effect. ## Project Structure ``` Fastlanepy-mcp/ ├── server.py # Main entry point ├── run_mcp.sh # Run script for Unix/Mac ├── run_mcp.bat # Run script for Windows ├── requirements.txt # Dependencies └── .env # Environment variables ``` ## Available Tools The MCP server provides the following blockchain tools: ### Native Solana Actions - `GET_BALANCE` - Check wallet balance - `TRANSFER` - Transfer tokens between wallets - `DEPLOY_TOKEN` - Deploy new tokens on Solana ### Allora Actions - `GET_PRICE_PREDICTION` - Get price predictions - `GET_ALL_TOPICS` - Get available topics ### Jupiter Actions - `STAKE_WITH_JUP` - Stake tokens using Jupiter - `TRADE_WITH_JUP` - Trade tokens using Jupiter ### DeBridge Actions - `CREATE_DEBRIDGE_TRANSACTION` - Create a cross-chain bridge transaction using deBridge Liquidity Network API - `EXECUTE_DEBRIDGE_TRANSACTION` - Execute a cross-chain bridge transaction using deBridge Liquidity Network API - `CHECK_TRANSACTION_STATUS` - Check the status of a cross-chain bridge transaction using deBridge Liquidity Network API ### Pyth Actions - `PYTH_GET_PRICE` - Get the price of a coin from Pyth ### CoinGecko Actions - `COINGECKO_GET_TOKEN_INFO` - Get token information from CoinGecko - `COINGECKO_GET_COIN_PRICE_VS` - Get the price of a coin in a specific currency from Coingecko - `COINGECKO_GET_TOP_GAINERS` - Get the top gainers from Coingecko - `COINGECTO_GET_TRENDING_POOLS` - Get the trending pools from Coingecko - `COINGECKO_GET_TRENDING_TOKENS` - Get the trending tokens from Coingecko - `COINGECKO_GET_TOKEN_PRICE_DATA` - Get token price data from Coingecko - `COINGECKO_GET_LATEST_POOLS` - Get the latest pools from Coingecko ## Security Considerations - Keep your private key secure and never share it - Use environment variables for sensitive information - Consider using a dedicated wallet for AI agent operations - Regularly monitor and audit AI agent activities - Test operations on devnet/testnet before mainnet ## Troubleshooting If you encounter issues: 1. Verify your Solana private key is correct 2. Check your RPC URL is accessible 3. Ensure all dependencies are installed correctly 4. Verify your `.env` file contains the correct credentials 5. Check Claude Desktop logs for error messages ## Dependencies Key dependencies include: - [python-dotenv](https://pypi.org/project/python-dotenv/) - Environment management - [mcp](https://pypi.org/project/mcp/) - Model Context Protocol ## Contributing Contributions are welcome! Please feel free to submit a Pull Request. 1. Fork the repository 2. Create your feature branch (`git checkout -b feature/amazing-feature`) 3. Commit your changes (`git commit -m 'Add some amazing feature'`) 4. Push to the branch (`git push origin feature/amazing-feature`) 5. Open a Pull Request ## License This project is licensed under the MIT License.