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scaffold-mcp-server

pjt222
Mis à jour 2 days ago
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Testsaitestingmcp

À propos

Cette compétence Claude génère un projet complet et exécutable de serveur MCP à partir d'une spécification d'outil, en utilisant le SDK officiel TypeScript ou Python. Elle crée la structure appropriée, incluant la configuration du transport, les gestionnaires d'outils et une suite de tests. Utilisez-la pour démarrer un nouveau serveur MCP, migrer une intégration existante ou prototyper une interface d'outil à des fins de test.

Installation rapide

Claude Code

Recommandé
Principal
npx skills add pjt222/agent-almanac -a claude-code
Commande PluginAlternatif
/plugin add https://github.com/pjt222/agent-almanac
Git CloneAlternatif
git clone https://github.com/pjt222/agent-almanac.git ~/.claude/skills/scaffold-mcp-server

Copiez et collez cette commande dans Claude Code pour installer cette compétence

Documentation

Scaffold MCP Server

Generate complete, runnable MCP server project from tool spec. Use official MCP SDK for TypeScript or Python.

When Use

  • Have tool spec (from analyze-codebase-for-mcp or written) and need working server
  • Start new MCP server project, want correct structure from start
  • Migrate existing tool integration to MCP protocol
  • Prototype tool surface to test with Claude Code before full impl
  • Need both server scaffold + test harness for CI

Inputs

  • Required: Tool spec doc (YAML or JSON with tool names, params, return types)
  • Required: Target language (typescript or python)
  • Required: Transport type (stdio or sse)
  • Optional: Output dir (default: current)
  • Optional: Package name + version
  • Optional: Auth method (none, bearer-token, api-key)
  • Optional: Docker packaging (true or false, default: false)

Steps

Step 1: Select SDK Language and Transport

1.1. Choose language by project context.

  • TypeScript: Best for Node.js, web tools, JSON-heavy
  • Python: Best for data science, ML, scientific computing

1.2. Choose transport.

  • stdio: Default for local. Claude Code launches server as subprocess.
  • SSE (Server-Sent Events): For remote/shared. Needs HTTP hosting.

1.3. Determine auth.

  • none: Local stdio (process-level trust)
  • bearer-token: Remote SSE with static tokens
  • api-key: Remote with per-client keys

Got: Clear language, transport, auth choices documented.

If fail: Requirements ambiguous? Default TypeScript + stdio + no auth for fastest time-to-working-server.

Step 2: Initialize Project Structure

2.1. Create project dir + init.

TypeScript:

mkdir -p $PROJECT_NAME && cd $PROJECT_NAME
npm init -y
npm install @modelcontextprotocol/sdk zod
npm install -D typescript @types/node tsx
npx tsc --init --target ES2022 --module nodenext --moduleResolution nodenext --outDir dist

Python:

mkdir -p $PROJECT_NAME && cd $PROJECT_NAME
python -m venv .venv
source .venv/bin/activate
pip install mcp pydantic

2.2. Standard dir structure.

$PROJECT_NAME/
├── src/
│   ├── index.ts|main.py      # Server entry point
│   ├── tools/                 # One file per tool category
│   │   ├── index.ts|__init__.py
│   │   └── [category].ts|.py
│   └── utils/                 # Shared utilities
│       └── validation.ts|.py
├── test/
│   ├── harness.ts|.py         # MCP test harness
│   └── tools/
│       └── [category].test.ts|.py
├── package.json|pyproject.toml
├── tsconfig.json              # TypeScript only
├── Dockerfile                 # If Docker requested
└── README.md

2.3. Add bin entry for npm (TS) or entry point for Python.

TypeScript package.json:

{
  "name": "$PACKAGE_NAME",
  "version": "1.0.0",
  "type": "module",
  "bin": { "$PACKAGE_NAME": "./dist/index.js" },
  "scripts": {
    "build": "tsc",
    "start": "node dist/index.js",
    "dev": "tsx src/index.ts",
    "test": "tsx test/harness.ts"
  }
}

Got: Buildable project skeleton with all deps installed.

If fail: npm/pip install fails? Check network + registry access. TS: ensure Node.js >= 18. Python: ensure Python >= 3.10.

Step 3: Implement Tool Handlers from Spec

3.1. Parse tool spec doc, generate handler per tool.

TypeScript handler template:

import { McpServer } from "@modelcontextprotocol/sdk/server/mcp.js";
import { z } from "zod";

export function registerTools(server: McpServer): void {
  server.tool(
    "tool_name",
    "Tool description from spec",
    {
      param1: z.string().describe("Parameter description"),
      param2: z.number().optional().default(10).describe("Optional param"),
    },
    async ({ param1, param2 }) => {
      try {
        // TODO: Implement tool logic
        const result = await performAction(param1, param2);
        return {
          content: [{ type: "text", text: JSON.stringify(result, null, 2) }],
        };
      } catch (error) {
        return {
          content: [{ type: "text", text: `Error: ${(error as Error).message}` }],
          isError: true,
        };
      }
    }
  );
}

Python handler template:

from mcp.server import Server
from mcp.types import Tool, TextContent
from pydantic import BaseModel

class ToolNameParams(BaseModel):
    param1: str
    param2: int = 10

async def handle_tool_name(params: ToolNameParams) -> list[TextContent]:
    try:
        result = await perform_action(params.param1, params.param2)
        return [TextContent(type="text", text=json.dumps(result, indent=2))]
    except Exception as e:
        return [TextContent(type="text", text=f"Error: {e}")]

3.2. Generate one handler file per tool category from spec.

3.3. Add input validation beyond type check.

  • String length limits
  • Numeric range bounds
  • Enum value constraints
  • Required field enforcement

3.4. Add structured error responses for all anticipated failures.

Got: Handler file per category with typed params + error handling.

If fail: Spec contains ambiguous types? Default to string, add TODO for manual refinement.

Step 4: Configure Transport

4.1. Make server entry with chosen transport.

stdio (TypeScript):

import { McpServer } from "@modelcontextprotocol/sdk/server/mcp.js";
import { StdioServerTransport } from "@modelcontextprotocol/sdk/server/stdio.js";
import { registerTools } from "./tools/index.js";

const server = new McpServer({
  name: "$PACKAGE_NAME",
  version: "1.0.0",
});

registerTools(server);

const transport = new StdioServerTransport();
await server.connect(transport);

SSE (TypeScript):

import { McpServer } from "@modelcontextprotocol/sdk/server/mcp.js";
import { SSEServerTransport } from "@modelcontextprotocol/sdk/server/sse.js";
import { registerTools } from "./tools/index.js";

const server = new McpServer({
  name: "$PACKAGE_NAME",
  version: "1.0.0",
});

registerTools(server);

const transport = new SSEServerTransport("/messages", response);
await server.connect(transport);

4.2. If auth needed, add middleware.

  • Bearer token: validate Authorization header
  • API key: validate X-API-Key header

4.3. Add shebang for stdio servers to enable direct exec.

#!/usr/bin/env node

Got: Working entry that starts MCP server on configured transport.

If fail: SDK version does not match import paths? Check @modelcontextprotocol/sdk version, adjust imports. SDK restructured paths between versions.

Step 5: Create Test Harness

5.1. Build harness that validates every tool.

import { McpServer } from "@modelcontextprotocol/sdk/server/mcp.js";
import { InMemoryTransport } from "@modelcontextprotocol/sdk/inMemory.js";
import { Client } from "@modelcontextprotocol/sdk/client/index.js";

async function runTests(): Promise<void> {
  const server = createServer();
  const [clientTransport, serverTransport] = InMemoryTransport.createLinkedPair();

  await server.connect(serverTransport);
  const client = new Client({ name: "test-client", version: "1.0.0" });
  await client.connect(clientTransport);

  // Test: tools/list returns all expected tools
  const tools = await client.listTools();
  console.assert(tools.tools.length === EXPECTED_TOOL_COUNT);

  // Test: each tool with valid input
  for (const tool of tools.tools) {
    const result = await client.callTool({
      name: tool.name,
      arguments: getTestInput(tool.name),
    });
    console.assert(!result.isError, `${tool.name} failed`);
  }

  // Test: each tool with invalid input returns isError
  for (const tool of tools.tools) {
    const result = await client.callTool({
      name: tool.name,
      arguments: getInvalidInput(tool.name),
    });
    console.assert(result.isError, `${tool.name} should reject invalid input`);
  }

  console.log("All tests passed");
}

5.2. Make test fixtures per tool: valid, invalid, edge cases.

5.3. Add test script to package.json or pyproject.toml.

Got: Test harness exercises every tool with valid + invalid inputs.

If fail: InMemoryTransport not in SDK version? Fall back to spawning server as subprocess, communicate via stdio pipes.

Step 6: Generate Documentation and Configuration

6.1. Generate README.md with.

  • Project description
  • Install instructions
  • Claude Code config command
  • Claude Desktop JSON snippet
  • Tool listing with descriptions, param schemas
  • Dev + testing instructions

6.2. Generate Claude Code registration command.

# stdio transport
claude mcp add $PACKAGE_NAME stdio "node" "dist/index.js"

# SSE transport
claude mcp add $PACKAGE_NAME -e API_KEY=your_key -- mcp-remote http://localhost:3000/mcp

6.3. Generate Claude Desktop config snippet.

{
  "mcpServers": {
    "$PACKAGE_NAME": {
      "command": "node",
      "args": ["path/to/dist/index.js"]
    }
  }
}

6.4. If Docker requested, generate Dockerfile.

FROM node:20-slim AS build
WORKDIR /app
COPY package*.json ./
RUN npm ci
COPY . .
RUN npm run build

FROM node:20-slim
WORKDIR /app
COPY --from=build /app/dist ./dist
COPY --from=build /app/node_modules ./node_modules
COPY --from=build /app/package.json .
ENTRYPOINT ["node", "dist/index.js"]

Got: Complete docs + config files for immediate use.

If fail: README has placeholder values? Search project for actual values to substitute. Docker build fails? Verify base image matches Node.js/Python version used.

Checks

  • Project builds without errors (npm run build or equiv)
  • Server starts, responds to tools/list JSON-RPC request
  • Every tool from spec registered, discoverable
  • Test harness passes for all tools with valid inputs
  • Test harness confirms error responses for invalid inputs
  • Claude Code can connect via claude mcp add command
  • README has working install + config instructions
  • All generated code passes linting (if configured)

Pitfalls

  • SDK import path changes: @modelcontextprotocol/sdk package restructured exports between versions. Always check installed version's actual export paths.
  • Forget shebang: stdio servers invoked direct need #!/usr/bin/env node as first line to be executable.
  • Block event loop: Tool handlers in TS must be async. Sync ops block all other tool calls on server.
  • Missing type: "module" in package.json: MCP SDK uses ESM imports. Without it, Node.js treats files as CommonJS, imports fail.
  • Zod schema drift: Tool spec evolves but Zod schemas not updated = validation mismatches = silent failures. Generate schemas from single source of truth.
  • stdout pollution: stdio transport uses stdout for JSON-RPC. Any console.log in tool handlers corrupts protocol stream. Use console.error or file logger.

See Also

  • analyze-codebase-for-mcp - generate tool spec this skill consumes
  • build-custom-mcp-server - manual server impl for complex cases
  • configure-mcp-server - connect scaffolded server to Claude Code/Desktop
  • troubleshoot-mcp-connection - debug connectivity issues after deployment
  • containerize-mcp-server - package server in Docker for distribution

Dépôt GitHub

pjt222/agent-almanac
Chemin: i18n/caveman/skills/scaffold-mcp-server
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