claude-intercom-mcp
Enables local messaging between Claude Code, Codex, Pi, and other coding-agent sessions on the same machine, allowing them to discover each other, send updates, ask questions, and reply.
README
Claude Intercom
Claude Intercom adds local messaging between Claude Code, Codex, Pi, and other
coding-agent sessions on the same machine. It speaks the same local broker
protocol as pi-intercom and
codex-intercom, so sessions
can discover each other, send updates, ask blocking questions, read pending
messages, and reply to asks — across all three agents.
The project has two related pieces:
claude-intercom-mcp: an MCP server that exposes intercom tools inside a normal Claude Code session.cci/claude-intercom-worker: a wakeable Claude worker. It registers an intercom identity, and when another session sends it work, it starts a fresh headlessclaude -pturn that resumes the worker's own conversation — so the worker can read files, run commands, edit code, and reply on its own.
Use plain MCP when you only need tools inside an already-active Claude turn. Use a wakeable worker when you want another session to wake Claude automatically and have it act with real system access.
Status
Preview. This is the Claude-side adapter, built alongside pi-intercom and
codex-intercom.
A plain Claude Code MCP session does not receive unsolicited visible turns.
Incoming messages are queued while the MCP server is running; call
intercom_pending to read them. Wake-on-message workflows use cci /
claude-intercom-worker.
How Claude gets woken
Claude Code has no long-lived programmatic "app-server" the way Codex does, so the worker uses the most robust primitive available: the headless CLI.
- The worker registers an intercom identity on the local broker and idles.
- When a message arrives, the worker runs
claude -p --output-format json --resume <session-id> ..., feeding the message text on stdin. - Claude runs a full turn — it can use Bash, Read, Edit, and every other
Claude Code tool, subject to the worker's permission mode — and prints a
final result plus a stable
session_id. - The worker persists that
session_idso the next message resumes the same conversation, and (for blocking asks) sends the final assistant message back to the asker as the reply.
This gives a woken worker genuine access to the system while keeping each worker
a continuous, resumable conversation. You can attach to a worker's conversation
at any time with claude --resume <session-id>.
Alternative for live sessions: community tools such as
claude-code-inter-sessiondeliver messages into an already-running session using Claude Code'sMonitortool, and Claude Code's experimental Channels feature can push notifications over MCP stdio. Those wake a session you are actively watching; the headless worker here wakes an autonomous background worker with full tool access and needs no experimental features. See docs/wake-mechanisms.md.
Install
Install the package so the command-line entry points are on PATH:
npm install -g github:dataforxyz/claude-intercom
This provides:
claude-intercom-mcpclaude-intercom-workercci— start a normal wakeable workerccim— start a minimal wakeable worker (cci --minimal)
Then add the MCP server to Claude Code:
claude mcp add claude-intercom -- claude-intercom-mcp
Optional identity variables can be attached at registration time:
claude mcp add claude-planner \
--env CLAUDE_INTERCOM_NAME=planner \
--env CLAUDE_INTERCOM_SESSION_ID=claude-planner \
--env CLAUDE_INTERCOM_MODEL=opus \
-- claude-intercom-mcp
Plugin Use
The repo also ships Claude Code plugin metadata:
.claude-plugin/plugin.json.mcp.jsonskills/claude-intercom/SKILL.md
The plugin packages the MCP server and the bundled claude-intercom skill (which
gives Claude copy-paste coordination patterns). Load it for a single session
with --plugin-dir:
claude --plugin-dir /path/to/claude-intercom # this session only
For the minimal tool surface, prefer plain MCP registration
(claude mcp add claude-intercom -- claude-intercom-mcp) so you get the intercom
tools without the skill.
Tools
intercom_whoami: show this session's intercom ID, name, cwd, and model.intercom_status: show connection status and pending message counts.intercom_list: list local Pi, Codex, and Claude sessions.intercom_set_summary: publish a short discoverable status.intercom_send: send a non-blocking message.intercom_ask: send a question and wait for the target's reply.intercom_pending: read queued inbound messages and unresolved asks.intercom_reply: reply to a pending inbound ask.
Example:
intercom_list({ scope: "machine" })
intercom_ask({
to: "worker-a",
message: "Please inspect the failing test and reply with the likely cause.",
timeout_ms: 45000
})
Blocking asks default to a short bounded wait and reject waits over 120 seconds.
For longer work, use intercom_send and check later with intercom_pending.
Wakeable Workers With cci
cci (Claude Code Intercom) starts a single wakeable worker in the foreground.
It registers the worker on the broker, then logs wake activity as messages
arrive. There is no shared live TUI — inspect the worker's conversation any time
with claude --resume <session-id> (the ID is printed on each turn).
Start a named worker:
cci --name worker-a --id worker-a
Flags (all optional; ccim accepts the same set):
| Flag | Meaning |
|---|---|
--name <name> |
Discoverable session name other sessions target |
--id <id> |
Stable intercom session id (defaults to a git-derived id) |
--cwd <dir> |
Working directory for the worker's turns (default: cwd) |
--model <model> |
Model for woken turns (opus, sonnet, haiku, or a full id) |
--instructions <text> |
System-prompt guidance appended to every woken turn |
--minimal / --bare |
Run woken turns with --safe-mode (see below); implied by ccim |
--safe |
Use standard permission prompts instead of the yolo default |
--permission-mode <mode> |
Explicit permission mode (acceptEdits, plan, …) |
--add-dir <dir> |
Extra directory the worker may access (repeatable) |
--mcp-config <json|file> |
Extra MCP servers for woken turns (e.g. to give the worker intercom tools) |
--state <path> |
Where to persist the worker's session id (default under ~/.pi/agent/intercom/) |
--claude <cmd> |
Claude Code executable to invoke (default claude) |
cci --cwd /path/to/project --instructions "Reply tersely. Ask before destructive changes."
cci --model opus --name reviewer --id reviewer
cci --safe --name safe-worker --id safe-worker # standard permission prompts instead of yolo
cci --add-dir ../shared-lib --name worker-a --id worker-a
By default cci runs the woken turns with
--dangerously-skip-permissions so the worker can actually act on the system in
headless mode (headless turns cannot answer interactive permission prompts). Use
--safe to switch to the standard permission mode, or --permission-mode <mode> to choose one explicitly. Only run yolo workers on a machine account you
trust.
Normal And Minimal Workers
Like Codex's coi (normal) and coim (minimal), cci has a minimal mode. Codex
needs a dedicated CODEX_HOME and a hand-written config.toml to strip
memories, plugins, skills, and browser surfaces (while keeping multi_agent).
Claude Code has this built in: cci --minimal runs every woken turn with Claude
Code's --safe-mode, which disables CLAUDE.md, skills, plugins, hooks, and MCP
servers while keeping auth, built-in tools (Bash/Read/Edit/…), and permissions
working normally. It is the focused-worker profile: less prompt and tool surface,
same coding ability.
Subagents are retained in minimal mode. --safe-mode only disables custom
agent-type definitions (.claude/agents/), not the built-in Task tool — so a
minimal worker can still delegate to general-purpose subagents, matching Codex
minimal's multi_agent = true. This is verified end-to-end
(test/e2e/minimal-subagent.sh): a minimal worker spawns a subagent that runs a
shell command and reports back.
cci and ccim are installed as a matched pair (like Codex's coi and coim):
ccim is exactly cci --minimal — same flags, same identity handling, minimal
by default. No shell alias needed.
cci --name reviewer --id reviewer # normal: full config, CLAUDE.md, skills, MCP
ccim --name lean-worker --id lean-worker # minimal: --safe-mode woken turns
ccim --safe --name lean-safe --id lean-safe # minimal + standard permission prompts
cci --minimal --name worker-a --id worker-a # equivalent to `ccim ...`
Because minimal mode disables MCP in the woken turn, a minimal worker cannot use the intercom tools to message other sessions itself — it still receives work and replies normally (the worker daemon captures its final message and sends the reply). Use a normal worker when you want the woken turn to reach out to peers on its own.
Manager And Worker Pattern
Use one Claude Code session as the manager and one or more cci workers.
Launch a worker in tmux:
tmux new-session -d -s worker-a 'cd /path/to/project && cci --name worker-a --id worker-a'
Then, from the manager session, delegate through the intercom tools:
intercom_ask({
to: "worker-a",
message: "Create a plan for adding retries to src/api/client.ts, then report your first step.",
timeout_ms: 60000
})
For non-blocking delegation, use intercom_send and check back with
intercom_pending. For a decision you need before continuing, use
intercom_ask.
Worker Daemon (multiple workers)
Use claude-intercom-worker when you want one process to publish several
configured workers without a launcher per worker.
Create a config:
{
"statePath": "/home/you/.pi/agent/intercom/claude-worker-state.json",
"claudeCommand": "claude",
"agents": [
{
"id": "claude-worker",
"name": "claude-worker",
"cwd": "/home/you/src/project",
"model": "sonnet",
"instructions": "Reply concisely. Ask before making destructive changes.",
"permissionMode": "bypassPermissions"
}
]
}
Start it:
claude-intercom-worker --config /home/you/.pi/agent/intercom/claude-worker.json
Each worker's session_id is persisted in statePath, so later messages resume
the same Claude conversation. The daemon reads a single worker's config from the
environment when no config file is given (CLAUDE_INTERCOM_WORKER_ID, …_NAME,
…_CWD, …_MODEL, …_INSTRUCTIONS, …_STATE).
Environment Variables
| Variable | Used by | Purpose |
|---|---|---|
CLAUDE_INTERCOM_NAME |
MCP server | Discoverable session name |
CLAUDE_INTERCOM_SESSION_ID |
MCP server | Stable intercom id |
CLAUDE_INTERCOM_MODEL |
MCP server | Model label shown to peers |
CLAUDE_INTERCOM_CWD / _INSTRUCTIONS |
cci / ccim |
Defaults for --cwd / --instructions |
CLAUDE_INTERCOM_CLAUDE_COMMAND |
workers | Claude Code executable (default claude) |
CLAUDE_INTERCOM_WORKER_ID / _NAME / _CWD / _MODEL / _INSTRUCTIONS / _STATE |
claude-intercom-worker |
Single-worker config when no --config file is given |
CLAUDE_INTERCOM_WORKER_CONFIG |
claude-intercom-worker |
Path to the worker config JSON |
PI_INTERCOM_ASK_TIMEOUT_MS |
all | Default blocking-ask timeout (≤ 120000) |
PI_CODING_AGENT_DIR |
all | Overrides the ~/.pi/agent base dir (broker socket + config live under it) |
The PI_* names are shared with pi-intercom and codex-intercom on purpose —
all three read the same broker location and ask-timeout so they interoperate.
Development
git clone https://github.com/dataforxyz/claude-intercom.git
cd claude-intercom
npm install
npm run build
npm test
For MCP development, register the TypeScript source directly:
claude mcp add claude-intercom-dev -- npx --no-install tsx ./claude/server.ts
Relationship To Pi / Codex Intercom
pi-intercom is the Pi-native extension with overlays and inline rendering.
codex-intercom is the Codex MCP/plugin adapter plus wake-on-message Codex
app-server sidecars. claude-intercom is the Claude Code MCP/plugin adapter
plus wake-on-message headless claude -p workers.
All three vendor the same minimal local broker/client protocol and share one broker socket, so a single session list spans Pi, Codex, and Claude.
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