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MCPico

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MCP proxy that bundles flat tool lists into hierarchical subcommand groups, reducing context token usage and improving tool discovery.

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Описание

MCP proxy that bundles flat tool lists into hierarchical subcommand groups, reducing context token usage and improving tool discovery.

README

MCP proxy that bundles flat tool lists into hierarchical groups with separate discovery and execution.

MCPico (MCP + "ico" = tiny) wraps upstream MCP servers, grouping their tools into discoverable groups. Each group gets a help_<group> discovery tool (auto-generated docs from upstream schemas) and a <group> execution tool. LLM benchmarks show 43–60% fewer conversation tokens while matching flat tool success rates.

The Problem

MCP servers expose tools as a flat list. Every tool costs context tokens. A filesystem server exposes 14+ separate tools — the model sees all of them, all the time, even when it only needs one.

Some clients add "tool search" as a workaround. But searching requires the model to proactively look for tools it doesn't know exist. No structural signal about which tools relate to each other.

MCPico's Solution

Group related tools under a single entry point. The model sees groups instead of raw tools. Discovery is separated from execution:

Model calls: help_postgres → sees available tools
Model calls: postgres_query {"sql":"SELECT ..."} → executes

Quantified: 43–60% fewer conversation tokens

See BENCHMARK.md for a full LLM evaluation comparing flat tools (45 tools, 5 servers), MCPico merged mode, and MCPico split mode across Qwen3.5-9B and Qwen3.6-35B.

Key results:

  • MCPico split matches flat tool success rates on both models (2/3 tasks)
  • 60% token reduction on 9B model (14,027 vs 34,760 tokens across all tasks)
  • 43% token reduction on single-tool tasks with the 35B model

Features

  • Tool bundling — Groups tools by prefix (configurable separator), collapsing flat tool lists into 10 tools instead of 45+
  • Split discovery/execution — Separate help_<group> tools for discovery, <group> tools for execution. LLM-optimized design
  • Auto-generated helphelp_<group> tools dynamically generate rich documentation from upstream schemas
  • Multi-server aggregation — Proxy multiple upstream MCP servers through one interface
  • Dual upstream transport — Supports both stdio and Streamable HTTP (SSE) upstream servers
  • Dual listen transport — MCPico itself listens via stdio or HTTP/SSE (configurable port)
  • Configurable timeouts — Per-server connection timeout with sensible default (30s)
  • Resource & prompt passthrough — Namespaced to avoid collisions across servers
  • Authentication — Bearer, custom header, and OAuth2 client_credentials with automatic token refresh
  • Listen endpoint auth — Protect the SSE endpoint with bearer token validation

Usage

Install

npm install -g mcpico

Configure

Create mcpico.json:

{
  "servers": [
    {
      "name": "filesystem",
      "transport": {
        "type": "stdio",
        "command": "npx",
        "args": ["-y", "@modelcontextprotocol/server-filesystem", "/path/to/allowed/dir"]
      }
    }
  ]
}

Run

mcpico

Connect your MCP client

Add MCPico as a server in your MCP client config:

{
  "mcpServers": {
    "mcpico": {
      "command": "mcpico",
      "args": ["--config", "/path/to/mcpico.json"]
    }
  }
}

How it works

  1. Connect to upstream MCP servers
  2. Discover their tools (tools/list)
  3. Group tools by prefix (configurable separator, default _)
    • filesystem_read_file, filesystem_write_file → group filesystem
  4. Register two tools per group:
    • help_<group> — discovery: lists all subcommands with their parameters
    • <group> — execution: takes subcommand + params, forwards to upstream
  5. Forward tool calls directly to the matching upstream server
  6. Generate help dynamically from original tool schemas

Tool interface

help_postgres          ← call with no arguments to discover
postgres               ← call with subcommand: "postgres_query", params: {sql: "..."}

Multi-server aggregation

MCPico can proxy multiple upstream servers simultaneously:

{
  "servers": [
    {
      "name": "filesystem",
      "transport": {
        "type": "stdio",
        "command": "npx",
        "args": ["-y", "@modelcontextprotocol/server-filesystem", "/tmp"]
      }
    },
    {
      "name": "github",
      "transport": {
        "type": "sse",
        "url": "https://mcp-github.example.com/mcp"
      }
    }
  ]
}

Groups from different servers are merged if they share a prefix. Otherwise each server's tools appear as separate groups.

Configuration

Field Type Default Description
servers ServerConfig[] required Upstream MCP servers to proxy
separator string "_" Separator for prefix-based tool grouping
groups object {} Explicit group overrides ({ "group": ["tool1","tool2"] })
listen ListenConfig {"type":"stdio"} How MCPico exposes itself to MCP clients

ListenConfig

Field Type Required Description
type "stdio" yes Standard stdio transport
type "sse" yes HTTP/SSE — specify port and optional host
// SSE listen mode — MCPico as an HTTP endpoint
{
  "servers": [...],
  "listen": {
    "type": "sse",
    "port": 3000
  }
}

ServerConfig

Field Type Required Description
name string yes Friendly name / group namespace
transport TransportConfig yes How to connect to the upstream server
connectTimeoutMs number no Connection timeout in ms (default: 30000)

TransportConfig (stdio)

Field Type Required Description
type "stdio" yes Transport type
command string yes Executable to spawn
args string[] no Command-line arguments
env object no Environment variables
cwd string no Working directory

TransportConfig (SSE / Streamable HTTP)

Field Type Required Description
type "sse" yes Transport type
url string yes Full URL to MCP Streamable HTTP endpoint

Authentication

MCPico supports two layers of authentication:

Layer 1: Protecting the listen endpoint

When MCPico exposes an SSE endpoint, you can require a bearer token from clients:

{
  "servers": [...],
  "listen": {
    "type": "sse",
    "port": 3000,
    "auth": {
      "type": "bearer",
      "token": "${MCPICO_API_KEY}"
    }
  }
}

Clients must include Authorization: Bearer <token> in requests. Invalid or missing tokens receive a 401 response.

Layer 2: Authenticating to upstream servers

Upstream servers can require authentication. MCPico supports three methods:

Bearer token — standard Authorization: Bearer <token> header:

{
  "servers": [
    {
      "name": "internal-api",
      "transport": {
        "type": "sse",
        "url": "https://api.internal/mcp"
      },
      "auth": {
        "type": "bearer",
        "token": "${INTERNAL_KEY}"
      }
    }
  ]
}

Custom header — arbitrary headers (e.g. X-API-Key):

{
  "auth": {
    "type": "header",
    "name": "X-API-Key",
    "value": "${WIDGET_KEY}"
  }
}

OAuth 2.0 client credentials — machine-to-machine authentication with automatic token refresh:

{
  "auth": {
    "type": "oauth",
    "grant_type": "client_credentials",
    "client_id": "${PROVIDER_CLIENT_ID}",
    "client_secret": "${PROVIDER_CLIENT_SECRET}",
    "token_url": "https://auth.example.com/oauth/token",
    "scopes": ["read", "write"]
  }
}

MCPico handles the full OAuth flow:

  • Fetches initial access token on startup
  • Caches tokens in ~/.mcplico/credentials.json
  • Automatically refreshes before expiry
  • Retries on 401 with fresh tokens

All auth fields support ${ENV_VAR} interpolation — never hardcode secrets.

Auth config reference

Field Type Required Description
auth.type "bearer" | "header" | "oauth" yes Auth method
auth.token string for bearer Bearer token value
auth.name string for header Header name
auth.value string for header Header value
auth.grant_type "client_credentials" for oauth OAuth grant type
auth.client_id string for oauth OAuth client ID
auth.client_secret string for oauth OAuth client secret
auth.token_url string for oauth Token endpoint URL
auth.scopes string[] no OAuth scopes to request
auth.authorization_server_url string no Auth server URL (if different from token_url issuer)

Development

Development

npm install
npm run build    # TypeScript compilation
npm test         # Run tests (138 tests, vitest)
npm run dev      # Run directly with tsx

License

MIT

from github.com/lxg2it/mcpico

Установить MCPico в Claude Desktop, Claude Code, Cursor

Рекомендуется · одна команда, все IDE
unyly install mcpico

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 mcpico -- npx -y mcpico

FAQ

MCPico MCP бесплатный?

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

Нужен ли API-ключ для MCPico?

Нет, MCPico работает без API-ключей и переменных окружения.

MCPico — hosted или self-hosted?

Доступен hosted-вариант: Unyly запускает сервер в облаке, локальная установка не обязательна.

Как установить MCPico в Claude Desktop, Claude Code или Cursor?

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

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