oozoofrog

mcp-baepsae

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MCP server with direct iOS simulator implementation

mcp-baepsae

Baepsae (Vinous-throated Parrotbill) — A tiny Korean bird. Round, chubby, and constantly hopping around chirping. Known for its grit — even when a little bird tries to keep up with a stork, it never gives up. This project is small too, but it pecks away at your simulators tirelessly.

Local MCP server for iOS Simulator and macOS app automation with a TypeScript MCP layer and a Swift native bridge.

한국어 문서는 README-KR.md를 참고하세요.

Table of Contents

  • Prerequisites
  • Platform Support
  • Install
  • Permissions
  • MCP Setup (Recommended)
  • Client Matrix
  • For LLM
  • Manual Setup (Fallback)
  • Project Structure
  • Commands
  • MCP Tool Status
  • Usage Examples
  • Troubleshooting

Prerequisites

  • macOS 14+
  • Xcode + iOS Simulator
  • Node.js 18+
  • Swift 6+

Platform Support

Platform Supported Notes
macOS Yes Primary platform. Required for iOS Simulator and Accessibility APIs.
Linux No Native binary depends on AppKit, CoreGraphics, and Accessibility frameworks.
Windows No Native binary depends on AppKit, CoreGraphics, and Accessibility frameworks.

Why macOS only?

The Swift native bridge (baepsae-native) uses macOS-specific frameworks (AppKit, CoreGraphics, Accessibility) to interact with iOS Simulator and macOS applications. These frameworks are not available on Linux or Windows. The TypeScript MCP layer also relies on xcrun simctl, which is part of Xcode Command Line Tools and only available on macOS.

Requirements summary:

  • macOS 14 or later -- required for iOS Simulator automation and Accessibility API access.
  • Xcode or Xcode Command Line Tools -- required for Swift 6+ compilation of the native binary and xcrun simctl commands.
  • Node.js >= 18.0.0 -- required to run the TypeScript MCP server.

Permissions

Accessibility permission is required for UI inspection and input automation features (use unified generic tools such as analyze_ui, tap, right_click).

The important detail is that permission usually needs to be granted to the automation host / runtime process, not to the target app you are automating.

Which process usually needs permission?

  • Direct native binary invocation
    • Example: baepsae-native ...
    • Most relevant entry: the baepsae-native binary itself, plus the terminal/shell app that launched it
  • Node / npx MCP runtime
    • Example: node dist/index.js, npx -y mcp-baepsae@latest
    • Most relevant entry: the runtime process (node), plus the terminal or MCP client app that launched it
  • Desktop / CLI MCP clients
    • Example: Claude Code, Codex CLI/Desktop, Gemini CLI
    • Relevant entries can include the MCP client app, the terminal host, and the runtime process depending on launch path

Recommended setup flow

  1. Open System Settings > Privacy & Security > Accessibility.
  2. Enable the terminal or MCP client app you actually use.
  3. Enable the runtime process if listed (node, bun, etc.).
  4. For direct native invocation, also enable the baepsae-native binary entry if it appears separately.
  5. If an entry is missing, click + and add it manually.

Important note

After granting permission, the launching process may need to be restarted before macOS applies the change. If the error persists, quit and relaunch the terminal, MCP client, or runtime process that started mcp-baepsae.

For simulator targets, selector-based actions (tap / right_click with id or label) search in-app content by default. Set all: true to include Simulator chrome UI.

Install

Option A) npm (easiest)

# Run directly without installing
npx mcp-baepsae@latest

# Or install globally
npm install -g mcp-baepsae

On macOS, the Swift native binary is built automatically during install. If Swift is not available, the server still works with simctl-based features.

If you plan to use UI inspection or input automation right away, grant Accessibility permission to the terminal / MCP client / runtime process you will actually launch the server with.

Option B) From source

git clone https://github.com/oozoofrog/mcp-baepsae.git
cd mcp-baepsae
npm install
npm run build

MCP Setup (Recommended)

Use the installer script that calls each client's MCP install flow directly.

bash scripts/install.sh --tool all

Client Matrix

Client Install Path Script Target Notes
Claude Code claude mcp add --tool claude-code Supports multi-scope via --claude-scope
Claude Desktop claude mcp add --scope user --tool claude-desktop User-level registration
Codex CLI codex mcp add --tool codex-cli Also works for Codex Desktop settings
Codex Desktop Codex CLI MCP config --tool codex-desktop Uses same MCP registry as CLI
OpenCode Global config (~/.config/opencode/opencode.json) --tool opencode Auto-updated by installer
Gemini gemini mcp add --tool gemini User scope setup
Google Antigravity Gemini-compatible MCP flow --tool antigravity Uses Gemini MCP command path
GitHub Copilot copilot or gh copilot session --tool copilot Interactive/session-based setup

For LLM

If you are an LLM agent setting up this MCP server, here is everything you need:

Before trying UI automation tools, remember that Accessibility permission usually belongs to the host/runtime process (node, terminal, MCP client), not the target app under automation.

Quick start (one command)

# Register baepsae as an MCP server for all supported clients
bash scripts/install.sh --tool all

If you installed via npm instead of cloning the repo, use npx:

# Claude Code
claude mcp add baepsae -- npx -y mcp-baepsae@latest

# Codex CLI
codex mcp add baepsae -- npx -y mcp-baepsae@latest

Automation flags

# Preview commands without executing
bash scripts/install.sh --tool all --dry-run

# Verify environment and dependencies
bash scripts/install.sh --tool all --doctor

# Unregister from all clients
bash scripts/install.sh --tool all --uninstall

Runtime options

The installer supports multiple runtimes via --runtime:

Flag Command When to use
--runtime node (default) node dist/index.js Local source build
--runtime npx npx -y mcp-baepsae@latest npm registry, no global install
--runtime bunx bunx mcp-baepsae@latest Bun users
--runtime global mcp-baepsae After npm install -g mcp-baepsae

Manual Setup (Fallback)

Use this when you do not want to run scripts/install.sh.

Using npx (recommended for npm users)

# Claude Code
claude mcp add baepsae -- npx -y mcp-baepsae@latest

# Codex CLI
codex mcp add baepsae -- npx -y mcp-baepsae@latest

# Gemini CLI
gemini mcp add --scope user --transport stdio baepsae npx -y mcp-baepsae@latest

When using npx, the relevant Accessibility entry is commonly the spawned node runtime plus the terminal / MCP client that launched it.

Using local build

# Claude Code (project)
claude mcp add --scope project --env="BAEPSAE_NATIVE_PATH=/ABS/PATH/native/.build/release/baepsae-native" baepsae -- node /ABS/PATH/dist/index.js

# Codex CLI
codex mcp add baepsae --env BAEPSAE_NATIVE_PATH=/ABS/PATH/native/.build/release/baepsae-native -- node /ABS/PATH/dist/index.js

# Gemini CLI
gemini mcp add --scope user --transport stdio -e BAEPSAE_NATIVE_PATH=/ABS/PATH/native/.build/release/baepsae-native baepsae node /ABS/PATH/dist/index.js

When using a local build, check permission on both the runtime (node) and the app that launched it. If you invoke baepsae-native directly for debugging, check permission on the native binary entry itself as well.

Project Structure

  • MCP server entry point: src/index.ts
  • Tool modules: src/tools/ (info, simulator, ui, input, media, system)
  • Shared utilities: src/utils.ts, src/types.ts
  • Native binary entry point: native/Sources/main.swift
  • Native command handlers: native/Sources/Commands/
  • Native binary output: native/.build/release/baepsae-native
  • TS tests: tests/mcp.contract.test.mjs, tests/unit.test.mjs, tests/mcp.real.test.mjs
  • Swift tests: native/Tests/BaepsaeNativeTests/

Commands

npm run build       # Build TypeScript + native Swift binary
npm test            # Contract/integration tests
npm run test:real   # Real simulator smoke test (requires booted simulator)
npm run test:real:preflight  # Environment diagnostics only
npm run test:real:sim        # iOS simulator phases only (skips Phase 4)
npm run test:real:mac        # macOS Safari phase only
npm run verify      # test + test:real
npm run setup:mcp   # Alias for scripts/install.sh

MCP Tool Status

43 tools implemented end-to-end.

Official public MCP surface: unified generic tools

The public API surface is intentionally single-scheme: use unified generic tools with a target argument, rather than sim_* / mac_* names.

Category Tools
UI analyze_ui, query_ui, tap, tap_tab, type_text, swipe, scroll, drag_drop, wait_for_ui, detect_dialog, read_ui_value, set_ui_value, read_ui_param, hit_test, enumerate_ui
Input key, key_sequence, key_combo, touch, input_source, list_input_sources
Workflow run_steps
System list_windows, activate_app, screenshot_app, right_click, focus_window, context_menu_action, watch_notification
Simulator-only list_simulators, screenshot, record_video, stream_video, open_url, install_app, launch_app, terminate_app, uninstall_app, button, gesture
macOS/system list_apps, menu_action, get_focused_app, clipboard
Utility baepsae_help, baepsae_version, doctor

Target routing is explicit in the arguments: udid for simulator, bundleId / appName for macOS.

type_text policy

type_text accepts exactly one input source: text, stdinText, or file.

  • method: "auto" resolves to:
    • paste for simulator targets
    • keyboard for macOS targets
  • method: "paste" uses the simulator pasteboard for simulator targets and a temporary host clipboard replace/restore flow for macOS targets.
  • method: "keyboard" always types character-by-character.

When paste is used, simulator targets update the simulator pasteboard without touching the host clipboard, while macOS targets temporarily overwrite the host clipboard and restore it after submission. Successful responses report the input source, target kind, requested method, used method, paste transport, and any auto fallback that was applied.

tap_tab policy

tap_tab is semantic-first, geometry-last.

  • First it tries actionable descendants exposed under the tab bar.
  • If SwiftUI/Simulator does not expose real tab button descendants, it can use a semantic proxy row (for example, app-provided top navigation buttons that map cleanly to the same tabs).
  • Only if neither semantic path exists does it fall back to tab-bar geometry.

This matters because SwiftUI TabView in Simulator may expose the tab bar as a generic AXGroup text="Tab Bar" without actionable child buttons.

Usage Examples

Switch tabs by index with semantic-first fallback:

// Prefer this when your app exposes a real tab bar but individual tab buttons
// are not consistently addressable via query_ui/tap selectors.
tap_tab({ udid: "...", index: 1, tabCount: 3 })

Unified simulator app accessibility quickstart (inside app UI):

// 1) Launch your app in the target simulator
launch_app({ udid: "...", bundleId: "com.example.app" })

// 2) Inspect or search accessibility tree (in-app content scope by default)
analyze_ui({ udid: "..." })
query_ui({ udid: "...", query: "Login" })

// 3) Interact by accessibility identifier/label
tap({ udid: "...", id: "login-button" })

// Optional: include Simulator chrome/system UI in selector lookup
tap({ udid: "...", label: "Home", all: true })

Open a URL (iOS Simulator):

// Open Naver Mobile
open_url({ udid: "...", url: "https://m.naver.com" })

Manage Apps (iOS Simulator):

// Install an app
install_app({ udid: "...", path: "/path/to/App.app" })

// Launch Safari
launch_app({ udid: "...", bundleId: "com.apple.mobilesafari" })

// Terminate Safari
terminate_app({ udid: "...", bundleId: "com.apple.mobilesafari" })

macOS App Automation:

// List running macOS apps
list_apps({})

// Take screenshot of a macOS app
screenshot_app({ bundleId: "com.apple.Safari" })

Troubleshooting

Accessibility permission checklist

  • The permission target is usually the automation host/runtime process, not the target app.

  • Run doctor first to inspect host process, parent process, native binary, booted simulator availability, and accessibility readiness in one place.

  • Check the error message for:

    • current host process
    • parent process
    • inferred launch mode
  • If you launched through npx / node, grant permission to the runtime and the launching terminal / MCP client.

  • If you launched baepsae-native directly, grant permission to the native binary entry and the launching terminal / shell app.

  • After changing permission, restart the launching process before retrying.

  • Invalid environment variable format on Claude setup:

    • Use current script (scripts/install.sh) or claude mcp add --env="KEY=value" ... format.
  • Missing native binary error:

    • Run npm run build and confirm native/.build/release/baepsae-native exists.
  • Accessibility permission error is ambiguous:

    • Current versions include host/parent process diagnostics and inferred launch mode in the error text so you can see which executable path likely needs permission.
  • Real smoke test diagnostics:

    • Run npm run test:real:preflight to print environment and capability diagnostics without executing the full suite.
    • Run npm run test:real:sim to focus on simulator-capability coverage, or npm run test:real:mac for the macOS Safari subset.
  • Multiple Simulator windows are open and selectors hit the wrong device:

    • Current versions scope simulator selectors to the target udid window first.
    • If you intentionally need Simulator chrome/system UI, use all: true.
  • OpenCode does not show baepsae:

    • Re-run bash scripts/install.sh --tool opencode --skip-install --skip-build and check ~/.config/opencode/opencode.json.
  • Copilot not auto-registered:

    • Copilot MCP flow is interactive/session-based. Re-run installer with --interactive.
  • Real smoke test skipped:

    • Boot an iOS simulator first, then run npm run test:real.

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