| name | core-mcp |
| description | REQUIRED before any wsh terminal operation. Contains the complete MCP tool reference and bootstrap sequence for wsh_create_session, wsh_send_input, wsh_get_screen, wsh_send_and_read, wsh_send_keys, and all wsh_* tools. Do NOT guess wsh CLI commands or HTTP endpoints — use MCP tools or load this skill first.
|
| user-invocable | false |
wsh: Terminal as a Service (MCP)
You have access to wsh via MCP tools that give you direct control over
terminal sessions. You can see exactly what's on screen, send
keystrokes, wait for commands to finish, and create visual elements —
all through MCP tool calls.
Think of it this way: wsh gives you eyes (read the screen),
hands (send input), patience (wait for output to settle),
and a voice (overlays and panels to communicate with the human).
How It Works
wsh manages terminal sessions via a server daemon that listens on a
Unix domain socket (by default at ${XDG_RUNTIME_DIR}/wsh/default.http.sock).
MCP tools connect to this socket automatically. The human sees their
normal terminal. You interact through tool calls to the same session.
Everything is synchronized — input you send appears on their screen,
output they generate appears in your tool responses. All tools take a
session parameter to specify which session to operate on (e.g.,
"default").
Getting Started
Step 1: Verify you have MCP tools. Check your toolkit for tools
starting with wsh_ (e.g., wsh_send_input, wsh_get_screen,
wsh_create_session). If you have them, proceed to step 2.
If you do NOT have wsh_* tools, the MCP bridge is not running.
Do NOT try to start a server manually — that won't give you MCP tools.
Instead, fall back to the HTTP API: search your workspace for
skills/core/ and read SKILL.md. It has every endpoint with working
curl examples and a bootstrap sequence.
Step 2: Create a session. Sessions are where commands run:
wsh_create_session(name="work")
Returns the session name and terminal dimensions on success.
Step 3: Use the send/wait/read loop. The primary tool:
wsh_send_and_read(session="work", keys=[{"text": "ls -la"}, {"key": "enter"}], format="plain")
This sends keystrokes, waits for idle, and returns the screen in one call.
For more control, use wsh_send_input, wsh_await_idle, and
wsh_get_screen separately.
Authentication
MCP tools connect locally via Unix domain socket, so no authentication
is needed for local use. Authentication only matters when wsh is
configured with TCP HTTP (via --bind) for remote access across the
network. For remote TCP access, a Bearer token is required on all
requests. The token is auto-generated on startup or set via --token
/ WSH_TOKEN.
The Fundamental Loop
Almost everything you do with wsh follows this pattern:
- Send — inject input into the terminal
- Wait — let the command run until output settles
- Read — see what's on screen now
- Decide — based on what you see, choose what to do next
This is your heartbeat. Learn it. A drive-process interaction is
just this loop repeated until the task is done.
MCP Tools
These are the building blocks. Every specialized skill builds on these.
Send and Read (Send + Wait + Read)
The primary tool for the send/wait/read loop. Sends keystrokes, waits
for idle, then returns the screen contents.
Use wsh_send_and_read with:
session — target session name (e.g., "default")keys — array of key actions (see Send Keys below)timeout_ms — idle timeout (default 2000)max_wait_ms — maximum wall-clock wait (default 30000)format — "plain" or "styled" (default "styled")
Example: run ls -la and read the result:
wsh_send_and_read(session="default", keys=[{"text": "ls -la"}, {"key": "enter"}], format="plain")
Returns the screen contents plus a generation counter. If the
terminal doesn't settle within max_wait_ms, the screen is still
returned but flagged as an error.
Send Keys
Inject keystrokes into the terminal using named keys. No encoding
to get wrong — use key names instead of escape sequences.
Use wsh_send_keys with:
session — target session namekeys — array of key actions
Each element in keys is either:
{"text": "..."} — literal characters to type{"key": "..."} — a named special key
Named keys: enter, tab, escape, backspace, delete,
up, down, left, right, home, end, pageup, pagedown,
ctrl+a through ctrl+z, f1-f12. Case-insensitive.
Examples:
wsh_send_keys(session="default", keys=[{"text": "ls -la"}, {"key": "enter"}])
wsh_send_keys(session="default", keys=[{"key": "ctrl+c"}])
wsh_send_keys(session="default", keys=[{"key": "escape"}, {"text": ":wq"}, {"key": "enter"}])
Returns {"status": "sent", "bytes": N, "generation": G} on success.
The generation counter is the activity state before input was
submitted — pass it to wsh_await_idle for correct sequencing.
Send Input (Low-Level)
Raw byte injection for advanced use. Prefer wsh_send_keys for
most input — it handles encoding automatically.
Use wsh_send_input with:
session — target session nameinput — the text or data to send (JSON string encoding)encoding — "utf8" (default) or "base64"
Returns {"status": "sent", "bytes": N, "preview": "...", "generation": G}.
The generation counter is the activity state before input was
submitted — pass it to wsh_await_idle for correct sequencing.
Includes a warning field if the input looks empty or
double-escaped.
Base64 encoding bypasses any MCP transport issues with control
characters:
wsh_send_input(session="default", input="Aw==", encoding="base64") — Ctrl+Cwsh_send_input(session="default", input="Cg==", encoding="base64") — Enter
JSON escape reference (for utf8 encoding)
| Key | JSON escape | Example |
|---|
| Enter | \n | input="ls -la\n" |
| Tab | \t | input="\t" |
| Ctrl+C | \u0003 | input="\u0003" |
| Ctrl+D | \u0004 | input="\u0004" |
| Escape | \u001b | input="\u001b" |
Any Ctrl+key = \u00XX where XX is the ASCII code (A=01, B=02, ..., Z=1a).
Wait for Idle
Block until the terminal has been idle for timeout_ms milliseconds.
This is a hint that the program may be idle — it could also just be
working without producing output.
Use wsh_await_idle with:
session — target session nametimeout_ms — idle duration to wait for (default 2000)max_wait_ms — maximum wall-clock wait (default 30000)
Returns {"status": "idle", "generation": N} once idle.
Returns an error result if the terminal doesn't settle within
max_wait_ms.
Read the Screen
Get the current visible screen contents.
Use wsh_get_screen with:
session — target session nameformat — "plain" for simple text or "styled" for spans with color/formatting (default "styled")
Read Scrollback
Get historical output that has scrolled off screen.
Use wsh_get_scrollback with:
session — target session nameoffset — line offset into scrollback (default 0)limit — max lines to return (default 100)format — "plain" or "styled" (default "styled")
Visual Elements
Overlays
Floating text positioned on top of terminal content. They don't
affect the terminal — they're a layer on top.
Use wsh_overlay to create, update, or list overlays:
Create an overlay:
wsh_overlay(
session="default",
x=0, y=0, width=20, height=1,
spans=[{"text": "Hello!", "bold": true}]
)
Returns {"status": "created", "id": "uuid"} — use this ID to update or delete.
Update an overlay (provide id):
wsh_overlay(
session="default",
id="<overlay-id>",
spans=[{"text": "Updated!", "fg": "green"}]
)
List overlays:
wsh_overlay(session="default", list=true)
Opaque overlays: Add background to fill the rectangle with a
solid color, making it a window-like element:
wsh_overlay(
session="default",
x=10, y=5, width=40, height=10,
background={"bg": "black"},
spans=[{"text": "Window content"}]
)
Background accepts named colors ("blue") or RGB
({"r": 30, "g": 30, "b": 30}).
Focusable: Add focusable=true to allow focus routing during
input capture (see Input Capture below).
Use wsh_remove_overlay to remove overlays:
- With
id — remove a specific overlay
- Without
id — clear all overlays
Use overlays for: tooltips, status indicators, annotations,
notifications — anything that should appear on top of the
terminal without disrupting it. With explicit dimensions: windows,
dialogs, cards.
Panels
Agent-owned screen regions at the top or bottom of the terminal.
Unlike overlays, panels shrink the PTY — they carve out
dedicated space.
Use wsh_panel to create, update, or list panels:
Create a panel:
wsh_panel(
session="default",
position="bottom", height=3,
spans=[{"text": "Status: running"}]
)
Update a panel (provide id):
wsh_panel(
session="default",
id="<panel-id>",
spans=[{"text": "Status: done", "fg": "green"}]
)
List panels:
wsh_panel(session="default", list=true)
Background: Add background to fill the panel with a solid color:
wsh_panel(
session="default",
position="bottom", height=2,
background={"bg": "blue"},
spans=[{"text": "Status: ok"}]
)
Focusable: Add focusable=true to allow focus routing during
input capture.
Use wsh_remove_panel to remove panels:
- With
id — remove a specific panel
- Without
id — clear all panels
Use panels for: persistent status bars, progress displays,
context summaries — anything that deserves its own screen
real estate.
Input Capture
Intercept keyboard input so it comes to you instead of the shell.
Use wsh_input_mode to query or change input mode and focus:
mode="capture" — grab input (keystrokes go to API only)mode="release" — release back (keystrokes go to PTY)focus="<element-id>" — direct captured input to a specific focusable overlay or panelunfocus=true — clear focus- No mode/focus params — query current state
The human can press Ctrl+\ to toggle capture mode (it switches
between passthrough and capture).
Focus is automatically cleared when input is released or when the
focused element is deleted.
Use input capture for: approval prompts, custom menus, interactive
dialogs between you and the human.
Alternate Screen Mode
Enter a separate screen mode where you can create a completely
independent set of overlays and panels. Exiting cleans up everything
automatically.
Use wsh_screen_mode to query or change screen mode:
action="enter_alt" — enter alternate screen modeaction="exit_alt" — exit alternate screen mode- No action — query current mode (
"normal" or "alt")
Overlays and panels are automatically tagged with the screen mode
active at the time of creation. When you exit alt screen, all elements
created in alt mode are deleted and the original screen's elements
are restored.
Use alt screen mode for: temporary full-screen agent UIs, setup
wizards, immersive dashboards — anything that needs a clean canvas
and should leave no trace when done.
Session Management
wsh always runs as a server daemon managing sessions. Use these tools
to manage session lifecycle:
List Sessions
wsh_list_sessions() # list all
wsh_list_sessions(session="build") # get details for one
wsh_list_sessions(tag=["build", "ci"]) # filter by tags
Create Sessions
wsh_create_session(name="build", command="cargo build", tags=["build", "ci"])
Optional parameters: rows, cols, cwd, env, tags.
Returns {"name": "build", "rows": 24, "cols": 80, "tags": ["build", "ci"]}.
Session name rules: Names must be 1-64 characters and contain only
letters, digits, dots, hyphens, and underscores ([a-zA-Z0-9._-]).
Invalid names return an invalid_session_name error. If omitted, the
server auto-generates a valid name.
Terminal dimensions: rows and cols are clamped to 1-1000.
Tags are optional string labels (1-64 chars, alphanumeric plus
hyphens, underscores, and dots). Use them to group and filter
sessions by purpose.
Manage Sessions
wsh_manage_session(session="build", action="kill") # destroy
wsh_manage_session(session="build", action="rename", new_name="build-v2") # rename (same name rules apply)
wsh_manage_session(session="build", action="detach") # disconnect clients
wsh_manage_session(session="build", action="add_tags", tags=["production"]) # add tags
wsh_manage_session(session="build", action="remove_tags", tags=["draft"]) # remove tags
Default Session
When wsh is started with wsh (no arguments), it auto-spawns an
ephemeral server daemon (listening on Unix domain socket only) and
creates a session named default. Use session="default" for all
tool calls. If started with --name, the session has that name instead.
Federation (Multi-Server)
When wsh is configured with federated backends, all session tools accept an
optional server parameter to target a specific backend by hostname. When
omitted, operations target the local server (or aggregate across all servers
for listings).
Server Parameter on Session Tools
Add server="<hostname>" to any session tool to route it to a specific backend:
wsh_create_session(name="build", server="prod-1", command="cargo build")
wsh_get_screen(session="build", server="prod-1")
wsh_list_sessions(server="prod-1") # list sessions on one backend
wsh_list_sessions() # aggregate across all servers
Session responses include a server field indicating which server owns
the session. Once a session exists, all operations are automatically routed
to the correct server.
Server Management Tools
Use these tools to discover and manage the cluster:
List all servers:
wsh_list_servers()
Returns all servers (hub + backends) with hostname, address, health
(healthy, connecting, unavailable), and role.
Add a backend:
wsh_add_server(address="http://10.0.1.10:8080")
wsh_add_server(address="https://10.0.1.11:8443", token="secret")
Addresses require http:// or https:// scheme. The backend starts
in connecting state and transitions to healthy once reachable.
Check a specific server:
wsh_server_status(hostname="prod-1")
Remove a backend:
wsh_remove_server(hostname="prod-1")
For detailed federation patterns (cross-server workflows, failure
handling, distributed quiescence), invoke wsh:cluster-orchestration.
Specialized Skills
When your task matches one of these patterns, invoke the
corresponding skill for detailed guidance.
wsh:drive-process — You need to run a CLI command and interact
with it. Sending input, reading output, handling prompts, navigating
sequential command-and-response workflows.
wsh:tui — You need to operate a full-screen terminal application
like vim, htop, lazygit, or k9s. Reading a 2D grid, sending
navigation keys, understanding menus and panes.
wsh:multi-session — You need to run multiple things in parallel.
Spawning sessions, monitoring them, collecting results across
sessions.
wsh:agent-orchestration — You need to drive another AI agent
(Claude Code, Aider, etc.) through its terminal interface. Feeding
tasks, handling approval prompts, reviewing agent output.
wsh:monitor — You need to watch what a human is doing and react.
Subscribing to terminal events, detecting patterns, providing
contextual assistance or auditing.
wsh:visual-feedback — You need to communicate with the human
visually. Building overlay notifications, status panels, progress
displays, contextual annotations.
wsh:input-capture — You need to take over keyboard input
temporarily. Building approval workflows, custom menus, interactive
dialogs.
wsh:generative-ui — You need to build a dynamic interactive
experience in the terminal. Combining overlays, panels, input
capture, direct drawing, and alternate screen mode to create
bespoke interfaces on the fly.
