unreal-mcp-ue4

UE4.27.2-focused MCP server for Unreal Engine using Unreal Python Remote Execution

unreal-mcp-ue4 started from the core idea and early workflow shape of runreal/unreal-mcp, but it has since been heavily refactored for Unreal Engine 4.27.2 and expanded with many new tools, UE4-specific compatibility layers, documentation, and smoke coverage. At this point, the original inspiration remains, but the public surface and day-to-day behavior are substantially different and UE4-first.

This port and the follow-up tool, documentation, and smoke-test work were developed with assistance from OpenAI Codex.

This project is still under active development, so bugs, rough edges, and UE4.27-specific limitations may still surface.

Published package: unreal-mcp-ue4
Registry name: io.github.conaman/unreal-mcp-ue4

Overview

• No custom Unreal C++ plugin from this repository is required.
• The server talks to the editor through Unreal's built-in Python Remote Execution path.
• The tool surface is organized into granular tools and higher-level tool namespaces.
• UE5-only editor scripting features are not reintroduced; UE4.27-safe operations work normally, while unreliable graph or binding flows are either excluded from the MCP surface or return a clear message instead of silently failing.

Origin

• Original inspiration and starting point: runreal/unreal-mcp
• The current codebase has gone through extensive UE4.27-focused refactoring, architecture changes, and tool expansion.
• In practice, the shared idea is still visible, but the implementation, scope, and supported workflows now reflect a separate UE4-first project.
• Unreal Python API reference: Unreal Engine Python API 4.27

Safety

• This is not an official Epic Games project.
• Any connected MCP client can inspect and modify your open Unreal Editor session.
• Use a disposable test project first, especially when trying asset or world-generation tools.

Requirements

• Unreal Engine 4.27.2
• Node.js 18+
• npm
• An MCP client such as Codex, Claude Desktop, Cursor, or GitHub Copilot in a supported IDE

Required Unreal Editor Setup

This repository does not ship its own Unreal plugin. Instead, it depends on built-in editor features that must be enabled in your UE4.27.2 project.

Required plugins

• Python Editor Script Plugin
• Editor Scripting Utilities

Required project setting

• Edit -> Project Settings -> Python -> Enable Remote Execution

Notes

• UMG tooling works with editor modules that already ship with Unreal Editor. There is no extra UMG plugin from this repository to install.
• Keep the target Unreal project open while using the MCP server or running tests.
• If you change plugin or Python settings, restart the editor before testing again.

Installation

1. Clone and build the server

git clone https://github.com/conaman/unreal-mcp-ue4.git
cd unreal-mcp-ue4
npm install
npm run build

Successful build output should create dist/bin.js, dist/index.js, and dist/editor/tools.js.

1a. Install from npm

Once the package is published on npm, you can install it directly instead of cloning the repository.

Global install:

npm install -g unreal-mcp-ue4

One-off invocation with npx:

npx unreal-mcp-ue4

If you install from npm, the MCP server entry point is the published unreal-mcp-ue4 binary instead of a local dist/bin.js path.

Claude MCP registration with a global install

If you installed the package globally, you can register it with Claude without referencing node or a local dist/bin.js path:

claude mcp add --scope user unreal-mcp-ue4 -- unreal-mcp-ue4

This tells Claude to launch the published unreal-mcp-ue4 binary directly from your global npm install.

2. Enable the Unreal requirements

In Unreal Editor:

1. Open the target UE4.27.2 project.
2. Go to Edit -> Plugins.
3. Enable Python Editor Script Plugin.
4. Enable Editor Scripting Utilities.
5. Restart the editor if prompted.
6. Go to Edit -> Project Settings -> Python.
7. Enable Enable Remote Execution.
8. Restart the editor again if needed.

3. Configure your MCP client

Most clients use a local stdio server command. The safest configuration is to point to an absolute node path and an absolute dist/bin.js path.

Generic MCP client example:

{
  "mcpServers": {
    "unreal-ue4": {
      "command": "/absolute/path/to/node",
      "args": [
        "/absolute/path/to/unreal-mcp-ue4/dist/bin.js"
      ]
    }
  }
}

If node is already on your PATH, you can use "command": "node" instead.

Codex example

codex mcp add unreal-ue4 -- /absolute/path/to/node /absolute/path/to/unreal-mcp-ue4/dist/bin.js

If you installed the package globally from npm, you can point the client directly at the published executable:

codex mcp add unreal-ue4 -- unreal-mcp-ue4

GitHub Copilot example

For VS Code, create .vscode/mcp.json:

{
  "servers": {
    "unreal-ue4": {
      "command": "node",
      "args": [
        "C:\\Users\\YourName\\dev\\unreal-mcp-ue4\\dist\\bin.js"
      ]
    }
  }
}

Then start the server from the MCP config UI and verify that unreal-ue4 appears in the tools picker.

Official Copilot docs:

• Extending GitHub Copilot Chat with MCP servers
• About Model Context Protocol in GitHub Copilot

Usage

Interface model

• Prefer the manage_* namespace tools as the main MCP surface.
• Treat manage_editor.project_info as the canonical project summary entry point.
• Treat manage_editor.map_info and manage_level.world_outliner as the canonical map and level read entry points.
• Use direct tools only for a small set of low-level primitives such as Unreal session path discovery and actor create or update or delete flows.
• Use manage_editor.run_python as an escape hatch for debugging, rapid prototyping, and UE4.27 API gaps that are not yet wrapped as stable tools.

Recommended first-run flow

1. Open your UE4.27.2 project and wait for the editor to finish loading.
2. Make sure the required plugins and Enable Remote Execution are enabled.
3. Build the MCP server with npm run build.
4. Start your MCP client or open a new session in the client that already references this server.
5. Run a small read-only command first.

Useful first commands:

• manage_editor with action: "project_info"
• manage_editor with action: "map_info"
• manage_level with action: "world_outliner"
• manage_tools with action: "list_namespaces"

Useful first natural-language requests:

• Get project info from the unreal-ue4 server.
• List the actors in the current level.
• Spawn a StaticMeshActor named TestCube at 0,0,100.

What the server can do

• Read project, map, asset, and actor information from the open editor.
• Spawn, inspect, move, and delete actors in the current level.
• Search assets and inspect references or metadata.
• Create common UE4 data assets such as DataAsset and StringTable assets.
• Create and edit Blueprint assets where UE4.27 Python exposes the necessary editor APIs.
• Create and edit Widget Blueprint trees with UE4.27-safe UMG helpers.
• Run grouped tool namespaces that dispatch through action and params.

Testing

Quick smoke test

The smoke test builds the server, launches its own local MCP server process, connects to the already running Unreal Editor, and runs a deterministic validation flow. You do not need to start a separate MCP server manually before this test.

npm run test:e2e

This checks:

• MCP server startup
• tool discovery
• project info, map info, and world outliner reads
• source-control provider and state reads
• direct-tool actor create, update, and delete
• namespace-layer actor spawn, search, transform, inspect, and delete
• tool-namespace discovery and namespace-layer dispatch for source control and actor control

Asset-inclusive smoke test

npm run test:e2e -- --with-assets

This adds:

• Blueprint creation
• Blueprint component editing
• Blueprint mesh assignment
• Blueprint compilation
• DataAsset creation
• DataAsset metadata readback
• StringTable creation
• Texture import and metadata readback
• Widget Blueprint creation
• TextBlock and Button insertion
• advanced CanvasPanel and child-widget add, move, and remove flows
• cleanup of temporary assets under /Game/MCP/Tests

Useful options:

• npm run test:e2e -- --with-assets --keep-assets keeps the generated test assets so you can inspect them in the Content Browser after the run.
• npm run test:e2e -- --skip-namespace skips the namespace-dispatch portion of the smoke run.
• npm run test:e2e -- --verbose prints MCP server stderr during the run.
• npm run test:e2e -- --help prints the runner options without rebuilding the server.

Windows test commands

Open PowerShell in the repository folder:

cd C:\dev\unreal-mcp-ue4
npm install
npm run test:e2e
npm run test:e2e -- --with-assets

What success looks like

• The console prints [PASS] for every test step.
• Actor tests visibly create and then remove temporary actors in the editor through both the direct-tool and namespace surfaces.
• The asset-inclusive test creates temporary Blueprint, DataAsset, StringTable, Texture, and Widget Blueprint assets under /Game/MCP/Tests and then removes them before exit unless --keep-assets is used.

Recommended test workflow

1. Start with npm run test:e2e.
2. If that passes, run npm run test:e2e -- --with-assets.
3. After both pass, try the server once from your real MCP client.
4. Use a separate Unreal test project before pointing the server at production content.

Publishing to npm

The package is prepared for npm publishing as a public package.

The project version format is unified everywhere as the semver-compatible date form YYYY.M.D-N. For example, the current release is published consistently as 2026.4.1-1.

Recommended maintainer flow:

1. Update the project version.
2. Run the publish preflight:

npm run publish:check

1. If you have a running UE4.27 editor test environment available, also run:

npm run test:e2e -- --with-assets --skip-build

1. Publish:

npm publish

Notes:

• prepack runs npm run build, so the published tarball always uses a fresh dist.
• npm run publish:check verifies typecheck, rebuilds the package, and runs npm pack --dry-run so you can inspect the exact tarball contents before publishing.
• The package name unreal-mcp-ue4 is currently available on npm.
• Because the unified date version uses a semver prerelease suffix, publish with an explicit dist-tag such as npm publish --tag latest.

Troubleshooting

Remote node is not available

• Make sure Unreal Editor is fully open before running the MCP client or smoke test.
• Verify that Python Editor Script Plugin is enabled.
• Verify that Editor Scripting Utilities is enabled.
• Verify that Enable Remote Execution is enabled in project settings.
• Restart Unreal Editor after changing any of the above.

Connection or discovery problems on Windows

• Allow UnrealEditor.exe and node.exe through Windows Defender Firewall.
• The bundled unreal-remote-execution package uses UDP multicast discovery on 239.0.0.1:6766 and a localhost command channel on 127.0.0.1:6776.
• If your client config uses JSON, escape backslashes or switch to forward slashes.

Client starts but cannot find node

• Use an absolute path to node or node.exe in the MCP config instead of relying on PATH.

Some Blueprint graph or UMG binding commands are unavailable

• Widget Blueprint creation and common widget-tree editing work in this fork; the main UMG gaps are delegate binding helpers and runtime-dependent viewport flows.
• Blueprint asset creation, component editing, compilation, and high-level asset summaries work; graph inspection, graph pin wiring, and variable or function metadata helpers are intentionally excluded because stock UE4.27 Python does not expose the required Blueprint metadata reliably.
• Capability areas that are not reliable enough to keep in the MCP surface are listed under Excluded Capability Areas in the tool section.

Notes and Limitations

• World-building and structure-generation tools use UE4.27-friendly preset builders based on engine basic-shape assets.
• Common UMG widget-tree editing works well with CanvasPanel-based layouts, but delegate binding helpers remain unavailable in stock UE4.27 Python.
• UMG positioning currently targets CanvasPanel slots in UE4.27.
• Reparenting the current root widget and editing named-slot content are not currently handled.
• Blueprint asset and component editing work, but Blueprint graph inspection, pin wiring, and variable or function metadata inspection are excluded in the stock UE4.27 Python environment.
• The tool surface includes both granular tools and action-based tool namespaces so different MCP clients can work at different abstraction levels.

The tool list below is generated from server/index.ts during build.

Available Tools

Notes call out important requirements or UE4.27 limitations when they matter. Empty notes mean there are no additional caveats beyond normal editor setup.

The recommended public surface is the manage_* namespace layer. Prefer manage_editor.project_info, manage_editor.map_info, and manage_level.world_outliner as canonical read entry points, and treat the small direct-tool set as low-level primitives for path discovery and actor CRUD.

Editor Session Info

Tool	Description	Notes
get_unreal_engine_path	Get the active Unreal Engine root path from the connected editor session
get_unreal_project_path	Get the active Unreal project file path from the connected editor session
get_unreal_version	Get the active Unreal Engine version string from the connected editor session

Core Direct Tools

Tool	Description	Notes
editor_create_object	Create a new object/actor in the world
editor_update_object	Update an existing object/actor in the world
editor_delete_object	Delete an object/actor from the world

Core Tool Namespaces

Tool	Description	Notes
manage_asset	Asset tool namespace for listing, searching, inspecting, exporting, validating, duplicating, renaming, moving, deleting, saving, and folder-management actions.
manage_actor	Actor tool namespace for listing, searching, spawning, deleting, transforming, and inspecting level actors.
manage_editor	Editor tool namespace for Python execution, console commands, project inspection, map inspection, PIE control, screenshots, and camera control.	Canonical namespace for project_info, map_info, world_outliner, PIE control, console_command, and run_python.
manage_level	Level tool namespace for map inspection, actor listing, world outliner inspection, and preset structure creation actions.
manage_system	System tool namespace for console commands and asset validation actions.	Slim namespace for console and validation helpers; use manage_editor for canonical project and map inspection.
manage_inspection	Inspection tool namespace for asset, actor, map, and basic Blueprint summary actions.	Asset, actor, and map inspection work; Blueprint inspection is limited to high-level asset summaries in stock UE4.27 Python.
manage_tools	Tool-namespace registry for listing registered tool namespaces and describing supported actions. Use this as the discovery entry point for the namespace-first MCP surface.
manage_source_control	Source-control tool namespace for provider inspection and file or package source-control operations.	provider_info works broadly, but file and package operations require a configured and available Unreal source-control provider.

World & Environment Tool Namespaces

Tool	Description	Notes
manage_lighting	Lighting tool namespace for spawning common light actors, transforming them, and inspecting level lighting state.
manage_level_structure	Level-structure tool namespace for preset town, house, mansion, tower, wall, bridge, and fortress construction actions.
manage_volumes	Volume tool namespace for spawning common engine volumes and applying delete or transform actions.
manage_navigation	Navigation tool namespace for spawning navigation volumes and proxies plus basic map inspection actions.
manage_environment	Environment-building tool namespace for preset town, arch, staircase, pyramid, and maze generation actions.
manage_splines	Spline tool namespace for spawning a spline-host actor or Blueprint and then transforming or deleting it.
manage_geometry	Geometry tool namespace for wall, arch, staircase, and pyramid preset construction actions.
manage_effect	Effects tool namespace for spawning debug-shape actors, assigning materials, tinting them, and deleting them.

Content & Authoring Tool Namespaces

Tool	Description	Notes
manage_skeleton	Skeleton tool namespace for searching Skeleton and SkeletalMesh assets and inspecting their metadata.
manage_material	Material tool namespace for listing materials, applying them to actors or Blueprints, and tinting them with material instances.
manage_texture	Texture tool namespace for searching texture assets, importing image files as textures, and reading their asset metadata.	import_texture requires a local image file path that is accessible from the machine running the Unreal Editor session.
manage_data	Data tool namespace for searching data assets, creating common data containers, and inspecting their asset metadata.
manage_blueprint	Blueprint tool namespace for Blueprint creation, component editing, compilation, and basic Blueprint summary actions.	Blueprint asset and component edits work; graph inspection, pin wiring, and variable or function metadata helpers are excluded from the MCP surface in stock UE4.27 Python.
manage_sequence	Sequence tool namespace for creating, searching, and inspecting LevelSequence assets.
manage_audio	Audio tool namespace for importing audio files, searching audio assets, and inspecting their asset metadata.
manage_widget	Widget tool namespace for UMG Blueprint creation, widget-tree edits, and viewport spawning actions. Use add_child_widget for typical nested layout work under an existing root such as CanvasPanel_0; add_widget without parent_widget_name is only for assigning a new root widget.	create_widget_blueprint, add_text_block, and add_button work; use add_child_widget for normal nested layout under an existing root such as CanvasPanel_0, while add_widget without parent_widget_name is only for assigning a new root. add_to_viewport requires PIE, and unsupported binding helpers are excluded from the MCP surface.

Gameplay & Systems Tool Namespaces

Tool	Description	Notes
manage_animation_physics	Animation-and-physics tool namespace for physics Blueprint spawning, Blueprint physics settings, and Blueprint compilation actions.
manage_input	Input tool namespace for creating classic UE4 input mappings.	Focused on classic UE4 input-mapping authoring; use manage_editor.project_info for the canonical project summary.
manage_behavior_tree	Behavior-tree tool namespace for creating, searching, and inspecting BehaviorTree assets.	Focused on BehaviorTree asset discovery and inspection; use manage_editor.project_info for the canonical project summary.
manage_gas	GAS tool namespace for searching gameplay-ability-related assets and inspecting their asset metadata.

Excluded Capability Areas

These capability areas are intentionally not exposed through the MCP surface in this UE4.27 port because they fail reliably in the current Python environment and only add prompt or context overhead until a native bridge exists.

Capability Area	Effect on MCP Surface	Why It Is Excluded
Blueprint event-graph event insertion	Related event-node and input-action helpers are excluded from the MCP surface.	The current UE4.27 Python environment does not expose reliable event graph access or K2 event reference setup.
Blueprint graph inspection and node search	Graph-analysis, graph-inspection, and node-search helpers are excluded from the MCP surface.	The current UE4.27 Python environment does not expose Blueprint graph arrays such as UbergraphPages or FunctionGraphs reliably enough for deterministic inspection.
Low-level Blueprint graph node creation	Generic graph-node helpers and related self or component reference insertion helpers are excluded from the MCP surface.	The current UE4.27 Python environment does not expose stable low-level graph node creation or member-reference wiring.
Blueprint function-call node authoring	Function-node helpers that depend on editor graph member-reference setup are excluded from the MCP surface.	The current UE4.27 Python environment does not expose reliable function-call node reference setup.
Blueprint variable and function metadata inspection	Variable-detail and function-detail helpers are excluded from the MCP surface.	The current UE4.27 Python environment does not expose NewVariables or FunctionGraphs reliably enough for deterministic inspection.
Blueprint variable authoring	Variable-creation helpers are excluded from the MCP surface.	BPVariableDescription and EdGraphPinType are not exposed in the current UE4.27 Python environment.
UMG delegate-binding authoring	Widget event-binding and text-binding helpers are excluded from the MCP surface.	DelegateEditorBinding is not exposed in the current UE4.27 Python environment.

License

Licensed under the MIT License.