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Sandboxed computer-use for AI agents: drive real browser + desktop apps in nested X11 windows
Sandboxed computer-use for AI agents: drive real browser + desktop apps in nested X11 windows
Valid MCP server (2 strong, 3 medium validity signals). No known CVEs in dependencies. Imported from the Official MCP Registry.
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From the project's GitHub README.
A sandboxed computer-use MCP server — let an AI agent drive a real browser and desktop apps (mouse, keyboard, screenshots, vision grounding), confined to a nested X11 window so it can never touch your real screen, files, or other apps.
Like a lab glovebox: the agent reaches in and manipulates real applications, sealed off from everything else. Bring the sandbox up, log into whatever sites or apps you want to automate inside that window, and the agent operates only there — you can watch it live and close it instantly.
Speaks the Model Context Protocol, so it works with MCP clients like Claude Code. Your host can run Wayland; the sandbox gives the agent a real X server to drive.

An agent driving a real browser in the sandbox — gliding the cursor, inserting a unicode name (Nadja Kovačič), typing, and submitting. All confined to a nested X11 window.
DISPLAY :1). Everything the agent
does — clicks, typing, screenshots — is confined to that window, not your real desktop.pkill Xephyr to close everything.uv (used for the virtualenv).xserver-xephyr (Xephyr), openbox, scrot, x11-utils, xdotool,
wmctrl, xclip (+ tesseract-ocr for basic). On Debian/Ubuntu the installer auto-installs
them via apt (sudo); on Fedora/Arch it prints the matching dnf/pacman command. The MCP server
itself is distro-agnostic — any Linux with these tools works.local vision mode.Pick a vision backend and run its one-liner (clone → install). Each one installs the system packages
(auto via apt on Debian/Ubuntu) and the Python deps for that mode, and writes a ready-to-paste
mcp-config.json with your paths.
none — no local models; your agent reads screenshots itself (lightest, instant):
git clone https://github.com/segentic-lab/glovebox-mcp && cd glovebox-mcp && ./install.sh none
basic — Tesseract OCR grounding (parse_screen → text + coordinates, CPU-only):
git clone https://github.com/segentic-lab/glovebox-mcp && cd glovebox-mcp && ./install.sh basic
local — OmniParser on an NVIDIA GPU (parse_screen → text + icons, pixel-precise; ~4 GB weights, ≥6 GB VRAM):
git clone https://github.com/segentic-lab/glovebox-mcp && cd glovebox-mcp && ./install.sh local
Your choice is written to .vision-mode (override per run with the GLOVEBOX_VISION env var).
Claude Code, Cursor, Codex, or your own agent — it's a standard MCP server, not tied to any one host.
Two compatibility notes: basic/local return element coordinates as text, so they work even
with text-only agents; none relies on the client passing the tool's screenshots to a
multimodal model (fine for Claude Code, Cursor, and other image-capable MCP clients).
./start-display.sh # 1440×900 Xephyr window with a browser
./start-display.sh 1920x1080 # …or pass a screen size (or set $RES)
Log into any sites or apps you want to automate in that window.install.sh already wrote mcp-config.json with
your real install path — copy its glovebox block into your client's MCP config:
{ "mcpServers": { "glovebox": {
"command": "/abs/path/to/glovebox-mcp/.venv/bin/python", // filled in by install.sh
"args": ["/abs/path/to/glovebox-mcp/server.py"],
"env": { "DISPLAY": ":1" }
} } }
Restart the client so it loads the server.:1 window.Driving it with an AI agent? Paste
AGENTS.mdinto the agent's system prompt — it teaches the observe → act → verify loop, grounding, the upload/unicode gotchas, and when to stop.
| Tool | What |
|---|---|
status() | Server + sandbox status in one read-only call: version, vision backend, host display, live instances, and which system deps (xdotool, xclip, Xephyr, tesseract, OmniParser weights) are present. Run it first — and paste it into bug reports. |
parse_screen() | Vision grounding → JSON of detected elements (id, type, label, interactive, pixel-center; capped at 300 per call, flagged via "truncated") + a numbered Set-of-Mark image at /tmp/glovebox_annotated_<N>.png. (local mode: OmniParser on GPU, ~2 s.) |
click_element(id) | Click an element from the last parse_screen (no coordinate guessing). |
screenshot() | Screenshot of an instance. |
click(x,y) · move_mouse · scroll · drag · double_click | Pointer ops. |
type_text(text) | Unicode-safe typing (ASCII via xdotool; anything with č/š/ž… is inserted via the clipboard, because xdotool's synthetic unicode is silently dropped by some GTK apps). |
press_keys("ctrl+a"/"Return"/…) | Keys/combos (xdotool syntax). |
upload_file(filepath, selector?) | Attach a local file to a page's <input type=file> via the Chrome DevTools Protocol. The nested X11 file picker is invisible to automation and hangs the renderer, so use this for all uploads — never click an upload button expecting a dialog. Works on Chromium started by launch_app/start-display.sh (they open a per-instance --remote-debugging-port, 9222+N). Browser file inputs only — for native apps see open_file. |
open_file(filepath, app?) | Open a local file in a native app on the instance's display (e.g. app="gimp") or via xdg-open. GTK apps get the same X11/D-Bus handling as launch_app. |
list_files() | The instance's staging folder files/<N>/ (under the install dir) + its contents. |
launch_app(command, name?, size?) · list_instances() · close_instance(n) | Multi-instance control (see below). |
wait_ms(ms) · get_screen_size() | Timing / sandbox size. |
Every control tool takes instance=N and optional observe / settle_ms (see below).
In local mode OmniParser is lazy-loaded on first parse_screen (~6 s once, then ~2 s/parse).
Every tool returns JSON: {"ok": true, "action": "click", "instance": 1, "detail": "clicked (10,20) button 1", …}.
Failures come back with the MCP isError flag set and the same JSON shape embedded in the error
text — {"ok": false, "error": "…", "fix": "…"} — where fix names the call that unblocks you
(e.g. a click on a dead instance says to run list_instances() / launch_app(); an unknown element
id says to re-run parse_screen()). Silent no-ops are treated as failures too: an invalid keysym,
a zero scroll, closing an instance that isn't running, or non-ASCII typing without xclip all
error instead of pretending success. screenshot() returns a PNG image; observe="screenshot"|"parse"
returns [json, image] in one call.
GLOVEBOX_VISION env var, or the .vision-mode file, or default local:
| Mode | parse_screen | Needs | When |
|---|---|---|---|
none | disabled (returns a note) — use screenshot() + reason | nothing (mcp, mss, xdotool) | lightest; let the agent's own vision do grounding |
basic | Tesseract OCR → text elements + coords | tesseract-ocr + pytesseract | no GPU; text-only grounding |
local | OmniParser → text + icons + coords | torch + CUDA + OmniParser weights | best grounding |
Switch anytime with ./install.sh <mode> (installs only what that mode needs).
Every control tool takes instance=N (default 1 = the start-display.sh sandbox). Spin up more —
each its own Xephyr display/window on the host desktop:
launch_app(command, name?, size?) → starts the next free :N running any GUI app
(chromium, gimp, inkscape, xterm, …). Chromium auto-gets X11 flags, a per-instance profile,
a remote-debugging port, and D-Bus isolation. Returns the instance id.list_instances() · close_instance(n).Because each display has its own cursor, multiple agents can drive different instances in parallel —
one window each. The only shared resource is the GPU for local-mode parse_screen (it just queues).
The host display for new windows is GLOVEBOX_HOST_DISPLAY (default :0); XAUTHORITY is auto-discovered.
click · click_element · type_text · press_keys · scroll · drag · double_click take
observe (none default · screenshot · parse) and settle_ms. With observe="screenshot"
the action returns its result and the resulting screen in a single call (with settle_ms to let the
page update first) — no separate screenshot round-trip. Default none keeps routine steps cheap; opt
into screenshot/parse on the steps that change the page (navigations, submits).
Each instance gets a staging folder files/<N>/ inside the install dir — a stable place to drop
files for that instance (readable by native apps and, since it's under $HOME, by snap Chromium too).
list_files(instance) shows the folder and its contents.
<input type=file> → upload_file(path, instance) (via CDP). The nested file
picker is invisible to automation and hangs snap Chromium, so never click an upload button expecting
a dialog.open_file(path, instance, app="gimp"), or just
drive the app's own Open dialog — unlike the browser's, it's a real visible window you can type a
path into (Ctrl+L in a GTK file chooser).launch_app
Chromium instances are pre-configured to download and "save as" into files/<N>/; point native
apps' Save dialogs there too, then list_files(instance) to see the results.local mode)install.sh clones OmniParser, downloads the v2 weights, and
applies two patches automatically:
OmniParser/util/utils.py's
from paddleocr import PaddleOCR is wrapped in try/except and the module-level paddle_ocr = PaddleOCR(...)
is guarded with … if PaddleOCR is not None else None.transformers is pinned to 4.49.0 — newer releases break Florence-2's remote config.If you upgrade OmniParser manually, re-apply the PaddleOCR patch. Weights live in OmniParser/weights/.
pkill Xephyr # closes the sandbox (browser + WM + display)
pkill Xephyr.server.py — the MCP server (all tools).install.sh — mode-aware installer (none / basic / local).start-display.sh — launches the Xephyr sandbox (display + window manager + browser).AGENTS.md — drop-in tool-usage instructions for the AI agent (paste into its system prompt).mcp-config.json — a ready-to-paste MCP client config snippet.local vision mode uses Microsoft's OmniParser
(cloned and weights downloaded by install.sh, under its own license). Screen capture uses
mss; input is driven with
xdotool. Not affiliated with Microsoft.
Shipped as-is under MIT. Issues and PRs are welcome, but this is maintained by one person — no support or response time is guaranteed. If it's useful to you, a ⭐ helps.
MIT — see LICENSE.
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