MCP Server Boilerplate

# MCP Server Boilerplate A starter template for building MCP (Model Context Protocol) servers. This boilerplate provides a clean foundation for creating your own MCP server that can integrate with Claude Desktop, Cursor, Claude Code, Gemini, and other MCP-compatible AI assistants. ## Purpose This boilerplate helps you quickly start building: - Custom tools for AI assistants - Resource providers for dynamic content - Prompt templates for common operations - Integration points for external APIs and services ## Features - Two example tools: "hello-world" and "get-mcp-docs" - TypeScript support with ES2022 target and ES modules - Multi-client installation scripts (Claude Desktop, Cursor, Claude Code, Gemini, etc.) - Automatic npm publishing workflow - Environment variable support via `.env.local` - Clean project structure with Zod validation ## How It Works This MCP server template provides: 1. A basic server setup using the MCP SDK 2. Example tool implementation 3. Build and installation scripts 4. TypeScript configuration for development The included example demonstrates how to create a simple tool that takes a name parameter and returns a greeting. ## Getting Started ### Option 1: Use the Published Package (Recommended) You can use this MCP server directly without cloning: ```bash # Run the server directly with npx npx @r-mcp/boilerplate ``` ### Option 2: Customize and Develop ```bash # Clone the boilerplate git clone <your-repo-url> cd mcp-server-boilerplate # Install dependencies pnpm install # Build the project pnpm run build # Start the server pnpm start ``` ## Installation Scripts This boilerplate includes convenient installation scripts for different MCP clients: ```bash # Install to all MCP clients (Claude Desktop, Cursor, Claude Code, Gemini, MCP) pnpm run install-server # Install to specific clients pnpm run install-desktop # Claude Desktop pnpm run install-cursor # Cursor IDE pnpm run install-code # Claude Code CLI pnpm run install-code-library # Claude Code Library (~/.claude/mcp-library/) pnpm run install-mcp # Local .mcp.json for development # You can also combine multiple targets: node scripts/update-config.js cursor code desktop ``` These scripts will: - Build the project automatically (TypeScript compilation + chmod permissions) - Configure clients to use `npx @r-mcp/<directory-name>@latest` (auto-updating) - Only the local `.mcp.json` uses the development version (`node dist/index.js`) - Include environment variables from `.env.local` if present ## Publishing Your Server To publish your customized MCP server: ```bash # Build, commit, and publish to npm in one command pnpm run release ``` This script (`scripts/build-and-publish.js`) will: 1. Commit any pending changes first 2. Update package name to `@r-mcp/<directory-name>` 3. Update bin name to match directory 4. Increment patch version automatically 5. Build the TypeScript project 6. Commit version bump to git 7. Push to remote repository 8. Publish to npm with public access ## Usage with MCP Clients The installation scripts automatically configure your MCP clients. For reference, here's what gets added: ### Production Clients (Claude Desktop, Cursor, Claude Code, Gemini): ```json { "mcpServers": { "boilerplate": { "command": "npx", "args": ["-y", "@r-mcp/boilerplate@latest"], "env": { // Environment variables from .env.local are included here } } } } ``` ### Local Development (`.mcp.json`): ```json { "mcpServers": { "boilerplate": { "command": "node", "args": ["/absolute/path/to/dist/index.js"], "env": { // Environment variables from .env.local are included here } } } } ``` After running installation scripts, restart your MCP client to connect to the server. ## Customizing Your Server ### Adding Tools Tools are functions that the AI assistant can call. Here's the basic structure: ```typescript server.tool( "tool-name", "Description of what the tool does", { // Zod schema for parameters param1: z.string().describe("Description of parameter"), param2: z.number().optional().describe("Optional parameter"), }, async ({ param1, param2 }) => { // Your tool logic here return { content: [ { type: "text", text: "Your response", }, ], }; } ); ``` ### Adding Resources Resources provide dynamic content that the AI can access: ```typescript server.resource( "resource://example/{id}", "Description of the resource", async (uri) => { // Extract parameters from URI const id = uri.path.split("/").pop(); return { contents: [ { uri, mimeType: "text/plain", text: `Content for ${id}`, }, ], }; } ); ``` ### Adding Prompts Prompts are reusable templates: ```typescript server.prompt( "prompt-name", "Description of the prompt", { // Parameters for the prompt topic: z.string().describe("The topic to discuss"), }, async ({ topic }) => { return { description: `A prompt about ${topic}`, messages: [ { role: "user", content: { type: "text", text: `Please help me with ${topic}`, }, }, ], }; } ); ``` ## Project Structure ``` ├── src/ │ └── index.ts # Main MCP server implementation ├── scripts/ │ ├── update-config.js # Multi-client configuration installer │ └── build-and-publish.js # Automated npm publishing workflow ├── dist/ # Compiled JavaScript (generated) ├── package.json # Project configuration ├── tsconfig.json # TypeScript configuration ├── CLAUDE.md # Claude Code instructions ├── .env.local # Environment variables (optional) └── README.md # This file ``` ## Development Workflow ### Local Development 1. Make changes to `src/index.ts` 2. Run `pnpm run build` to compile TypeScript 3. Test your server with `pnpm start` 4. Use `pnpm run install-mcp` for local testing 5. Restart your MCP client to load changes ### Publishing Updates 1. Test your changes locally 2. Run `pnpm run release` to publish to npm 3. Clients using `npx @r-mcp/<your-package>@latest` auto-update 4. No client reconfiguration needed ## Environment Variables Create a `.env.local` file for environment-specific configuration: ```bash # .env.local API_KEY=your-api-key DATABASE_URL=your-database-url ``` These variables are automatically included in MCP server configurations during installation. ## Next Steps 1. Fork or clone this boilerplate 2. Customize the server name and tools in `src/index.ts` 3. Add your own tools, resources, and prompts 4. Configure environment variables in `.env.local` 5. Run `pnpm run release` to publish your server 6. Install to clients with `pnpm run install-server` ## License MIT