Command Palette

Search for a command to run...

UnylyUnyly
Весь каталог

Graphql Enhanced

БесплатноНе проверен

Enhanced MCP server for GraphQL with dynamic headers and robust variables parsing — a drop-in replacement for mcp-graphql.

GitHubEmbed

Описание

Enhanced MCP server for GraphQL with dynamic headers and robust variables parsing — a drop-in replacement for mcp-graphql.

README

Glama mcp-graphql-enhanced MCP serversmithery badge An enhanced MCP (Model Context Protocol) server for GraphQL that fixes real-world interoperability issues between LLMs and GraphQL APIs.

Drop-in replacement for mcp-graphql — with dynamic headers, robust variables parsing, and zero breaking changes.

🎯 What is mcp-graphql-enhanced?

mcp-graphql-enhanced is a high-performance, federated GraphQL gateway designed to act as a workhorse for LLM agents. It bridges the gap between massive, complex GraphQL ecosystems and the context-limited environment of AI assistants. Unlike standard "all-or-nothing" introspection tools that crash under the weight of large schemas (like GitHub's or enterprise-grade Neo4j graphs), this server provides surgical control over how your agent perceives and interacts with your data.

💡 Why do you need it?

If you have ever seen the<error>Tool result is too large</error>while trying to introspect your API, you are already hitting the limits of standard MCP implementations. Here is why mcp-graphql-enhanced is the industry-standard choice for professional environments:

Avoid the 1MB Ceiling: It shifts the responsibility for scope from the server to the caller. Instead of a unilateral "everything or nothing" dump, you get granular control via typeNames and typeDepth parameters.

Surgical Precision: You can selectively introspect only the nodes you need (e.g., Repository, User, or Message), keeping your context window clean and your LLM focused.

Predictability over Immunity: It doesn't promise "unlimited" capacity—it promises predictability. In enterprise systems, you need a tool that lets you navigate the graph surgically and fail predictably if you overstep, rather than a "black box" that dies on you the moment the schema grows.

Proof of Performance: See a real-world demonstration of the gateway bypassing standard architectural limits during a live diagnostic test against the GitHub API: 🔗 Diagnostic Case Study: Scoped vs. Monolithic Introspection (Shared Chat)

💬 Community & Support

Join the conversation! If you have questions about using this bridge with Neo4j, Discord data graphs, or GraphQL in general, come hang out with us:

This is the best place to share your feedback, report issues, or suggest new "enhanced" features for the bridge.

✨ Key Enhancements

  • Built-in GraphiQL IDE — Visual playground at / (or /graphql, /graphiql) with pre-configured headers for instant testing and introspection.
  • Dual Transport — Supports both STDIO (for local CLI/client tools) and HTTP/JSON-RPC (for external/browser clients).
  • Dynamic headers — pass Authorization, X-API-Key, etc., via tool arguments (no config restarts)
  • Robust variables parsing — fixes “Query variables must be a null or an object” error
  • Smart introspection — supports filtered requests (via typeNames) and recursive depth control (via typeDepth) to minimize LLM context noise and optimize schema exploration.
  • Full MCP compatibility — works with Claude Desktop, Groq Desktop, Glama and any standard MCP client
  • Secure by default — mutations disabled unless explicitly enabled
  • Dynamic Schema Evolution — Smart diagnostics and gap analysis for servers that regenerate GraphQL types on-the-fly (like Neo4j).
  • Deep Observability — Automatic Cypher extraction and cleaning from GraphQL extensions.

🚀 Federated Multi-Node Architecture (v3.9.1+)

The server operates as a Federated GraphQL Gateway, merging independent nodes into a unified system.

  • Zero Breaking Changes: If you provide a single URL in ENDPOINT, the server behaves exactly as before.
  • Federated Introspection: Scans all endpoints simultaneously to build a global capability map.
  • Smart Aggregation: When multiple comma-separated URLs are provided, the server broadcasts queries and merges results using universal deep deduplication (object-level).
  • Conflict Handling: Identifies structural differences in identical Type names across nodes and exposes them uniquely.
  • Bypass Free Tier Limits: Perfect for users of "Free Tier" cloud databases (like Neo4j Aura). You can split your data across multiple free instances and use this bridge to query them as a single unified graph, effectively bypassing entity count limitations.

Proof of Concept:

See a real-world demonstration of the federated query synthesis in action, where the agent aggregates live Discord data with historical Neo4j insights: 🔗 Live Federation Analysis (Shared Chat)

💡 Use Case: Bridging WSL and Windows (PowerShell)

A common challenge for Windows developers is the network isolation between the Windows Subsystem for Linux (WSL) and the host OS. This feature allows you to bridge these two worlds into a "Unified Nervous System".

Example configuration for Claude Desktop:

{
  "ENDPOINT": "http://DESKTOP-NAME.local:2311/graphql,http://127.0.0.1:4000/graphql"
}
  • Hybrid Ecosystem: Seamlessly query and aggregate data across Windows-native processes (PowerShell) and Linux-based environments (WSL).

  • mDNS Support: By using .local addresses, the bridge automatically resolves the host machine's IP from within the WSL environment.

  • Transparent Aggregation: The AI assistant interacts with a single unified schema, unaware that the data is being fetched from different operating systems simultaneously.

🔍 Advanced Observability & Cypher

The bridge provides deep insights into how the LLM interacts with your graph database.

🕸️ Automated Cypher Extraction

For GraphQL server implementations that return query execution plans (like @neo4j/graphql), the bridge automatically:

  1. Detects extensions.cypher in the response.
  2. Sanitizes the output by stripping internal headers (like CYPHER 5 or empty PARAMS).
  3. Injects a clean Cypher block directly into the tool's output for the AI to analyze.

Note: This feature requires your GraphQL server to be configured to include debug information in the response extensions.


🎨 Visual Command Center (GraphiQL)

Unlike standard MCP servers, this one provides a visual interface for humans. When running with ENABLE_HTTP=true, you can open a full-featured GraphiQL IDE in your browser.

  • Endpoint: http://localhost:6274/ (or /graphql, /graphiql)
  • Header Sync: Any headers set in your environment (like GitHub tokens) are automatically injected into the GraphiQL "Headers" tab for immediate testing.

💻 HTTP / Dual Transport

This server now runs in dual transport mode, supporting both the standard STDIO communication (used by most MCP clients) and a new HTTP JSON-RPC endpoint on port 6274.

This allows external systems, web applications, and direct curl commands to access the server's tools with live request logging in your terminal ([HTTP-RPC] logs).

Endpoint Method Description
/graphiql GET Human Interface: The visual GraphQL IDE.
/mcp POST The main JSON-RPC 2.0 endpoint for tool execution.
/health GET Simple health check, returns { status: 'ok' }.

Automatic Port Selection

The server defaults to port 6274. If you encounter an EADDRINUSE error, the server will automatically find the next available port. Check the server logs for the final bound port (e.g., [HTTP] Started server on http://localhost:6275).

Resolving Port Conflicts (EADDRINUSE) and Automatic Port Selection

The server defaults to port 6274. If you encounter an EADDRINUSE: address already in use :::6274 error (common in local development due to stale processes), the server will automatically find the next available port (up to 10 attempts, not spawning multiple servers).

This ensures the server starts successfully even when the default is blocked. Always check the server logs for the final bound port (e.g., [HTTP] Started server on http://localhost:6275) if your curl or client tool fails on the default 6274.

To force a specific port (e.g., for guaranteed external firewall settings), you can still explicitly set the MCP_PORT environment variable:

Testing the HTTP Endpoint

You can test the endpoint using curl as long as the server is running (e.g., via npm run dev):

Test the health check (assuming the server bound to the default or found the next available port)

curl http://localhost:6274/health

Testing the JSON-RPC Transport

curl -X POST http://localhost:6274/mcp  \
-H "Content-Type: application/json"  \
-d '{
  "jsonrpc":"2.0",
  "method":"tools/list",
  "params":{},
  "id":1
}'

curl -X POST http://localhost:6274/mcp \
-H "Content-Type: application/json" \
-d '{
  "jsonrpc": "2.0",
  "method": "tools/call",
  "params": {
    "name": "introspect-schema",
    "arguments": {}
  },
  "id": 2
}'

curl -X POST http://localhost:6274/mcp \
-H "Content-Type: application/json" \
-d '{
  "jsonrpc": "2.0",
  "method": "tools/call",
  "params": {
    "name": "introspect-schema",
    "arguments": {
      "typeNames": ["User", "Message"]
    }
  },
  "id": 3
}'

curl -X POST http://localhost:6274/mcp \
-H "Content-Type: application/json" \
-d '{
  "jsonrpc": "2.0",
  "method": "tools/call",
  "params": {
    "name": "introspect-schema",
    "arguments": {
      "typeNames": ["Message"],
      "typeDepth": 4
    }
  },
  "id": 4
}'

curl -X POST http://localhost:6274/mcp \
  -H "Content-Type: application/json" \
  -d '{
    "jsonrpc": "2.0",
    "method": "tools/call",
    "params": {
      "name": "query-graphql",
      "arguments": {
        "query": "{ guildChannels(guild_id: \"1312302100125843476\") { name id topic } }"
      }
    },
    "id": 5
  }'

(using port 6275 if 6274 was busy)

curl -X POST http://localhost:6275/mcp -H "Content-Type: application/json" -d '{"jsonrpc":"2.0","method":"query-graphql","params":{"query":"query { __typename }"},"id":1}'

🔍 Use the official MCP Inspector to test your server live:

npx @modelcontextprotocol/inspector \
  -e ENDPOINT=https://api.example.com/graphql \
  npx @letoribo/mcp-graphql-enhanced

Environment Variables (Breaking change in 1.0.0)

Note: As of version 1.0.0, command line arguments have been replaced with environment variables.

Environment Variable Description Default
ENDPOINT GraphQL endpoint(s). Supports comma-separated list for Multi-Node Architecture. https://mcp-discord.vercel.app/api/graphiql
HEADERS JSON string containing headers for requests {}
ALLOW_MUTATIONS Enable mutation operations (disabled by default) false
NAME Name of the MCP server mcp-graphql-enhanced
SCHEMA Path to a local GraphQL schema file or URL -
MCP_PORT Port for the HTTP/JSON-RPC server. 6274
ENABLE_HTTP Enable HTTP transport: auto (default), true, or false auto
DEBUG Set to mcp:* for detailed SDK logs -
Note on ENABLE_HTTP:
  • auto (default): Automatically enables HTTP only when running in MCP Inspector...
  • true: Always enable HTTP server
  • false: Disable HTTP server completely

🚀 Examples

1. Quick Start

Basic startup using the default endpoint.

npx @letoribo/mcp-graphql-enhanced

2. Configuration & Authentication

Running with custom headers (e.g., for API keys or Bearer tokens).

ENDPOINT=https://api.example.com/graphql \
HEADERS='{"Authorization":"Bearer xyz"}' \
npx @letoribo/mcp-graphql-enhanced

3. Advanced Integration

Using a local .graphql file If you want to work with a local schema without querying the API directly.

ENDPOINT=http://localhost:3000/graphql \
SCHEMA=./schema.graphql \
npx @letoribo/mcp-graphql-enhanced

Enabling Mutations (Writes) Mutations are disabled by default for security. To enable them:

ENDPOINT=http://localhost:3000/graphql \
ALLOW_MUTATIONS=true \
npx @letoribo/mcp-graphql-enhanced

Multi-Node Architecture (Federation) Aggregating data from multiple sources into a single unified graph.

ENDPOINT=https://mcp-discord.vercel.app/api/graphiql,https://mcp-neo4j-discord.vercel.app/api/graphiql \
npx @letoribo/mcp-graphql-enhanced

4. Customizing Environment

Example of port configuration and development mode settings.

# Change the HTTP port
MCP_PORT=8080 npx @letoribo/mcp-graphql-enhanced

# Test targeted introspection and explore the schema visually:
ENDPOINT=https://api.github.com/graphql \
HEADERS='{"Authorization":"Bearer YOUR_GITHUB_TOKEN"}' \
ENABLE_HTTP=true \
npx @letoribo/mcp-graphql-enhanced

# Then visit http://localhost:6274/graphiql

5. Integration via Smithery CLI

Smithery provides a powerful way to manage your MCP servers, handle authentication, and interact with tools directly from your terminal

# 1. Install Smithery CLI
npm install -g smithery

# 2. Create a namespace
smithery namespace create {your-namespace}

# 3. Add the server
smithery mcp add letoribo/mcp-graphql-enhanced

# 4. Interact with tools
smithery tool list {connection}
smithery tool call {connection} {tool_name} '{"key": "value"}'

E.g.
smithery tool call letoribo-mcp-graphql-enhanced introspect-schema
smithery tool call letoribo-mcp-graphql-enhanced introspect-schema '{"typeNames": ["Guild", "Message", "User"]}'
smithery tool call letoribo-mcp-graphql-enhanced introspect-schema '{"typeNames": ["McpServer"], "typeDepth": 2}'
smithery tool call letoribo-mcp-graphql-enhanced query-graphql '{"query": "{ guildChannels(guild_id: \"1312302100125843476\") { name id topic } }"}'

☁️ Deploy to Cloud

This server is fully containerized and optimized for long-running processes.

Recommended Hosting

  • Railway (recommended, easiest to set up, no config needed)
  • Render

Deploy on Railway

Important: For hosted environments, you must set the environment variable ENABLE_HTTP=true in your platform's settings to ensure the HTTP transport layer is active.

🖥️ Claude Desktop Configuration Examples

You can connect Claude Desktop to your GraphQL API using either the npx package (recommended for simplicity) or the Docker image (ideal for reproducibility and isolation).

✅ Option 1: Using npx

{
  "mcpServers": {
    "mcp-graphql-enhanced": {
      "command": "npx",
      "args": ["@letoribo/mcp-graphql-enhanced"],
      "env": {
        "ENDPOINT": "https://your-api.com/graphql"
      }
    }
  }
}

🐳 Option 2: Using Docker (auto-pull supported)

{
  "mcpServers": {
    "mcp-graphql-enhanced": {
      "command": "sh",
      "args": [
        "-c",
        "docker run --rm -i -e ENDPOINT=$ENDPOINT -e HEADERS=$HEADERS -e ALLOW_MUTATIONS=$ALLOW_MUTATIONS ghcr.io/letoribo/mcp-graphql-enhanced:main"
      ],
      "env": {
        "ENDPOINT": "https://your-api.com/graphql",
        "HEADERS": "{\"Authorization\": \"Bearer YOUR_TOKEN\"}",
        "ALLOW_MUTATIONS": "false"
      }
    }
  }
}

🧪 Option 3: Using node with local build (for development)

If you’ve cloned the repo and built the project (npm run build → outputs to dist/):

{
  "mcpServers": {
    "mcp-graphql-enhanced": {
      "command": "node",
      "args": ["dist/index.js"],
      "env": {
        "ENDPOINT": "https://your-api.com/graphql",
        "ALLOW_MUTATIONS": "true"
      }
    }
  }
}

Resources

  • graphql-schema: The server exposes the GraphQL schema as a resource that clients can access. This is either the local schema file, a schema file hosted at a URL, or based on an introspection query.

Available Tools

The server provides two main tools:

  1. introspect-schema: Retrieves the GraphQL schema or a subset. Use this first to understand the graph structure.
  • Arguments:
    • typeNames (optional, array): List of specific types to introspect (e.g., ["User", "Message"]). Reduces noise by returning only relevant parts of the graph.
    • typeDepth (optional, number): Controls the recursion level of nested fields (Default: 2).

      Note: typeDepth is only functional when typeNames is provided to narrow the scope.

  • Note: Filtered introspection is only available when querying a live GraphQL endpoint.
  1. query-graphql: Execute GraphQL queries against the endpoint. By default, mutations are disabled unless ALLOW_MUTATIONS is set to true.

Security Considerations

Mutations are disabled by default to prevent unintended data changes. Always validate HEADERS and SCHEMA inputs in production. Use HTTPS endpoints and short-lived tokens where possible.

Customize for your own server

This is a very generic implementation where it allows for complete introspection and for your users to do whatever (including mutations). If you need a more specific implementation I'd suggest to just create your own MCP and lock down tool calling for clients to only input specific query fields and/or variables. You can use this as a reference.

from github.com/letoribo/mcp-graphql-enhanced

Установить Graphql Enhanced в Claude Desktop, Claude Code, Cursor

Рекомендуется · одна команда, все IDE
unyly install graphql-enhanced

Ставит в Claude Desktop, Claude Code, Cursor и VS Code — сам разбирается с npx, uvx и сборкой из исходников.

Впервые? Поставь CLI: curl -fsSL https://unyly.org/install | sh

Или настроить вручную

Выполни в терминале:

claude mcp add graphql-enhanced -- npx -y @letoribo/mcp-graphql-enhanced

FAQ

Graphql Enhanced MCP бесплатный?

Да, Graphql Enhanced MCP бесплатный — установка в пару кликов через Unyly без оплаты.

Нужен ли API-ключ для Graphql Enhanced?

Нет, Graphql Enhanced работает без API-ключей и переменных окружения.

Graphql Enhanced — hosted или self-hosted?

Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.

Как установить Graphql Enhanced в Claude Desktop, Claude Code или Cursor?

Открой Graphql Enhanced на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.

Похожие MCP

Compare Graphql Enhanced with

Не уверен что выбрать?

Найди свой стек за 60 секунд

Автор?

Embed-бейдж для README

Похожее

Все в категории ai