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Author SHA1 Message Date
gavrielc 60fab764e3 style: apply prettier formatting
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-04-17 14:07:46 +03:00
gavrielc e38e63234e feat(v2): per-group provider config (WIP)
Per-group provider blocks in groups/<folder>/container.json::providers.<name>
take precedence over host .env for model selection. Includes claude.ts
(new, emits ANTHROPIC_MODEL) and opencode.ts per-group overrides, plus
related plumbing and skill doc updates.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-04-17 14:07:32 +03:00
481 changed files with 23925 additions and 39453 deletions
+36
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@@ -1,5 +1,41 @@
{
"sandbox": {
"enabled": false
},
"permissions": {
"allow": [
"Bash(bash setup.sh*)",
"Bash(git remote *)",
"Bash(pnpm exec tsx setup/index.ts*)",
"Bash(pnpm exec tsx scripts/init-first-agent.ts*)",
"Bash(pnpm install @chat-adapter/*)",
"Bash(pnpm install chat-adapter-imessage*)",
"Bash(pnpm install @bitbasti/chat-adapter-webex*)",
"Bash(pnpm install @resend/chat-sdk-adapter*)",
"Bash(pnpm install @whiskeysockets/baileys*)",
"Bash(pnpm install @beeper/chat-adapter-matrix*)",
"Bash(pnpm install @nanoco/nanoclaw-dashboard*)",
"Bash(pnpm install --frozen-lockfile*)",
"Bash(pnpm run build*)",
"Bash(curl -fsSL onecli.sh*)",
"Bash(onecli *)",
"Bash(grep -q *)",
"Bash(echo *>> .env)",
"Bash(ls *)",
"Bash(cat ~/.config/nanoclaw/*)",
"Bash(tail *logs/*)",
"Bash(launchctl *nanoclaw*)",
"Bash(sqlite3 data/*)",
"Bash(docker info*)",
"Bash(docker logs *)",
"Bash(mkdir -p *)",
"Bash(cp .env *)",
"Bash(rsync -a .claude/skills/*)",
"Bash(head *)",
"Bash(xattr *)",
"Bash(find ~/.npm *)",
"Bash(which onecli*)",
"Bash(./container/build.sh*)"
]
}
}
@@ -1,246 +0,0 @@
---
name: add-atomic-chat-tool
description: Add Atomic Chat MCP server so the container agent can call local models served by the Atomic Chat desktop app via its OpenAI-compatible API.
---
# Add Atomic Chat Integration
This skill adds a stdio-based MCP server that exposes models running in the local [Atomic Chat](https://github.com/AtomicBot-ai/Atomic-Chat) desktop app as tools for the container agent. Claude remains the orchestrator but can offload work to local models served by Atomic Chat on `http://127.0.0.1:1337/v1` (OpenAI-compatible).
Tools exposed:
- `atomic_chat_list_models` — list models currently available in Atomic Chat (`GET /v1/models`)
- `atomic_chat_generate` — send a prompt to a specified model and return the response (`POST /v1/chat/completions`)
Model management (download, delete) is done through the **Atomic Chat desktop UI** — the app is a fork of Jan and manages its own model library.
The skill ships the MCP server source in this folder and copies it into the agent-runner tree at install time, then wires it up with small edits to `index.ts`, `providers/claude.ts`, and `container-runner.ts`. No branch merge — all edits are additive and idempotent.
## Phase 1: Pre-flight
### Check if already applied
Check if `container/agent-runner/src/atomic-chat-mcp-stdio.ts` exists. If it does, skip to Phase 3 (Configure).
### Check prerequisites
Verify Atomic Chat is installed and its local API server is running. On the host:
```bash
curl -s http://127.0.0.1:1337/v1/models | head
```
If the request fails:
1. Install Atomic Chat from the [latest release](https://github.com/AtomicBot-ai/Atomic-Chat/releases) (macOS only for now — `atomic-chat.dmg`).
2. Open the app.
3. Open **Settings → Local API Server** and make sure it's enabled on port `1337`.
4. Go to the **Hub** (or **Models**) tab and download at least one model (e.g. Llama 3.2 3B, Qwen 2.5 Coder 7B).
5. Load the model once by sending any message in Atomic Chat's UI to warm it up.
## Phase 2: Apply Code Changes
### Copy the MCP server source
```bash
cp .claude/skills/add-atomic-chat-tool/atomic-chat-mcp-stdio.ts container/agent-runner/src/atomic-chat-mcp-stdio.ts
```
### Register the MCP server in the agent-runner
Edit `container/agent-runner/src/index.ts`. Find the `mcpServers` object that currently looks like this:
```ts
const mcpServers: Record<string, { command: string; args: string[]; env: Record<string, string> }> = {
nanoclaw: {
command: 'bun',
args: ['run', mcpServerPath],
env: {},
},
};
```
Add an `atomic_chat` entry alongside `nanoclaw`:
```ts
const mcpServers: Record<string, { command: string; args: string[]; env: Record<string, string> }> = {
nanoclaw: {
command: 'bun',
args: ['run', mcpServerPath],
env: {},
},
atomic_chat: {
command: 'bun',
args: ['run', path.join(__dirname, 'atomic-chat-mcp-stdio.ts')],
env: {
...(process.env.ATOMIC_CHAT_HOST ? { ATOMIC_CHAT_HOST: process.env.ATOMIC_CHAT_HOST } : {}),
...(process.env.ATOMIC_CHAT_API_KEY ? { ATOMIC_CHAT_API_KEY: process.env.ATOMIC_CHAT_API_KEY } : {}),
},
},
};
```
### Add the tool glob to the allowlist
Edit `container/agent-runner/src/providers/claude.ts`. Find `'mcp__nanoclaw__*',` in the `TOOL_ALLOWLIST` array and add `'mcp__atomic_chat__*',` on the following line:
```ts
'mcp__nanoclaw__*',
'mcp__atomic_chat__*',
];
```
### Forward host env vars into the container
Edit `src/container-runner.ts` in `buildContainerArgs`. Find the `TZ` env line:
```ts
args.push('-e', `TZ=${TIMEZONE}`);
```
Add ATOMIC_CHAT forwarding right after it:
```ts
args.push('-e', `TZ=${TIMEZONE}`);
// Atomic Chat MCP tool: forward host overrides if set (default is host.docker.internal:1337).
if (process.env.ATOMIC_CHAT_HOST) {
args.push('-e', `ATOMIC_CHAT_HOST=${process.env.ATOMIC_CHAT_HOST}`);
}
if (process.env.ATOMIC_CHAT_API_KEY) {
args.push('-e', `ATOMIC_CHAT_API_KEY=${process.env.ATOMIC_CHAT_API_KEY}`);
}
```
### Surface `[ATOMIC]` log lines at info level
In the same file, find the stderr logger:
```ts
container.stderr?.on('data', (data) => {
for (const line of data.toString().trim().split('\n')) {
if (line) log.debug(line, { container: agentGroup.folder });
}
});
```
Replace it with:
```ts
container.stderr?.on('data', (data) => {
for (const line of data.toString().trim().split('\n')) {
if (!line) continue;
if (line.includes('[ATOMIC]')) {
log.info(line, { container: agentGroup.folder });
} else {
log.debug(line, { container: agentGroup.folder });
}
}
});
```
### Add env-var stubs to `.env.example`
Append to `.env.example`:
```bash
# Atomic Chat MCP tool (.claude/skills/add-atomic-chat-tool)
# Override the host where Atomic Chat exposes its OpenAI-compatible API.
# Default: http://host.docker.internal:1337 (with fallback to localhost)
# ATOMIC_CHAT_HOST=http://host.docker.internal:1337
# Optional API key. Leave unset for a local Atomic Chat install — it does not require auth.
# ATOMIC_CHAT_API_KEY=
```
### Validate code changes
```bash
pnpm run build
pnpm exec tsc -p container/agent-runner/tsconfig.json --noEmit
./container/build.sh
```
All three must be clean before proceeding.
## Phase 3: Configure
### Set Atomic Chat host (optional)
By default, the MCP server connects to `http://host.docker.internal:1337` (Docker Desktop) with a fallback to `localhost`. To use a custom host, add to `.env`:
```bash
ATOMIC_CHAT_HOST=http://your-atomic-chat-host:1337
```
### Set API key (optional)
Atomic Chat does **not require authentication** when running locally — leave this unset. Only set it if you've put Atomic Chat behind a reverse proxy that enforces auth:
```bash
ATOMIC_CHAT_API_KEY=sk-...
```
### Restart the service
Run from your NanoClaw project root:
```bash
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
# Linux: systemctl --user restart $(systemd_unit)
```
## Phase 4: Verify
### Test inference
Tell the user:
> Send a message like: "use atomic chat to tell me the capital of France"
>
> The agent should use `atomic_chat_list_models` to find available models, then `atomic_chat_generate` to get a response.
### Check logs if needed
```bash
tail -f logs/nanoclaw.log | grep -i atomic
```
Look for:
- `[ATOMIC] Listing models...` — list request started
- `[ATOMIC] Found N models` — models discovered
- `[ATOMIC] >>> Generating with <model>` — generation started
- `[ATOMIC] <<< Done: <model> | Xs | N tokens | M chars` — generation completed
## Troubleshooting
### Agent says "Atomic Chat is not installed" or tries to run a CLI
The agent is looking for a CLI that doesn't exist instead of using the MCP tools. This means:
1. The MCP server wasn't copied — check `container/agent-runner/src/atomic-chat-mcp-stdio.ts` exists
2. The MCP server wasn't registered — check `container/agent-runner/src/index.ts` has the `atomic_chat` entry in `mcpServers`
3. The allowlist wasn't updated — check `container/agent-runner/src/providers/claude.ts` includes `mcp__atomic_chat__*` in `TOOL_ALLOWLIST`
4. The container wasn't rebuilt — run `./container/build.sh`
### "Failed to connect to Atomic Chat"
1. Verify the host API is reachable: `curl http://127.0.0.1:1337/v1/models`
2. Confirm the Local API Server is enabled in Atomic Chat's settings
3. Check Docker can reach the host: `docker run --rm curlimages/curl curl -s http://host.docker.internal:1337/v1/models`
4. If using a custom host, check `ATOMIC_CHAT_HOST` in `.env`
### `model not found` / 404 on generate
The model ID passed to `atomic_chat_generate` must exactly match one of the IDs returned by `atomic_chat_list_models`. Ask the agent to list models first, then pick one from that list.
### Slow first response
Atomic Chat lazy-loads models into memory on first use. The initial call may take longer while the model warms up. Subsequent calls against the same model are fast.
### Agent doesn't use Atomic Chat tools
The agent may not know about the tools. Try being explicit: "use the atomic_chat_generate tool with llama3.2-3b-instruct to answer: ..."
### Context window or output size issues
Atomic Chat respects each model's native context length. If you hit limits, pass `max_tokens` explicitly when calling `atomic_chat_generate`, or switch to a model with a larger context window in the Atomic Chat UI.
@@ -1,229 +0,0 @@
/**
* Atomic Chat MCP Server for NanoClaw
* Exposes local Atomic Chat models (OpenAI-compatible, /v1) as tools for the container agent.
* Uses host.docker.internal to reach the host's Atomic Chat desktop app from Docker.
*/
import { McpServer } from '@modelcontextprotocol/sdk/server/mcp.js';
import { StdioServerTransport } from '@modelcontextprotocol/sdk/server/stdio.js';
import { z } from 'zod';
import fs from 'fs';
import path from 'path';
const ATOMIC_CHAT_HOST =
process.env.ATOMIC_CHAT_HOST || 'http://host.docker.internal:1337';
const ATOMIC_CHAT_API_KEY = process.env.ATOMIC_CHAT_API_KEY || '';
const ATOMIC_CHAT_STATUS_FILE = '/workspace/ipc/atomic_chat_status.json';
function log(msg: string): void {
console.error(`[ATOMIC] ${msg}`);
}
function writeStatus(status: string, detail?: string): void {
try {
const data = { status, detail, timestamp: new Date().toISOString() };
const tmpPath = `${ATOMIC_CHAT_STATUS_FILE}.tmp`;
fs.mkdirSync(path.dirname(ATOMIC_CHAT_STATUS_FILE), { recursive: true });
fs.writeFileSync(tmpPath, JSON.stringify(data));
fs.renameSync(tmpPath, ATOMIC_CHAT_STATUS_FILE);
} catch {
/* best-effort */
}
}
async function atomicFetch(
apiPath: string,
options?: RequestInit,
): Promise<Response> {
const url = `${ATOMIC_CHAT_HOST}${apiPath}`;
const headers: Record<string, string> = {
...((options?.headers as Record<string, string>) || {}),
};
if (ATOMIC_CHAT_API_KEY) {
headers.Authorization = `Bearer ${ATOMIC_CHAT_API_KEY}`;
}
const finalOptions: RequestInit = { ...options, headers };
try {
return await fetch(url, finalOptions);
} catch (err) {
// Fallback to localhost if host.docker.internal fails
if (ATOMIC_CHAT_HOST.includes('host.docker.internal')) {
const fallbackUrl = url.replace('host.docker.internal', 'localhost');
return await fetch(fallbackUrl, finalOptions);
}
throw err;
}
}
const server = new McpServer({
name: 'atomic_chat',
version: '1.0.0',
});
server.tool(
'atomic_chat_list_models',
'List all models available in the local Atomic Chat desktop app. Use this to see which models are loaded before calling atomic_chat_generate.',
{},
async () => {
log('Listing models...');
writeStatus('listing', 'Listing available models');
try {
const res = await atomicFetch('/v1/models');
if (!res.ok) {
return {
content: [
{
type: 'text' as const,
text: `Atomic Chat API error: ${res.status} ${res.statusText}`,
},
],
isError: true,
};
}
const data = (await res.json()) as {
data?: Array<{ id: string; owned_by?: string }>;
};
const models = data.data || [];
if (models.length === 0) {
return {
content: [
{
type: 'text' as const,
text: 'No models available. Open Atomic Chat on the host and download a model from the Hub.',
},
],
};
}
const list = models
.map((m) => `- ${m.id}${m.owned_by ? ` (${m.owned_by})` : ''}`)
.join('\n');
log(`Found ${models.length} models`);
return {
content: [
{ type: 'text' as const, text: `Available models:\n${list}` },
],
};
} catch (err) {
return {
content: [
{
type: 'text' as const,
text: `Failed to connect to Atomic Chat at ${ATOMIC_CHAT_HOST}: ${err instanceof Error ? err.message : String(err)}`,
},
],
isError: true,
};
}
},
);
server.tool(
'atomic_chat_generate',
'Send a prompt to a local Atomic Chat model and get a response. Good for cheaper/faster tasks like summarization, translation, or general queries. Use atomic_chat_list_models first to see available models.',
{
model: z
.string()
.describe(
'The model ID as returned by atomic_chat_list_models (e.g. "llama3.2-3b-instruct")',
),
prompt: z.string().describe('The prompt to send to the model'),
system: z
.string()
.optional()
.describe('Optional system prompt to set model behavior'),
temperature: z
.number()
.optional()
.describe('Sampling temperature (0.02.0). Defaults to model default.'),
max_tokens: z
.number()
.optional()
.describe('Maximum number of tokens to generate in the response.'),
},
async (args) => {
log(`>>> Generating with ${args.model} (${args.prompt.length} chars)...`);
writeStatus('generating', `Generating with ${args.model}`);
try {
const messages: Array<{ role: string; content: string }> = [];
if (args.system) {
messages.push({ role: 'system', content: args.system });
}
messages.push({ role: 'user', content: args.prompt });
const body: Record<string, unknown> = {
model: args.model,
messages,
stream: false,
};
if (args.temperature !== undefined) body.temperature = args.temperature;
if (args.max_tokens !== undefined) body.max_tokens = args.max_tokens;
const startedAt = Date.now();
const res = await atomicFetch('/v1/chat/completions', {
method: 'POST',
headers: { 'Content-Type': 'application/json' },
body: JSON.stringify(body),
});
if (!res.ok) {
const errorText = await res.text();
return {
content: [
{
type: 'text' as const,
text: `Atomic Chat error (${res.status}): ${errorText}`,
},
],
isError: true,
};
}
const data = (await res.json()) as {
choices?: Array<{ message?: { content?: string } }>;
usage?: {
prompt_tokens?: number;
completion_tokens?: number;
total_tokens?: number;
};
};
const response = data.choices?.[0]?.message?.content ?? '';
const elapsedSec = ((Date.now() - startedAt) / 1000).toFixed(1);
const completionTokens = data.usage?.completion_tokens;
const meta = `\n\n[${args.model} | ${elapsedSec}s${
completionTokens !== undefined ? ` | ${completionTokens} tokens` : ''
}]`;
log(
`<<< Done: ${args.model} | ${elapsedSec}s | ${
completionTokens ?? '?'
} tokens | ${response.length} chars`,
);
writeStatus(
'done',
`${args.model} | ${elapsedSec}s | ${completionTokens ?? '?'} tokens`,
);
return { content: [{ type: 'text' as const, text: response + meta }] };
} catch (err) {
return {
content: [
{
type: 'text' as const,
text: `Failed to call Atomic Chat: ${err instanceof Error ? err.message : String(err)}`,
},
],
isError: true,
};
}
},
);
const transport = new StdioServerTransport();
await server.connect(transport);
-161
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@@ -1,161 +0,0 @@
---
name: add-codex
description: Use Codex (CLI + AppServer) as the full agent provider — planning, tool orchestration, native compaction, MCP tools, session resume — in place of the Claude Agent SDK. ChatGPT subscription or OPENAI_API_KEY. Per-group via agent_provider. Distinct from using OpenAI as an MCP tool (where Claude remains the planner).
---
# Codex agent provider
NanoClaw runs agents in a long-lived **poll loop** inside the container. The backend is selected with **`AGENT_PROVIDER`** (`claude` | `opencode` | `codex` | `mock`).
Trunk ships with only the `claude` provider baked in. This skill copies the Codex provider files in from the `providers` branch, wires them into the host and container barrels, updates the Dockerfile to install the Codex CLI, and rebuilds the image.
The Codex provider runs `codex app-server` as a child process and speaks JSON-RPC over stdio. That gives it native session resume, streaming events, MCP tool access, and `thread/compact/start` compaction — same feature bar as the Claude Agent SDK, without the Anthropic-only lock-in.
## Install
### Pre-flight
If all of the following are already present, skip to **Configuration**:
- `src/providers/codex.ts`
- `container/agent-runner/src/providers/codex.ts`
- `container/agent-runner/src/providers/codex-app-server.ts`
- `container/agent-runner/src/providers/codex.factory.test.ts`
- `import './codex.js';` line in `src/providers/index.ts`
- `import './codex.js';` line in `container/agent-runner/src/providers/index.ts`
- `ARG CODEX_VERSION` and `"@openai/codex@${CODEX_VERSION}"` in the pnpm global-install block in `container/Dockerfile`
Missing pieces — continue below. All steps are idempotent; re-running is safe.
### 1. Fetch the providers branch
```bash
git fetch origin providers
```
### 2. Copy the Codex source files
Wholesale copies (owned entirely by this skill — user edits to these files won't survive a re-run, as designed):
```bash
git show origin/providers:src/providers/codex.ts > src/providers/codex.ts
git show origin/providers:container/agent-runner/src/providers/codex.ts > container/agent-runner/src/providers/codex.ts
git show origin/providers:container/agent-runner/src/providers/codex-app-server.ts > container/agent-runner/src/providers/codex-app-server.ts
git show origin/providers:container/agent-runner/src/providers/codex.factory.test.ts > container/agent-runner/src/providers/codex.factory.test.ts
```
### 3. Append the self-registration imports
Each barrel gets one line — alphabetical placement keeps diffs small.
`src/providers/index.ts`:
```typescript
import './codex.js';
```
`container/agent-runner/src/providers/index.ts`:
```typescript
import './codex.js';
```
### 4. Add the Codex CLI to the container Dockerfile
Two edits to `container/Dockerfile`, both idempotent (skip if already present):
**(a)** In the "Pin CLI versions" ARG block (around line 18), add after `ARG CLAUDE_CODE_VERSION=...`:
```dockerfile
ARG CODEX_VERSION=0.124.0
```
**(b)** Add a new standalone `RUN` block for the Codex CLI, after the existing per-CLI install blocks (around line 106, right after the `@anthropic-ai/claude-code` block). The Dockerfile splits each global CLI into its own layer for cache granularity — keep that pattern; do not collapse them into a single combined `pnpm install -g` call:
```dockerfile
RUN --mount=type=cache,target=/root/.cache/pnpm \
pnpm install -g "@openai/codex@${CODEX_VERSION}"
```
Note: **no agent-runner package dependency** — Codex is a CLI binary, not a library. Unlike OpenCode, there's nothing to add to `container/agent-runner/package.json`.
### 5. Build
```bash
pnpm run build # host
pnpm exec tsc -p container/agent-runner/tsconfig.json --noEmit # container typecheck
./container/build.sh # agent image
```
## Configuration
Codex supports two primary auth paths and one experimental BYO-endpoint path. Pick the one that matches your setup.
### Option A — ChatGPT subscription (recommended for individuals)
On the host (not inside the container), run Codex's OAuth login:
```bash
codex login
```
This writes `~/.codex/auth.json` with a subscription token. The host-side Codex provider ([src/providers/codex.ts](../../../src/providers/codex.ts)) copies `auth.json` into a per-session `~/.codex` directory mounted into the container — your host's own Codex CLI is never touched.
No `.env` variables required for this mode.
### Option B — API key (recommended for CI or API billing)
```env
OPENAI_API_KEY=sk-...
CODEX_MODEL=gpt-5.4-mini
```
The host forwards both variables into the container. If both subscription (`auth.json`) and `OPENAI_API_KEY` are present, Codex prefers the subscription.
### Option C — BYO OpenAI-compatible endpoint (experimental)
Codex's built-in `openai` provider honors the `OPENAI_BASE_URL` env var directly. Point it at any OpenAI-compatible endpoint — Groq, Together, self-hosted vLLM, an OpenAI proxy, etc.
```env
OPENAI_API_KEY=...
OPENAI_BASE_URL=https://api.groq.com/openai/v1
CODEX_MODEL=llama-3.3-70b-versatile
```
Codex also ships first-class local-runner flags — `codex --oss --local-provider ollama` or `--local-provider lmstudio` — that auto-detect a local server. To use those inside NanoClaw, set `CODEX_MODEL` to a model your local runner serves and add the corresponding base URL; see the Codex CLI docs for the full `model_provider = oss` configuration.
**Experimental caveat:** tool-calling quality depends on the model and endpoint. Not every OpenAI-compat provider implements the full function-calling spec, and smaller models (< 30B) often struggle with multi-step tool orchestration. Test before committing.
### Per group / per session
Set `"provider": "codex"` in the group's **`container.json`** (`groups/<folder>/container.json`) — the in-container runner reads `provider` from there, not from the DB. The DB columns **`agent_groups.agent_provider`** and **`sessions.agent_provider`** (session overrides group) only drive host-side provider contribution — per-session `~/.codex` mount, `OPENAI_*` / `CODEX_MODEL` env passthrough — and do not propagate into `container.json` at spawn time. Set both, or just edit `container.json`; if they disagree, the runner uses `container.json` and the host-side resolver falls back through session → group → `container.json``'claude'`.
`CODEX_MODEL` applies process-wide via `.env`; if you need different models for different groups, set them via `container_config.env` on the group.
Extra MCP servers still come from **`NANOCLAW_MCP_SERVERS`** / `container_config.mcpServers` on the host. The runner merges them into the same `mcpServers` object passed to all providers.
## Operational notes
- **Spawn-per-query:** Codex's app-server is spawned fresh per query invocation, matching the OpenCode pattern. No long-lived daemon to keep healthy across sessions.
- **Per-session `~/.codex` isolation:** each group gets its own copy of the host's `auth.json`. The container can rewrite `config.toml` freely on every wake without touching the host's Codex config.
- **Native compaction:** kicks in automatically at 40K cumulative input tokens between turns, via `thread/compact/start`. If compaction fails, the provider logs and continues uncompacted — no fatal error.
- **Approvals:** auto-accepted inside the container (the container is the sandbox; same posture as Claude/OpenCode).
- **Mid-turn input:** Codex turns don't accept mid-turn messages. Follow-up `push()` calls queue and drain between turns, matching the OpenCode pattern. The poll-loop only pushes between turns anyway, so no messages are dropped.
- **Stale thread recovery:** `isSessionInvalid` matches on stale-thread-ID errors (`thread not found`, `unknown thread`, etc.) so a cold-started app-server can recover cleanly when it sees a stored continuation it no longer has.
## Verify
```bash
grep -q "./codex.js" container/agent-runner/src/providers/index.ts && echo "container barrel: OK"
grep -q "./codex.js" src/providers/index.ts && echo "host barrel: OK"
grep -q "@openai/codex@" container/Dockerfile && echo "Dockerfile install: OK"
cd container/agent-runner && bun test src/providers/codex.factory.test.ts && cd -
```
After the image rebuild, set `agent_provider = 'codex'` on a test group and send a message. Successful round-trip looks like:
- `init` event with a stable thread ID as continuation
- One or more `activity` / `progress` events during the turn
- `result` event with the model's reply
If the agent hangs or errors, check `~/.codex/auth.json` exists on the host (Option A) or that `OPENAI_API_KEY` is forwarding correctly (Option B) — `docker exec` into a running container and `env | grep -i openai` to confirm.
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@@ -0,0 +1,135 @@
---
name: add-compact
description: Add /compact command for manual context compaction. Solves context rot in long sessions by forwarding the SDK's built-in /compact slash command. Main-group or trusted sender only.
---
# Add /compact Command
Adds a `/compact` session command that compacts conversation history to fight context rot in long-running sessions. Uses the Claude Agent SDK's built-in `/compact` slash command — no synthetic system prompts.
**Session contract:** `/compact` keeps the same logical session alive. The SDK returns a new session ID after compaction (via the `init` system message), which the agent-runner forwards to the orchestrator as `newSessionId`. No destructive reset occurs — the agent retains summarized context.
## Phase 1: Pre-flight
Check if `src/session-commands.ts` exists:
```bash
test -f src/session-commands.ts && echo "Already applied" || echo "Not applied"
```
If already applied, skip to Phase 3 (Verify).
## Phase 2: Apply Code Changes
Merge the skill branch:
```bash
git fetch upstream skill/compact
git merge upstream/skill/compact
```
> **Note:** `upstream` is the remote pointing to `qwibitai/nanoclaw`. If using a different remote name, substitute accordingly.
This adds:
- `src/session-commands.ts` (extract and authorize session commands)
- `src/session-commands.test.ts` (unit tests for command parsing and auth)
- Session command interception in `src/index.ts` (both `processGroupMessages` and `startMessageLoop`)
- Slash command handling in `container/agent-runner/src/index.ts`
### Validate
```bash
pnpm test
pnpm run build
```
### Rebuild container
```bash
./container/build.sh
```
### Restart service
```bash
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
```
## Phase 3: Verify
### Integration Test
1. Start NanoClaw in dev mode: `pnpm run dev`
2. From the **main group** (self-chat), send exactly: `/compact`
3. Verify:
- The agent acknowledges compaction (e.g., "Conversation compacted.")
- The session continues — send a follow-up message and verify the agent responds coherently
- A conversation archive is written to `groups/{folder}/conversations/` (by the PreCompact hook)
- Container logs show `Compact boundary observed` (confirms SDK actually compacted)
- If `compact_boundary` was NOT observed, the response says "compact_boundary was not observed"
4. From a **non-main group** as a non-admin user, send: `@<assistant> /compact`
5. Verify:
- The bot responds with "Session commands require admin access."
- No compaction occurs, no container is spawned for the command
6. From a **non-main group** as the admin (device owner / `is_from_me`), send: `@<assistant> /compact`
7. Verify:
- Compaction proceeds normally (same behavior as main group)
8. While an **active container** is running for the main group, send `/compact`
9. Verify:
- The active container is signaled to close (authorized senders only — untrusted senders cannot kill in-flight work)
- Compaction proceeds via a new container once the active one exits
- The command is not dropped (no cursor race)
10. Send a normal message, then `/compact`, then another normal message in quick succession (same polling batch):
11. Verify:
- Pre-compact messages are sent to the agent first (check container logs for two `runAgent` calls)
- Compaction proceeds after pre-compact messages are processed
- Messages **after** `/compact` in the batch are preserved (cursor advances to `/compact`'s timestamp only) and processed on the next poll cycle
12. From a **non-main group** as a non-admin user, send `@<assistant> /compact`:
13. Verify:
- Denial message is sent ("Session commands require admin access.")
- The `/compact` is consumed (cursor advanced) — it does NOT replay on future polls
- Other messages in the same batch are also consumed (cursor is a high-water mark — this is an accepted tradeoff for the narrow edge case of denied `/compact` + other messages in the same polling interval)
- No container is killed or interrupted
14. From a **non-main group** (with `requiresTrigger` enabled) as a non-admin user, send bare `/compact` (no trigger prefix):
15. Verify:
- No denial message is sent (trigger policy prevents untrusted bot responses)
- The `/compact` is consumed silently
- Note: in groups where `requiresTrigger` is `false`, a denial message IS sent because the sender is considered reachable
16. After compaction, verify **no auto-compaction** behavior — only manual `/compact` triggers it
### Validation on Fresh Clone
```bash
git clone <your-fork> /tmp/nanoclaw-test
cd /tmp/nanoclaw-test
claude # then run /add-compact
pnpm run build
pnpm test
./container/build.sh
# Manual: send /compact from main group, verify compaction + continuation
# Manual: send @<assistant> /compact from non-main as non-admin, verify denial
# Manual: send @<assistant> /compact from non-main as admin, verify allowed
# Manual: verify no auto-compaction behavior
```
## Security Constraints
- **Main-group or trusted/admin sender only.** The main group is the user's private self-chat and is trusted (see `docs/SECURITY.md`). Non-main groups are untrusted — a careless or malicious user could wipe the agent's short-term memory. However, the device owner (`is_from_me`) is always trusted and can compact from any group.
- **No auto-compaction.** This skill implements manual compaction only. Automatic threshold-based compaction is a separate concern and should be a separate skill.
- **No config file.** NanoClaw's philosophy is customization through code changes, not configuration sprawl.
- **Transcript archived before compaction.** The existing `PreCompact` hook in the agent-runner archives the full transcript to `conversations/` before the SDK compacts it.
- **Session continues after compaction.** This is not a destructive reset. The conversation continues with summarized context.
## What This Does NOT Do
- No automatic compaction threshold (add separately if desired)
- No `/clear` command (separate skill, separate semantics — `/clear` is a destructive reset)
- No cross-group compaction (each group's session is isolated)
- No changes to the container image, Dockerfile, or build script
## Troubleshooting
- **"Session commands require admin access"**: Only the device owner (`is_from_me`) or main-group senders can use `/compact`. Other users are denied.
- **No compact_boundary in logs**: The SDK may not emit this event in all versions. Check the agent-runner logs for the warning message. Compaction may still have succeeded.
- **Pre-compact failure**: If messages before `/compact` fail to process, the error message says "Failed to process messages before /compact." The cursor advances past sent output to prevent duplicates; `/compact` remains pending for the next attempt.
+4 -7
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@@ -1,6 +1,6 @@
---
name: add-dashboard
description: Add a monitoring dashboard to NanoClaw. Installs @nanoco/nanoclaw-dashboard and a pusher that sends periodic JSON snapshots.
description: Add a monitoring dashboard to NanoClaw v2. Installs @nanoco/nanoclaw-dashboard and a pusher that sends periodic JSON snapshots.
---
# /add-dashboard — NanoClaw Dashboard
@@ -65,7 +65,7 @@ Add the `readEnvFile` import at the top if not already present:
import { readEnvFile } from './env.js';
```
Add after step 7 (OneCLI approval handler), before the `log.info('NanoClaw running')` line:
Add after step 7 (OneCLI approval handler), before the `log.info('NanoClaw v2 running')` line:
```typescript
// 8. Dashboard (optional)
@@ -93,13 +93,10 @@ Generate the secret: `node -e "console.log('nc-' + require('crypto').randomBytes
### 6. Build and restart
Run from your NanoClaw project root:
```bash
pnpm run build
source setup/lib/install-slug.sh
systemctl --user restart $(systemd_unit) # Linux
# or: launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
systemctl --user restart nanoclaw # Linux
# or: launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
```
### 7. Verify
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@@ -1,65 +0,0 @@
# Remove DeltaChat
## 1. Disable the adapter
Comment out the import in `src/channels/index.ts`:
```typescript
// import './deltachat.js';
```
## 2. Remove credentials
Remove the `DC_*` lines from `.env`:
```bash
DC_EMAIL
DC_PASSWORD
DC_IMAP_HOST
DC_IMAP_PORT
DC_SMTP_HOST
DC_SMTP_PORT
```
## 3. Rebuild and restart
Run from your NanoClaw project root:
```bash
pnpm run build
source setup/lib/install-slug.sh
# Linux
systemctl --user restart $(systemd_unit)
# macOS
launchctl kickstart -k gui/$(id -u)/$(launchd_label)
```
## 4. Remove account data (optional)
To fully remove all account data including DeltaChat encryption keys:
```bash
rm -rf dc-account/
```
> **Warning:** This deletes the Autocrypt keys. Contacts who have verified your bot's key will need to re-verify if the same email address is re-used with a new account.
To keep the account for later reinstall, leave `dc-account/` intact.
## 5. Remove the package (optional)
```bash
pnpm remove @deltachat/stdio-rpc-server
```
## Verification
After removal, confirm the adapter is no longer starting:
```bash
grep "deltachat" logs/nanoclaw.log | tail -5
```
Expected: no `Channel adapter started` entry after the last restart.
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@@ -1,258 +0,0 @@
---
name: add-deltachat
description: Add DeltaChat channel integration via @deltachat/stdio-rpc-server. Native adapter — no Chat SDK bridge. Email-based messaging with end-to-end encryption.
---
# Add DeltaChat Channel
The adapter drives the `@deltachat/stdio-rpc-server` JSON-RPC subprocess directly — pure Node.js against the DeltaChat core library. Messages are delivered over email with Autocrypt/OpenPGP encryption.
## Install
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/deltachat.ts` exists
- `src/channels/index.ts` contains `import './deltachat.js';`
- `@deltachat/stdio-rpc-server` is listed in `package.json` dependencies
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
```
### 2. Copy the adapter
```bash
git show origin/channels:src/channels/deltachat.ts > src/channels/deltachat.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if already present):
```typescript
import './deltachat.js';
```
### 4. Install the adapter package (pinned)
```bash
pnpm install @deltachat/stdio-rpc-server@2.49.0
```
### 5. Build
```bash
pnpm run build
```
## Account Setup
A dedicated email account is strongly recommended — it will accumulate DeltaChat-formatted messages and store encryption keys. Not all providers work well with DeltaChat; check https://providers.delta.chat/ before picking one.
**Default security modes:** IMAP uses SSL/TLS (port 993), SMTP uses STARTTLS (port 587). Both are configurable via `.env` — see Credentials below.
To find the correct hostnames for a domain:
```bash
node -e "require('dns').resolveMx('example.com', (e,r) => console.log(r))"
```
Most providers publish their IMAP/SMTP hostnames in their help docs under "manual setup" or "IMAP access."
## Credentials
Add to `.env`:
```bash
DC_EMAIL=bot@example.com
DC_PASSWORD=your-app-password
DC_IMAP_HOST=imap.example.com
DC_IMAP_PORT=993
DC_IMAP_SECURITY=1 # 1=SSL/TLS (default), 2=STARTTLS, 3=plain
DC_SMTP_HOST=smtp.example.com
DC_SMTP_PORT=587
DC_SMTP_SECURITY=2 # 2=STARTTLS (default), 1=SSL/TLS, 3=plain
```
Security settings are applied on every startup, so changing them in `.env` and restarting takes effect without wiping the account.
Sync to container: `mkdir -p data/env && cp .env data/env/env`
### Optional settings
The following are read from the process environment (not `.env`). To override them, add `Environment=` lines to the systemd service unit or your launchd plist:
| Variable | Default | Description |
|----------|---------|-------------|
| `DC_ACCOUNT_DIR` | `dc-account` | Directory for DeltaChat account data (IMAP state, keys, blobs) |
| `DC_DISPLAY_NAME` | `NanoClaw` | Bot display name shown in DeltaChat |
| `DC_AVATAR_PATH` | _(none)_ | Absolute path to avatar image; set at startup only |
The `/set-avatar` command (send an image with that caption) is the easiest way to set the avatar at runtime without modifying the service file. Only users with `owner` or global `admin` role can use it.
### Restart
Run from your NanoClaw project root:
```bash
source setup/lib/install-slug.sh
# Linux
systemctl --user restart $(systemd_unit)
# macOS
launchctl kickstart -k gui/$(id -u)/$(launchd_label)
```
On first start the adapter configures the email account (IMAP/SMTP credentials, calls `configure()`). Subsequent starts skip straight to `startIo()`. Account data is stored in `dc-account/` in the project root (or your `DC_ACCOUNT_DIR`).
## Wiring
### DMs
**DeltaChat contacts cannot be added by email alone** — to start a chat, the user must open the bot's invite link in their DeltaChat app or scan its QR code. This triggers the SecureJoin handshake.
#### Step 1 — Get the invite link
After the service starts, the adapter logs the invite URL and writes a QR SVG:
```bash
grep "invite link" logs/nanoclaw.log | tail -1
# url field contains the https://i.delta.chat/... invite link
# also written to dc-account/invite-qr.svg (or $DC_ACCOUNT_DIR/invite-qr.svg)
```
The invite URL is stable (tied to the bot's email and encryption keys) so it stays valid across restarts.
#### Step 2 — Add the bot in DeltaChat
Two options for the user to connect:
- **Link**: Copy the `https://i.delta.chat/...` URL and open it on the device running DeltaChat. The app recognises it and shows a "Start chat" prompt.
- **QR code**: Open `dc-account/invite-qr.svg` in a browser or image viewer, display it on screen, and scan it from the DeltaChat app using the QR-scan button on the new-chat screen.
After accepting, DeltaChat exchanges keys and creates the chat automatically.
#### Step 3 — Wire the chat to an agent
Once the first message arrives the router auto-creates a `messaging_groups` row. Look up the chat ID:
```bash
pnpm exec tsx scripts/q.ts data/v2.db \
"SELECT platform_id, name FROM messaging_groups WHERE channel_type='deltachat' AND is_group=0 ORDER BY created_at DESC LIMIT 5"
```
Then run `/init-first-agent` — it creates the agent group, grants the user owner access, and wires the messaging group in one step:
```bash
pnpm exec tsx scripts/init-first-agent.ts \
--channel deltachat \
--user-id deltachat:user@example.com \
--platform-id <platform_id from above> \
--display-name "Your Name"
```
### Groups
Add the bot email to a DeltaChat group. When any member sends a message, the router creates a `messaging_groups` row with `is_group = 1`. Run `/manage-channels` to wire it to an agent group.
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, run `/init-first-agent` to create an agent and wire it to your DeltaChat DM (see Wiring above), or `/manage-channels` to wire this channel to an existing agent group.
## Channel Info
- **type**: `deltachat`
- **terminology**: DeltaChat calls them "chats" (1:1 DMs) and "groups"
- **supports-threads**: no — DeltaChat has no thread model
- **platform-id-format**: numeric chat ID as a string (e.g. `"12"`) — the DeltaChat core's internal chat identifier
- **user-id-format**: `deltachat:{email}` — the contact's email address
- **how-to-find-id**: Send a message from DeltaChat to the bot email, then query `messaging_groups` as shown above
- **typical-use**: Personal assistant over DeltaChat DMs; small groups where participants use DeltaChat
- **default-isolation**: One agent per bot identity. Multiple chats with the same operator can share an agent group; groups with other people should typically use `isolated` session mode
### Features
- File attachments — inbound and outbound; inbound waits up to 30 seconds for large-message download to complete
- Invite link logged on every startup — URL + QR SVG written to `dc-account/invite-qr.svg`; see Wiring for the bootstrap flow
- `/set-avatar` — send an image with this caption to change the bot's DeltaChat avatar (admin/owner only)
- Connectivity watchdog — restarts IO if IMAP goes quiet for 20 minutes or connectivity drops below threshold for two consecutive 5-minute checks
- Network nudge — `maybeNetwork()` called every 10 minutes to recover from prolonged idle
Not supported: DeltaChat reactions, message editing/deletion, read receipts.
### Connectivity model
`isConnected()` returns `true` when the internal connectivity value is ≥ 3000:
| Range | Meaning |
|-------|---------|
| 10001999 | Not connected |
| 20002999 | Connecting |
| 30003999 | Working (IMAP fetching) |
| ≥ 4000 | Fully connected (IMAP IDLE) |
## Troubleshooting
### Adapter not starting — credentials missing
```bash
grep "Channel credentials missing" logs/nanoclaw.log | grep deltachat
```
All six required vars (`DC_EMAIL`, `DC_PASSWORD`, `DC_IMAP_HOST`, `DC_IMAP_PORT`, `DC_SMTP_HOST`, `DC_SMTP_PORT`) must be present in `.env`.
### Account configure fails
```bash
grep "DeltaChat" logs/nanoclaw.log | tail -20
```
Common causes:
- Wrong IMAP/SMTP hostnames — double-check provider docs
- App password not generated — Gmail and some others require this when 2FA is enabled
- Port/security mismatch — defaults are port 993 + SSL/TLS for IMAP and port 587 + STARTTLS for SMTP; override with `DC_IMAP_PORT`/`DC_IMAP_SECURITY` or `DC_SMTP_PORT`/`DC_SMTP_SECURITY` in `.env`
### Provider uses SMTP port 465 (SSL/TLS) instead of 587
Set `DC_SMTP_SECURITY=1` and `DC_SMTP_PORT=465` in `.env`, then restart.
### Messages not arriving
1. Check the service is running and the adapter started: `grep "Channel adapter started.*deltachat" logs/nanoclaw.log`
2. Check connectivity: `grep "DeltaChat: IO started" logs/nanoclaw.log`
3. Check the sender has been granted access — run `/init-first-agent` to create their user record and wire the chat
4. Verify the messaging group is wired: `pnpm exec tsx scripts/q.ts data/v2.db "SELECT mg.platform_id, mga.agent_group_id FROM messaging_groups mg JOIN messaging_group_agents mga ON mg.id = mga.messaging_group_id WHERE mg.channel_type='deltachat'"`
### Stale lock file after crash
```bash
rm -f dc-account/accounts.lock
systemctl --user restart "$(. setup/lib/install-slug.sh && systemd_unit)"
```
### Bot not responding after restart
The account is already configured — IO restarts automatically on service start. If the RPC subprocess is stuck, restart the service. Check for errors:
```bash
grep "DeltaChat" logs/nanoclaw.error.log | tail -20
```
### Messages received but agent not responding
The messaging group exists but may not be wired to an agent group. Run:
```bash
pnpm exec tsx scripts/q.ts data/v2.db "SELECT id, platform_id, name FROM messaging_groups WHERE channel_type='deltachat'"
```
If the group has no entry in `messaging_group_agents`, wire it with `/manage-channels`.
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@@ -1,54 +0,0 @@
# Verify DeltaChat
## 1. Check the adapter started
```bash
grep "Channel adapter started.*deltachat" logs/nanoclaw.log | tail -1
```
Expected: `Channel adapter started { channel: 'deltachat', type: 'deltachat' }`
## 2. Check IMAP/SMTP connectivity
Replace with your provider's hostnames from `.env`:
```bash
DC_IMAP=$(grep '^DC_IMAP_HOST=' .env | cut -d= -f2)
DC_SMTP=$(grep '^DC_SMTP_HOST=' .env | cut -d= -f2)
bash -c "echo >/dev/tcp/$DC_IMAP/993" && echo "IMAP open" || echo "IMAP blocked"
bash -c "echo >/dev/tcp/$DC_SMTP/587" && echo "SMTP open" || echo "SMTP blocked"
```
## 3. End-to-end message test
1. Open DeltaChat on your device
2. Add the bot email address as a contact
3. Send a message
4. The bot should respond within a few seconds
If nothing arrives, check:
```bash
grep "DeltaChat" logs/nanoclaw.log | tail -20
grep "DeltaChat" logs/nanoclaw.error.log | tail -10
```
## 4. Check messaging group was created
```bash
pnpm exec tsx scripts/q.ts data/v2.db \
"SELECT id, platform_id, name FROM messaging_groups WHERE channel_type='deltachat' ORDER BY created_at DESC LIMIT 5"
```
If a row appears, the inbound routing is working. If not, the adapter isn't receiving the message — check logs for `DeltaChat: error handling incoming message`.
## 5. Verify user access
If the message arrived but the agent didn't respond, the sender may not have access:
```bash
pnpm exec tsx scripts/q.ts data/v2.db "SELECT id, display_name FROM users WHERE id LIKE 'deltachat:%'"
```
Grant access as shown in the SKILL.md "Grant user access" section.
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@@ -0,0 +1,74 @@
---
name: add-discord-v2
description: Add Discord bot channel integration to NanoClaw v2 via Chat SDK.
---
# Add Discord Channel
Adds Discord bot support to NanoClaw v2. Discord is built in — no adapter package to install.
## Pre-flight
Check if `src/channels/discord.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
Discord support is bundled with NanoClaw — there is no separate package to install.
### Enable the channel
Uncomment the Discord import in `src/channels/index.ts`:
```typescript
import './discord.js';
```
### Build
```bash
pnpm run build
```
## Credentials
### Create Discord Bot
1. Go to the [Discord Developer Portal](https://discord.com/developers/applications)
2. Click **New Application** and give it a name (e.g., "NanoClaw Assistant")
3. From the **General Information** tab, copy the **Application ID** and **Public Key**
4. Go to the **Bot** tab and click **Add Bot** if needed
5. Copy the Bot Token (click **Reset Token** if you need a new one — you can only see it once)
6. Under **Privileged Gateway Intents**, enable **Message Content Intent**
7. Go to **OAuth2** > **URL Generator**:
- Scopes: select `bot`
- Bot Permissions: select `Send Messages`, `Read Message History`, `Add Reactions`, `Attach Files`, `Use Slash Commands`
8. Copy the generated URL and open it in your browser to invite the bot to your server
### Configure environment
All three values are required — the adapter will fail to start without `DISCORD_PUBLIC_KEY` and `DISCORD_APPLICATION_ID`.
Add to `.env`:
```bash
DISCORD_BOT_TOKEN=your-bot-token
DISCORD_APPLICATION_ID=your-application-id
DISCORD_PUBLIC_KEY=your-public-key
```
Sync to container: `mkdir -p data/env && cp .env data/env/env`
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, run `/manage-channels` to wire this channel to an agent group.
## Channel Info
- **type**: `discord`
- **terminology**: Discord has "servers" (also called "guilds") containing "channels." Text channels start with #. The bot can also receive direct messages.
- **how-to-find-id**: Enable Developer Mode in Discord (Settings > App Settings > Advanced > Developer Mode). Then right-click a server and select "Copy Server ID" for the guild ID, and right-click the text channel and select "Copy Channel ID." The platform ID format used in registration is `discord:{guildId}:{channelId}` — both IDs are required.
- **supports-threads**: yes
- **typical-use**: Interactive chat — server channels or direct messages
- **default-isolation**: Same agent group for your personal server. Separate agent group for servers with different communities or where different members have different information boundaries.
+158 -53
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@@ -1,98 +1,203 @@
---
name: add-discord
description: Add Discord bot channel integration via Chat SDK.
description: Add Discord bot channel integration to NanoClaw.
---
# Add Discord Channel
Adds Discord bot support via the Chat SDK bridge.
This skill adds Discord support to NanoClaw, then walks through interactive setup.
## Install
## Phase 1: Pre-flight
NanoClaw doesn't ship channels in trunk. This skill copies the Discord adapter in from the `channels` branch.
### Check if already applied
### Pre-flight (idempotent)
Check if `src/channels/discord.ts` exists. If it does, skip to Phase 3 (Setup). The code changes are already in place.
Skip to **Credentials** if all of these are already in place:
### Ask the user
- `src/channels/discord.ts` exists
- `src/channels/index.ts` contains `import './discord.js';`
- `@chat-adapter/discord` is listed in `package.json` dependencies
Use `AskUserQuestion` to collect configuration:
Otherwise continue. Every step below is safe to re-run.
AskUserQuestion: Do you have a Discord bot token, or do you need to create one?
### 1. Fetch the channels branch
If they have one, collect it now. If not, we'll create one in Phase 3.
## Phase 2: Apply Code Changes
### Ensure channel remote
```bash
git fetch origin channels
git remote -v
```
### 2. Copy the adapter
If `discord` is missing, add it:
```bash
git show origin/channels:src/channels/discord.ts > src/channels/discord.ts
git remote add discord https://github.com/qwibitai/nanoclaw-discord.git
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
```typescript
import './discord.js';
```
### 4. Install the adapter package (pinned)
### Merge the skill branch
```bash
pnpm install @chat-adapter/discord@4.27.0
git fetch discord main
git merge discord/main || {
git checkout --theirs pnpm-lock.yaml
git add pnpm-lock.yaml
git merge --continue
}
```
### 5. Build
This merges in:
- `src/channels/discord.ts` (DiscordChannel class with self-registration via `registerChannel`)
- `src/channels/discord.test.ts` (unit tests with discord.js mock)
- `import './discord.js'` appended to the channel barrel file `src/channels/index.ts`
- `discord.js` npm dependency in `package.json`
- `DISCORD_BOT_TOKEN` in `.env.example`
If the merge reports conflicts, resolve them by reading the conflicted files and understanding the intent of both sides.
### Validate code changes
```bash
pnpm install
pnpm run build
pnpm exec vitest run src/channels/discord.test.ts
```
## Credentials
All tests must pass (including the new Discord tests) and build must be clean before proceeding.
### Create Discord Bot
## Phase 3: Setup
1. Go to the [Discord Developer Portal](https://discord.com/developers/applications)
2. Click **New Application** and give it a name (e.g., "NanoClaw Assistant")
3. From the **General Information** tab, copy the **Application ID** and **Public Key**
4. Go to the **Bot** tab and click **Add Bot** if needed
5. Copy the Bot Token (click **Reset Token** if you need a new one — you can only see it once)
6. Under **Privileged Gateway Intents**, enable **Message Content Intent**
7. Go to **OAuth2** > **URL Generator**:
- Scopes: select `bot`
- Bot Permissions: select `Send Messages`, `Read Message History`, `Add Reactions`, `Attach Files`, `Use Slash Commands`
8. Copy the generated URL and open it in your browser to invite the bot to your server
### Create Discord Bot (if needed)
If the user doesn't have a bot token, tell them:
> I need you to create a Discord bot:
>
> 1. Go to the [Discord Developer Portal](https://discord.com/developers/applications)
> 2. Click **New Application** and give it a name (e.g., "Andy Assistant")
> 3. Go to the **Bot** tab on the left sidebar
> 4. Click **Reset Token** to generate a new bot token — copy it immediately (you can only see it once)
> 5. Under **Privileged Gateway Intents**, enable:
> - **Message Content Intent** (required to read message text)
> - **Server Members Intent** (optional, for member display names)
> 6. Go to **OAuth2** > **URL Generator**:
> - Scopes: select `bot`
> - Bot Permissions: select `Send Messages`, `Read Message History`, `View Channels`
> - Copy the generated URL and open it in your browser to invite the bot to your server
Wait for the user to provide the token.
### Configure environment
All three values are required — the adapter will fail to start without `DISCORD_PUBLIC_KEY` and `DISCORD_APPLICATION_ID`.
Add to `.env`:
```bash
DISCORD_BOT_TOKEN=your-bot-token
DISCORD_APPLICATION_ID=your-application-id
DISCORD_PUBLIC_KEY=your-public-key
DISCORD_BOT_TOKEN=<their-token>
```
Sync to container: `mkdir -p data/env && cp .env data/env/env`
Channels auto-enable when their credentials are present — no extra configuration needed.
## Next Steps
Sync to container environment:
If you're in the middle of `/setup`, return to the setup flow now.
```bash
mkdir -p data/env && cp .env data/env/env
```
Otherwise, run `/manage-channels` to wire this channel to an agent group.
The container reads environment from `data/env/env`, not `.env` directly.
## Channel Info
### Build and restart
- **type**: `discord`
- **terminology**: Discord has "servers" (also called "guilds") containing "channels." Text channels start with #. The bot can also receive direct messages.
- **how-to-find-id**: Enable Developer Mode in Discord (Settings > App Settings > Advanced > Developer Mode). Then right-click a server and select "Copy Server ID" for the guild ID, and right-click the text channel and select "Copy Channel ID." The platform ID format used in registration is `discord:{guildId}:{channelId}` — both IDs are required.
- **supports-threads**: yes
- **typical-use**: Interactive chat — server channels or direct messages
- **default-isolation**: Same agent group for your personal server. Separate agent group for servers with different communities or where different members have different information boundaries.
```bash
pnpm run build
launchctl kickstart -k gui/$(id -u)/com.nanoclaw
```
## Phase 4: Registration
### Get Channel ID
Tell the user:
> To get the channel ID for registration:
>
> 1. In Discord, go to **User Settings** > **Advanced** > Enable **Developer Mode**
> 2. Right-click the text channel you want the bot to respond in
> 3. Click **Copy Channel ID**
>
> The channel ID will be a long number like `1234567890123456`.
Wait for the user to provide the channel ID (format: `dc:1234567890123456`).
### Register the channel
The channel ID, name, and folder name are needed. Use `pnpm exec tsx setup/index.ts --step register` with the appropriate flags.
For a main channel (responds to all messages):
```bash
pnpm exec tsx setup/index.ts --step register -- --jid "dc:<channel-id>" --name "<server-name> #<channel-name>" --folder "discord_main" --trigger "@${ASSISTANT_NAME}" --channel discord --no-trigger-required --is-main
```
For additional channels (trigger-only):
```bash
pnpm exec tsx setup/index.ts --step register -- --jid "dc:<channel-id>" --name "<server-name> #<channel-name>" --folder "discord_<channel-name>" --trigger "@${ASSISTANT_NAME}" --channel discord
```
## Phase 5: Verify
### Test the connection
Tell the user:
> Send a message in your registered Discord channel:
> - For main channel: Any message works
> - For non-main: @mention the bot in Discord
>
> The bot should respond within a few seconds.
### Check logs if needed
```bash
tail -f logs/nanoclaw.log
```
## Troubleshooting
### Bot not responding
1. Check `DISCORD_BOT_TOKEN` is set in `.env` AND synced to `data/env/env`
2. Check channel is registered: `sqlite3 store/messages.db "SELECT * FROM registered_groups WHERE jid LIKE 'dc:%'"`
3. For non-main channels: message must include trigger pattern (@mention the bot)
4. Service is running: `launchctl list | grep nanoclaw`
5. Verify the bot has been invited to the server (check OAuth2 URL was used)
### Bot only responds to @mentions
This is the default behavior for non-main channels (`requiresTrigger: true`). To change:
- Update the registered group's `requiresTrigger` to `false`
- Or register the channel as the main channel
### Message Content Intent not enabled
If the bot connects but can't read messages, ensure:
1. Go to [Discord Developer Portal](https://discord.com/developers/applications)
2. Select your application > **Bot** tab
3. Under **Privileged Gateway Intents**, enable **Message Content Intent**
4. Restart NanoClaw
### Getting Channel ID
If you can't copy the channel ID:
- Ensure **Developer Mode** is enabled: User Settings > Advanced > Developer Mode
- Right-click the channel name in the server sidebar > Copy Channel ID
## After Setup
The Discord bot supports:
- Text messages in registered channels
- Attachment descriptions (images, videos, files shown as placeholders)
- Reply context (shows who the user is replying to)
- @mention translation (Discord `<@botId>` → NanoClaw trigger format)
- Message splitting for responses over 2000 characters
- Typing indicators while the agent processes
+127 -140
View File
@@ -1,11 +1,12 @@
---
name: add-emacs
description: Add Emacs as a channel. Opens an interactive chat buffer and org-mode integration so you can talk to NanoClaw from within Emacs (Doom, Spacemacs, or vanilla). Local HTTP bridge — no bot token or external service needed.
description: Add Emacs as a channel. Opens an interactive chat buffer and org-mode integration so you can talk to NanoClaw from within Emacs (Doom, Spacemacs, or vanilla). Uses a local HTTP bridge — no bot token or external service needed.
---
# Add Emacs Channel
Adds Emacs support via a local HTTP bridge. Works with Doom Emacs, Spacemacs, and vanilla Emacs 27.1+.
This skill adds Emacs support to NanoClaw, then walks through interactive setup.
Works with Doom Emacs, Spacemacs, and vanilla Emacs 27.1+.
## What you can do with this
@@ -14,99 +15,95 @@ Adds Emacs support via a local HTTP bridge. Works with Doom Emacs, Spacemacs, an
- **Meeting notes** — send an org agenda entry; get a summary or action item list back as a child node
- **Draft writing** — send org prose; receive revisions or continuations in place
- **Research capture** — ask a question directly in your org notes; the answer lands exactly where you need it
- **Schedule tasks** — ask Andy to set a reminder or create a scheduled NanoClaw task (e.g. "remind me tomorrow to review the PR")
## Install
## Phase 1: Pre-flight
NanoClaw doesn't ship channels in trunk. This skill copies the Emacs adapter and the Lisp client in from the `channels` branch. Native HTTP bridge — no Chat SDK, no adapter package.
### Check if already applied
### Pre-flight (idempotent)
Skip to **Enable** if all of these are already in place:
- `src/channels/emacs.ts` exists
- `emacs/nanoclaw.el` exists
- `src/channels/index.ts` contains `import './emacs.js';`
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
Check if `src/channels/emacs.ts` exists:
```bash
git fetch origin channels
test -f src/channels/emacs.ts && echo "already applied" || echo "not applied"
```
### 2. Copy the adapter and Lisp client
If it exists, skip to Phase 3 (Setup). The code changes are already in place.
## Phase 2: Apply Code Changes
### Ensure the upstream remote
```bash
mkdir -p emacs
git show origin/channels:src/channels/emacs.ts > src/channels/emacs.ts
git show origin/channels:src/channels/emacs.test.ts > src/channels/emacs.test.ts
git show origin/channels:emacs/nanoclaw.el > emacs/nanoclaw.el
git remote -v
```
### 3. Append the self-registration import
If an `upstream` remote pointing to `https://github.com/qwibitai/nanoclaw.git` is missing,
add it:
Append to `src/channels/index.ts` (skip if the line is already present):
```typescript
import './emacs.js';
```bash
git remote add upstream https://github.com/qwibitai/nanoclaw.git
```
### 4. Build
### Merge the skill branch
```bash
git fetch upstream skill/emacs
git merge upstream/skill/emacs
```
If there are merge conflicts on `pnpm-lock.yaml`, resolve them by accepting the incoming
version and continuing:
```bash
git checkout --theirs pnpm-lock.yaml
git add pnpm-lock.yaml
git merge --continue
```
For any other conflict, read the conflicted file and reconcile both sides manually.
This adds:
- `src/channels/emacs.ts``EmacsBridgeChannel` HTTP server (port 8766)
- `src/channels/emacs.test.ts` — unit tests
- `emacs/nanoclaw.el` — Emacs Lisp package (`nanoclaw-chat`, `nanoclaw-org-send`)
- `import './emacs.js'` appended to `src/channels/index.ts`
If the merge reports conflicts, resolve them by reading the conflicted files and understanding the intent of both sides.
### Validate code changes
```bash
pnpm run build
pnpm exec vitest run src/channels/emacs.test.ts
```
No npm package to install — the adapter uses only Node builtins (`http`).
Build must be clean and tests must pass before proceeding.
## Enable
## Phase 3: Setup
The adapter is gated by `EMACS_ENABLED` so the HTTP port isn't opened on hosts that aren't running Emacs. Add to `.env`:
### Configure environment (optional)
The channel works out of the box with defaults. Add to `.env` only if you need non-defaults:
```bash
EMACS_ENABLED=true
EMACS_CHANNEL_PORT=8766 # optional — change only if 8766 is taken
EMACS_AUTH_TOKEN= # optional — set to a random string to lock the endpoint
EMACS_PLATFORM_ID=default # optional — only change if you want a non-default chat id
EMACS_CHANNEL_PORT=8766 # default — change if 8766 is already in use
EMACS_AUTH_TOKEN=<random> # optional — locks the endpoint to Emacs only
```
Generate an auth token (recommended even on single-user machines — prevents other local processes from poking the endpoint):
If you change or add values, sync to the container environment:
```bash
node -e "console.log(require('crypto').randomBytes(16).toString('hex'))"
mkdir -p data/env && cp .env data/env/env
```
## Wire the channel
### Configure Emacs
Emacs is a single-user, single-chat channel. One host = one messaging group with `platform_id = "default"`.
### If this is your first agent group
Run `/init-first-agent` — pick **Emacs** as the channel, use any short handle as the "user id" (e.g. your OS username), and the skill will create the agent group, wire the channel, and write a welcome message that the agent delivers back to your Emacs buffer.
### Otherwise — wire to an existing agent group
Run the `register` step directly. The `EMACS_PLATFORM_ID` (default `default`) becomes the messaging group's platform id:
```bash
pnpm exec tsx setup/index.ts --step register -- \
--platform-id "default" --name "Emacs" \
--folder "<existing-folder>" --channel "emacs" \
--session-mode "agent-shared" \
--assistant-name "<existing-assistant-name>"
```
`agent-shared` puts Emacs messages in the same session as any other channel wired to the same agent group — so a conversation you started in Telegram continues in Emacs. Use `shared` to keep an independent Emacs thread with the same workspace, or a new `--folder` for a dedicated Emacs-only agent.
## Configure Emacs
`nanoclaw.el` needs only Emacs 27.1+ builtins (`url`, `json`, `org`) — no package manager.
The `nanoclaw.el` package requires only Emacs 27.1+ built-in libraries (`url`, `json`, `org`) — no package manager setup needed.
AskUserQuestion: Which Emacs distribution are you using?
- **Doom Emacs** `config.el` with `map!` keybindings
- **Spacemacs** `dotspacemacs/user-config` in `~/.spacemacs`
- **Vanilla Emacs / other** `init.el` with `global-set-key`
- **Doom Emacs** - config.el with map! keybindings
- **Spacemacs** - dotspacemacs/user-config in ~/.spacemacs
- **Vanilla Emacs / other** - init.el with global-set-key
**Doom Emacs** — add to `~/.config/doom/config.el` (or `~/.doom.d/config.el`):
@@ -120,7 +117,7 @@ AskUserQuestion: Which Emacs distribution are you using?
:desc "Send org" "o" #'nanoclaw-org-send)
```
Reload: `M-x doom/reload`
Then reload: `M-x doom/reload`
**Spacemacs** — add to `dotspacemacs/user-config` in `~/.spacemacs`:
@@ -132,9 +129,9 @@ Reload: `M-x doom/reload`
(spacemacs/set-leader-keys "aNo" #'nanoclaw-org-send)
```
Reload: `M-x dotspacemacs/sync-configuration-layers` or restart Emacs.
Then reload: `M-x dotspacemacs/sync-configuration-layers` or restart Emacs.
**Vanilla Emacs** — add to `~/.emacs.d/init.el`:
**Vanilla Emacs** — add to `~/.emacs.d/init.el` (or `~/.emacs`):
```elisp
;; NanoClaw — personal AI assistant channel
@@ -144,78 +141,61 @@ Reload: `M-x dotspacemacs/sync-configuration-layers` or restart Emacs.
(global-set-key (kbd "C-c n o") #'nanoclaw-org-send)
```
Reload: `M-x eval-buffer` or restart Emacs.
Then reload: `M-x eval-buffer` or restart Emacs.
Replace `~/src/nanoclaw/emacs/nanoclaw.el` with your actual NanoClaw checkout path.
If `EMACS_AUTH_TOKEN` is set, also add (any distribution):
If `EMACS_AUTH_TOKEN` was set, also add (any distribution):
```elisp
(setq nanoclaw-auth-token "<your-token>")
```
If you changed `EMACS_CHANNEL_PORT` from the default:
If `EMACS_CHANNEL_PORT` was changed from the default, also add:
```elisp
(setq nanoclaw-port <your-port>)
```
## Restart NanoClaw
Run from your NanoClaw project root:
### Restart NanoClaw
```bash
pnpm run build
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
# systemctl --user restart $(systemd_unit) # Linux
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
```
## Verify
## Phase 4: Verify
### HTTP endpoint
### Test the HTTP endpoint
```bash
curl -s http://localhost:8766/api/messages?since=0
curl -s "http://localhost:8766/api/messages?since=0"
```
Expected: `{"messages":[]}`. With an auth token:
Expected: `{"messages":[]}`
If you set `EMACS_AUTH_TOKEN`:
```bash
curl -s -H "Authorization: Bearer <token>" http://localhost:8766/api/messages?since=0
curl -s -H "Authorization: Bearer <token>" "http://localhost:8766/api/messages?since=0"
```
### From Emacs
### Test from Emacs
Tell the user:
> 1. Open the chat buffer with your keybinding (`SPC N c`, `SPC a N c`, or `C-c n c`)
> 2. Type a message and press `C-c C-c` to send (RET inserts newlines)
> 3. A response should appear within a few seconds
> 2. Type a message and press `RET`
> 3. A response from Andy should appear within a few seconds
>
> For org-mode: open any `.org` file, position the cursor on a heading, and use `SPC N o` / `SPC a N o` / `C-c n o`
### Log line
### Check logs if needed
`tail -f logs/nanoclaw.log` should show `Emacs channel listening` at startup.
```bash
tail -f logs/nanoclaw.log
```
## Channel Info
- **type**: `emacs`
- **terminology**: Single local buffer. There are no "groups" or separate chats — one host = one chat, addressed by a `platform_id` string (default `default`).
- **how-to-find-id**: The platform id is whatever you set in `EMACS_PLATFORM_ID` (default `default`). User handles are arbitrary; your OS username or first name is fine (e.g. `emacs:<username>`).
- **supports-threads**: no
- **typical-use**: Single developer talking to the assistant from within Emacs, alongside whatever other channel they use (Slack, Telegram, Discord).
- **default-isolation**: Same agent group as the primary DM, with `session-mode = agent-shared` so a conversation started elsewhere continues in Emacs. Pick a separate folder only if you specifically want an Emacs-only persona.
### Features
- Interactive chat buffer (`nanoclaw-chat`) with markdown → org-mode rendering
- Org integration (`nanoclaw-org-send`) — sends the current subtree or region; reply lands as a child heading
- Optional bearer-token auth for the local endpoint
- Single-user: the adapter exposes exactly one messaging group per host
Not applicable (design): multi-user channels, threads, cold DM initiation, typing indicators, attachments.
Look for `Emacs channel listening` at startup and `Emacs message received` when a message is sent.
## Troubleshooting
@@ -225,53 +205,66 @@ Not applicable (design): multi-user channels, threads, cold DM initiation, typin
Error: listen EADDRINUSE: address already in use :::8766
```
Either a stale NanoClaw is running or another app has the port. Kill stale process or change port:
Either a stale NanoClaw process is running, or 8766 is taken by another app.
Find and kill the stale process:
```bash
lsof -ti :8766 | xargs kill -9
# or set EMACS_CHANNEL_PORT in .env and mirror in Emacs config (nanoclaw-port)
```
### Adapter not starting
If `grep "Emacs channel listening" logs/nanoclaw.log` returns nothing, check that `EMACS_ENABLED=true` is in `.env` and that the adapter import is present:
```bash
grep -q '^EMACS_ENABLED=true' .env && echo "enabled" || echo "not enabled"
grep -q "import './emacs.js'" src/channels/index.ts && echo "imported" || echo "not imported"
```
Or change the port in `.env` (`EMACS_CHANNEL_PORT=8767`) and update `nanoclaw-port` in Emacs config.
### No response from agent
1. NanoClaw running: `launchctl list | grep "$(. setup/lib/install-slug.sh && launchd_label)"` (macOS) / `systemctl --user status "$(. setup/lib/install-slug.sh && systemd_unit)"` (Linux)
2. Messaging group wired: `pnpm exec tsx scripts/q.ts data/v2.db "SELECT mg.platform_id, ag.folder FROM messaging_groups mg JOIN messaging_group_agents mga ON mg.id = mga.messaging_group_id JOIN agent_groups ag ON ag.id = mga.agent_group_id WHERE mg.channel_type = 'emacs'"`
3. Logs show inbound: `grep 'channel_type=emacs\|Emacs' logs/nanoclaw.log | tail -20`
Check:
1. NanoClaw is running: `launchctl list | grep nanoclaw` (macOS) or `systemctl --user status nanoclaw` (Linux)
2. Emacs group is registered: `sqlite3 store/messages.db "SELECT * FROM registered_groups WHERE jid = 'emacs:default'"`
3. Logs show activity: `tail -50 logs/nanoclaw.log`
If no messaging group row exists, run the `register` command above.
If the group is not registered, it will be created automatically on the next NanoClaw restart.
### Auth token mismatch (401 Unauthorized)
```elisp
M-x describe-variable RET nanoclaw-auth-token RET
```
Must match `EMACS_AUTH_TOKEN` in `.env`. If you didn't set one server-side, clear it in Emacs too:
Verify the token in Emacs matches `.env`:
```elisp
(setq nanoclaw-auth-token nil)
;; M-x describe-variable RET nanoclaw-auth-token RET
```
Must exactly match `EMACS_AUTH_TOKEN` in `.env`.
### nanoclaw.el not loading
Check the path is correct:
```bash
ls ~/src/nanoclaw/emacs/nanoclaw.el
```
If NanoClaw is cloned elsewhere, update the `load`/`load-file` path in your Emacs config.
## After Setup
If running `pnpm run dev` while the service is active:
```bash
# macOS:
launchctl unload ~/Library/LaunchAgents/com.nanoclaw.plist
pnpm run dev
# When done testing:
launchctl load ~/Library/LaunchAgents/com.nanoclaw.plist
# Linux:
# systemctl --user stop nanoclaw
# pnpm run dev
# systemctl --user start nanoclaw
```
## Agent Formatting
The Emacs bridge converts markdown → org-mode automatically. Agents should output standard markdown, **not** org-mode syntax:
The Emacs bridge converts markdown → org-mode automatically. Agents should
output standard markdown — **not** org-mode syntax. The conversion handles:
| Markdown | Org-mode |
|----------|----------|
@@ -281,22 +274,16 @@ The Emacs bridge converts markdown → org-mode automatically. Agents should out
| `` `code` `` | `~code~` |
| ` ```lang ` | `#+begin_src lang` |
If an agent outputs org-mode directly, markers get double-converted and render incorrectly.
If an agent outputs org-mode directly, bold/italic/etc. will be double-converted
and render incorrectly.
## Removal
Run from your NanoClaw project root:
To remove the Emacs channel:
```bash
rm src/channels/emacs.ts src/channels/emacs.test.ts emacs/nanoclaw.el
# Remove the `import './emacs.js';` line from src/channels/index.ts
# Remove EMACS_* lines from .env
pnpm run build
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
# systemctl --user restart $(systemd_unit) # Linux
# Remove the NanoClaw block from your Emacs config
# Optionally clean up the messaging group:
pnpm exec tsx scripts/q.ts data/v2.db "DELETE FROM messaging_group_agents WHERE messaging_group_id IN (SELECT id FROM messaging_groups WHERE channel_type='emacs'); DELETE FROM messaging_groups WHERE channel_type='emacs';"
```
1. Delete `src/channels/emacs.ts`, `src/channels/emacs.test.ts`, and `emacs/nanoclaw.el`
2. Remove `import './emacs.js'` from `src/channels/index.ts`
3. Remove the NanoClaw block from your Emacs config file
4. Remove Emacs registration from SQLite: `sqlite3 store/messages.db "DELETE FROM registered_groups WHERE jid = 'emacs:default'"`
5. Remove `EMACS_CHANNEL_PORT` and `EMACS_AUTH_TOKEN` from `.env` if set
6. Rebuild: `pnpm run build && launchctl kickstart -k gui/$(id -u)/com.nanoclaw` (macOS) or `pnpm run build && systemctl --user restart nanoclaw` (Linux)
-238
View File
@@ -1,238 +0,0 @@
---
name: add-gcal-tool
description: Add Google Calendar as an MCP tool (list calendars, list/search/create events, free/busy queries) using OneCLI-managed OAuth. Multi-calendar and multi-account supported. Mirrors /add-gmail-tool's stub pattern — no raw credentials ever reach the container; OneCLI injects real tokens at request time.
---
# Add Google Calendar Tool (OneCLI-native)
This skill wires [`@cocal/google-calendar-mcp`](https://github.com/cocal-com/google-calendar-mcp) into selected agent groups. The MCP server reads stub credentials containing the `onecli-managed` placeholder; the OneCLI gateway intercepts outbound calls to `calendar.googleapis.com` / `oauth2.googleapis.com` and swaps the bearer for the real OAuth token from its vault.
**Why this package (and not gongrzhe's):** `@gongrzhe/server-calendar-autoauth-mcp` only supports the `primary` calendar and exposes 5 tools (no `list_calendars`). `@cocal/google-calendar-mcp` explicitly supports multi-calendar and multi-account, and is actively maintained.
Tools exposed (surfaced as `mcp__calendar__<name>`, exact set depends on version — run `tools/list` against the MCP server to enumerate): `list-calendars`, `list-events`, `search-events`, `create-event`, `update-event`, `delete-event`, `get-event`, `list-colors`, `get-freebusy`, `get-current-time`, plus multi-account management tools.
**Why this pattern:** v2's invariant is that containers never receive raw API keys (CHANGELOG 2.0.0). Same stub pattern `/add-gmail-tool` uses. This skill is deliberately a sibling, not a combined "Google Workspace" skill — installs independently and removes cleanly.
## Phase 1: Pre-flight
### Verify OneCLI has Google Calendar connected
```bash
onecli apps get --provider google-calendar
```
Expected: `"connection": { "status": "connected" }` with scopes including `calendar.readonly` and `calendar.events`.
If not connected, tell the user:
> Open the OneCLI web UI at http://127.0.0.1:10254, go to Apps → Google Calendar, and click Connect. Sign in with the Google account the agent should act as. `calendar.readonly` + `calendar.events` are the minimum useful scopes.
### Verify stub credentials exist
The stub lives at `~/.calendar-mcp/` by convention (shared with `/add-gmail-tool`'s sibling). cocal doesn't default to this path (it uses `~/.config/google-calendar-mcp/tokens.json`) — we override via env vars below so it reads our stubs instead.
```bash
ls -la ~/.calendar-mcp/gcp-oauth.keys.json ~/.calendar-mcp/credentials.json 2>&1
```
If both exist with `onecli-managed`:
```bash
grep -l onecli-managed ~/.calendar-mcp/gcp-oauth.keys.json ~/.calendar-mcp/credentials.json
```
...skip to Phase 2. If either file has real credentials (no `onecli-managed`), **STOP** — back up and delete before proceeding.
If absent, write them:
```bash
mkdir -p ~/.calendar-mcp
cat > ~/.calendar-mcp/gcp-oauth.keys.json <<'EOF'
{
"installed": {
"client_id": "onecli-managed.apps.googleusercontent.com",
"client_secret": "onecli-managed",
"redirect_uris": ["http://localhost:3000/oauth2callback"]
}
}
EOF
cat > ~/.calendar-mcp/credentials.json <<'EOF'
{
"access_token": "onecli-managed",
"refresh_token": "onecli-managed",
"token_type": "Bearer",
"expiry_date": 99999999999999,
"scope": "https://www.googleapis.com/auth/calendar.readonly https://www.googleapis.com/auth/calendar.events"
}
EOF
chmod 600 ~/.calendar-mcp/*.json
```
### Verify mount allowlist covers the path
```bash
cat ~/.config/nanoclaw/mount-allowlist.json
```
`~/.calendar-mcp` must sit under an `allowedRoots` entry.
### Check agent secret-mode
For each target agent group, confirm OneCLI will inject the Google Calendar token:
```bash
onecli agents list
```
`secretMode: all` is sufficient. If `selective`, explicitly assign the Calendar secret.
## Phase 2: Apply Code Changes
### Check if already applied
```bash
grep -q 'CALENDAR_MCP_VERSION' container/Dockerfile && \
echo "ALREADY APPLIED — skip to Phase 3"
```
### Add MCP server to Dockerfile
Edit `container/Dockerfile`. Find the pinned-version ARG block and add:
```dockerfile
ARG CALENDAR_MCP_VERSION=2.6.1
```
If `/add-gmail-tool` has already been applied, the pnpm global-install block already exists with its `zod-to-json-schema@3.22.5` pin. Just append the calendar package — **the calendar-mcp uses `zod@4.x` and does NOT need that pin**, but it's harmless to share the block:
```dockerfile
RUN --mount=type=cache,target=/root/.cache/pnpm \
pnpm install -g \
"@gongrzhe/server-gmail-autoauth-mcp@${GMAIL_MCP_VERSION}" \
"@cocal/google-calendar-mcp@${CALENDAR_MCP_VERSION}" \
"zod-to-json-schema@3.22.5"
```
If `/add-gmail-tool` hasn't been applied, install Calendar standalone:
```dockerfile
RUN --mount=type=cache,target=/root/.cache/pnpm \
pnpm install -g "@cocal/google-calendar-mcp@${CALENDAR_MCP_VERSION}"
```
**No `TOOL_ALLOWLIST` edit needed.** `container/agent-runner/src/providers/claude.ts` derives the allow-pattern dynamically from each group's `mcpServers` map (`Object.keys(this.mcpServers).map(mcpAllowPattern)`), so registering `calendar` in Phase 3 automatically allows `mcp__calendar__*`. Earlier versions of this skill instructed a static `TOOL_ALLOWLIST` edit — that's now redundant.
### Rebuild the container image
```bash
./container/build.sh
```
## Phase 3: Wire Per-Agent-Group
For each agent group, persist two changes to the **central DB** (`data/v2.db`): the `mcpServers.calendar` entry and an `additionalMounts` entry for `.calendar-mcp`. Both flow through `materializeContainerJson` on every spawn, so editing `groups/<folder>/container.json` by hand does **not** stick — that file is regenerated from the DB.
### Register the MCP server
For each chosen `<group-id>` (use `ncl groups list` to enumerate):
```bash
ncl groups config add-mcp-server \
--id <group-id> \
--name calendar \
--command google-calendar-mcp \
--args '[]' \
--env '{"GOOGLE_OAUTH_CREDENTIALS":"/workspace/extra/.calendar-mcp/gcp-oauth.keys.json","GOOGLE_CALENDAR_MCP_TOKEN_PATH":"/workspace/extra/.calendar-mcp/credentials.json"}'
```
Approval behaviour depends on where you run it: from inside an agent's container `ncl` write verbs are approval-gated (admin approves before it lands); from a host operator shell with full scope, it executes immediately. Either way, the response tells you which path it took.
### Add the `.calendar-mcp` mount
There is no `ncl groups config add-mount` verb yet (tracked in [#2395](https://github.com/nanocoai/nanoclaw/issues/2395)). Until that ships, edit the DB directly via the in-tree wrapper (`scripts/q.ts``setup/verify.ts:5` codifies that NanoClaw avoids depending on the `sqlite3` CLI binary, so don't shell out to it):
```bash
GROUP_ID='<group-id>'
HOST_PATH="$HOME/.calendar-mcp"
MOUNT=$(jq -cn --arg h "$HOST_PATH" '{hostPath:$h, containerPath:".calendar-mcp", readonly:false}')
pnpm exec tsx scripts/q.ts data/v2.db "UPDATE container_configs \
SET additional_mounts = json_insert(additional_mounts, '\$[#]', json('$MOUNT')), \
updated_at = datetime('now') \
WHERE agent_group_id = '$GROUP_ID';"
```
Run from your NanoClaw project root (where `data/v2.db` lives). The `$[#]` placeholder is SQLite JSON1's append-to-end notation; it's `\$`-escaped so bash doesn't arithmetic-expand it before sqlite sees it. `updated_at` is ISO-string everywhere else in the schema, so use `datetime('now')` — not `strftime('%s','now')`, which would silently mix epoch ints into a column of YYYY-MM-DD HH:MM:SS strings.
**Switch to `ncl groups config add-mount` once #2395 lands.** Update this skill at that time.
`containerPath` is relative (mount-security rejects absolute paths — additional mounts land at `/workspace/extra/<relative>`).
**Why this can't be `groups/<folder>/container.json`:** post-migration `014-container-configs`, `materializeContainerJson` in `src/container-config.ts` rewrites that file from the DB on every spawn. Anything hand-edited there is silently overwritten on next restart.
**Same-group-as-gmail tip:** if this group already has the gmail MCP + `.gmail-mcp` mount, both coexist — `ncl groups config add-mcp-server` only updates the named entry, and `json_insert` appends to `additional_mounts` without disturbing existing entries.
## Phase 4: Build and Restart
```bash
pnpm run build
```
Run from your NanoClaw project root:
```bash
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
systemctl --user restart $(systemd_unit) # Linux
```
Kill any existing agent containers so they respawn with the new mcpServers config:
```bash
docker ps -q --filter 'name=nanoclaw-v2-' | xargs -r docker kill
```
## Phase 5: Verify
### Test from a wired agent
> Send: **"list my calendars"** or **"what's on my work calendar next Monday?"**.
>
> First call takes 23s while the MCP server starts and OneCLI does the token exchange.
### Check logs if the tool isn't working
```bash
tail -100 logs/nanoclaw.log | grep -iE 'calendar|mcp'
```
Common signals:
- `command not found: google-calendar-mcp` → image not rebuilt.
- `ENOENT ...credentials.json` → mount missing. Check the mount allowlist.
- `401 Unauthorized` from `*.googleapis.com` → OneCLI isn't injecting; verify agent's secret mode and that Google Calendar is connected.
- Agent says "I don't have calendar tools" → the `calendar` MCP server isn't registered in this group's `mcpServers` (re-run the `ncl groups config add-mcp-server` step in Phase 3 for that group and restart it), or the agent-runner image is stale (`./container/build.sh`, `--no-cache` if suspicious).
## Removal
1. For each group that had Calendar wired, remove the MCP server from the DB:
```bash
ncl groups config remove-mcp-server --id <group-id> --name calendar
```
2. Remove the `.calendar-mcp` mount from the DB (no `remove-mount` verb yet — same #2395 dependency):
```bash
pnpm exec tsx scripts/q.ts data/v2.db "UPDATE container_configs \
SET additional_mounts = (SELECT json_group_array(value) FROM json_each(additional_mounts) \
WHERE json_extract(value, '\$.containerPath') != '.calendar-mcp'), \
updated_at = datetime('now') \
WHERE agent_group_id = '<group-id>';"
```
3. Remove `CALENDAR_MCP_VERSION` ARG and the calendar package from the Dockerfile install block.
4. `pnpm run build && ./container/build.sh && systemctl --user restart "$(. setup/lib/install-slug.sh && systemd_unit)"`.
5. Optional: `rm -rf ~/.calendar-mcp/` and `onecli apps disconnect --provider google-calendar`.
No `TOOL_ALLOWLIST` removal step — Phase 2 no longer edits it.
## Credits & references
- **MCP server:** [`@cocal/google-calendar-mcp`](https://github.com/cocal-com/google-calendar-mcp) — MIT-licensed, actively maintained, multi-account and multi-calendar.
- **Why not gongrzhe:** earlier versions of this skill used `@gongrzhe/server-calendar-autoauth-mcp@1.0.2` which only supports the primary calendar with 5 event-level tools. The cocal server supersedes it.
- **Skill pattern:** direct sibling of [`/add-gmail-tool`](../add-gmail-tool/SKILL.md); same OneCLI stub mechanism.
@@ -1,54 +1,28 @@
---
name: add-gchat
description: Add Google Chat channel integration via Chat SDK.
name: add-gchat-v2
description: Add Google Chat channel integration to NanoClaw v2 via Chat SDK.
---
# Add Google Chat Channel
Adds Google Chat support via the Chat SDK bridge.
Adds Google Chat support to NanoClaw v2 using the Chat SDK bridge.
## Pre-flight
Check if `src/channels/gchat.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
NanoClaw doesn't ship channels in trunk. This skill copies the Google Chat adapter in from the `channels` branch.
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/gchat.ts` exists
- `src/channels/index.ts` contains `import './gchat.js';`
- `@chat-adapter/gchat` is listed in `package.json` dependencies
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
pnpm install @chat-adapter/gchat
```
### 2. Copy the adapter
```bash
git show origin/channels:src/channels/gchat.ts > src/channels/gchat.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
Uncomment the Google Chat import in `src/channels/index.ts`:
```typescript
import './gchat.js';
```
### 4. Install the adapter package (pinned)
```bash
pnpm install @chat-adapter/gchat@4.27.0
```
### 5. Build
```bash
pnpm run build
```
+68
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@@ -0,0 +1,68 @@
---
name: add-github-v2
description: Add GitHub channel integration to NanoClaw v2 via Chat SDK. PR and issue comment threads as conversations.
---
# Add GitHub Channel
Adds GitHub support to NanoClaw v2 using the Chat SDK bridge. The agent participates in PR and issue comment threads.
## Pre-flight
Check if `src/channels/github.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
```bash
pnpm install @chat-adapter/github
```
Uncomment the GitHub import in `src/channels/index.ts`:
```typescript
import './github.js';
```
```bash
pnpm run build
```
## Credentials
> 1. Go to [GitHub Settings > Developer Settings > Personal Access Tokens](https://github.com/settings/tokens)
> 2. Create a **Fine-grained token** with:
> - Repository access: select the repos you want the bot to monitor
> - Permissions: **Pull requests** (Read & Write), **Issues** (Read & Write)
> 3. Copy the token
> 4. Set up a webhook on your repo(s):
> - Go to **Settings** > **Webhooks** > **Add webhook**
> - Payload URL: `https://your-domain/webhook/github`
> - Content type: `application/json`
> - Secret: generate a random string
> - Events: select **Issue comments**, **Pull request review comments**
### Configure environment
Add to `.env`:
```bash
GITHUB_TOKEN=github_pat_...
GITHUB_WEBHOOK_SECRET=your-webhook-secret
```
Sync to container: `mkdir -p data/env && cp .env data/env/env`
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, run `/manage-channels` to wire this channel to an agent group.
## Channel Info
- **type**: `github`
- **terminology**: GitHub has "repositories" containing "pull requests" and "issues." Each PR or issue comment thread is a separate conversation.
- **how-to-find-id**: The platform ID is `owner/repo` (e.g. `acme/backend`). Each PR/issue becomes its own thread automatically.
- **supports-threads**: yes (PR and issue comment threads are native conversations)
- **typical-use**: Webhook/notification — the agent receives PR and issue events and responds in comment threads
- **default-isolation**: Typically shares a session with a chat channel (e.g. Slack) so the agent can summarize PRs and respond to reviews in the same context. Use a separate agent group if the repo contains sensitive code that other channels shouldn't access.
-156
View File
@@ -1,156 +0,0 @@
---
name: add-github
description: Add GitHub channel integration via Chat SDK. PR and issue comment threads as conversations.
---
# Add GitHub Channel
Adds GitHub support via the Chat SDK bridge. The agent participates in PR and issue comment threads.
## Prerequisites
You need a **dedicated GitHub bot account** (not your personal account). The adapter uses this account to post replies and filters out its own messages to avoid loops. Create a free GitHub account for your bot (e.g. `my-org-bot`), then invite it as a collaborator with write access to the repos you want monitored.
## Install
NanoClaw doesn't ship channels in trunk. This skill copies the GitHub adapter in from the `channels` branch.
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/github.ts` exists
- `src/channels/index.ts` contains `import './github.js';`
- `@chat-adapter/github` is listed in `package.json` dependencies
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
```
### 2. Copy the adapter
```bash
git show origin/channels:src/channels/github.ts > src/channels/github.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
```typescript
import './github.js';
```
### 4. Install the adapter package (pinned)
```bash
pnpm install @chat-adapter/github@4.27.0
```
### 5. Build
```bash
pnpm run build
```
## Credentials
### 1. Create a Personal Access Token for the bot account
Log in as your **bot account**, then:
1. Go to [Settings > Developer Settings > Personal Access Tokens](https://github.com/settings/tokens)
2. Create a **Fine-grained token** with:
- Repository access: select the repos you want the bot to monitor
- Permissions: **Pull requests** (Read & Write), **Issues** (Read & Write)
3. Copy the token
### 2. Set up a webhook on each repo
On each repo (logged in as the repo owner/admin):
1. Go to **Settings** > **Webhooks** > **Add webhook**
2. Payload URL: `https://your-domain/webhook/github` (the shared webhook server, default port 3000)
3. Content type: `application/json`
4. Secret: generate a random string (e.g. `openssl rand -hex 20`)
5. Events: select **Issue comments** and **Pull request review comments**
### 3. Configure environment
Add to `.env`:
```bash
GITHUB_TOKEN=github_pat_...
GITHUB_WEBHOOK_SECRET=your-webhook-secret
GITHUB_BOT_USERNAME=your-bot-username
```
`GITHUB_BOT_USERNAME` must match the bot account's GitHub username exactly. This is used for @-mention detection — the agent responds when someone writes `@your-bot-username` in a PR or issue comment.
Sync to container: `mkdir -p data/env && cp .env data/env/env`
## Wiring
Ask the user: **Is this a private or public repo?**
- **Private repo** — use `unknown_sender_policy: 'public'`. Only collaborators can comment anyway, so it's safe to let all comments through.
- **Public repo** — use `unknown_sender_policy: 'strict'`. Only registered members can trigger the agent, preventing strangers from consuming agent resources. Add trusted collaborators as members (see below).
Run `/manage-channels` to wire the GitHub channel to an agent group, or insert manually:
```sql
-- Create messaging group (one per repo)
INSERT INTO messaging_groups (id, channel_type, platform_id, name, is_group, unknown_sender_policy, created_at)
VALUES ('mg-github-myrepo', 'github', 'github:owner/repo', 'owner/repo', 1, '<policy>', datetime('now'));
-- Wire to agent group
INSERT INTO messaging_group_agents (id, messaging_group_id, agent_group_id, trigger_rules, response_scope, session_mode, priority, created_at)
VALUES ('mga-github-myrepo', 'mg-github-myrepo', '<your-agent-group-id>', '', 'all', 'per-thread', 10, datetime('now'));
```
Replace `<policy>` with `public` or `strict` based on the user's choice above.
### Adding members (for strict mode)
When using `strict`, add each GitHub user who should be able to trigger the agent:
```sql
-- Add user (kind = 'github', id = 'github:<numeric-user-id>')
INSERT OR IGNORE INTO users (id, kind, display_name, created_at)
VALUES ('github:<user-id>', 'github', '<username>', datetime('now'));
-- Grant membership to the agent group
INSERT OR IGNORE INTO agent_group_members (user_id, agent_group_id)
VALUES ('github:<user-id>', '<agent-group-id>');
```
To find a GitHub user's numeric ID: `gh api users/<username> --jq .id`
Use `per-thread` session mode so each PR/issue gets its own agent session.
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, restart the service to pick up the new channel.
Run from your NanoClaw project root:
```bash
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
systemctl --user restart $(systemd_unit) # Linux
```
## Channel Info
- **type**: `github`
- **terminology**: GitHub has "repositories" containing "pull requests" and "issues." Each PR or issue comment thread is a separate conversation.
- **how-to-find-id**: The platform ID is `github:owner/repo` (e.g. `github:acme/backend`). Each PR/issue becomes its own thread automatically.
- **supports-threads**: yes (PR and issue comment threads are native conversations)
- **typical-use**: Webhook-driven — the agent receives PR and issue comment events and responds in comment threads when @-mentioned. After the first mention, the thread is subscribed and the agent responds to all follow-up comments.
- **default-isolation**: Use `per-thread` session mode. Each PR or issue gets its own isolated agent session. Typically wire to a dedicated agent group if the repo contains sensitive code.
-262
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@@ -1,262 +0,0 @@
---
name: add-gmail-tool
description: Add Gmail as an MCP tool (read, search, send, label, draft) using OneCLI-managed OAuth. The agent gets Gmail tools in every enabled group; OneCLI injects real tokens at request time so no raw credentials are ever in the container or on disk in usable form.
---
# Add Gmail Tool (OneCLI-native)
This skill wires the [`@gongrzhe/server-gmail-autoauth-mcp`](https://www.npmjs.com/package/@gongrzhe/server-gmail-autoauth-mcp) stdio MCP server into selected agent groups. The MCP server reads stub credentials containing the `onecli-managed` placeholder; the OneCLI gateway intercepts outbound calls to `gmail.googleapis.com` and injects the real OAuth bearer from its vault.
Tools exposed (from `gmail-mcp@1.1.11`, surfaced to the agent as `mcp__gmail__<name>`): `search_emails`, `read_email`, `send_email`, `draft_email`, `delete_email`, `modify_email`, `batch_modify_emails`, `batch_delete_emails`, `download_attachment`, `list_email_labels`, `create_label`, `update_label`, `delete_label`, `get_or_create_label`, `list_filters`, `get_filter`, `create_filter`, `create_filter_from_template`, `delete_filter`.
**Why this pattern:** v2's invariant is that containers never receive raw API keys — OneCLI is the sole credential path (see CHANGELOG v2.0.0). The stub-file pattern satisfies this: the container sees `"onecli-managed"` placeholders, the gateway swaps them in flight.
## Phase 1: Pre-flight
### Verify OneCLI has Gmail connected
```bash
onecli apps get --provider gmail
```
Expected: `"connection": { "status": "connected" }` with scopes including `gmail.readonly`, `gmail.modify`, `gmail.send`.
If not connected, tell the user:
> Open the OneCLI web UI at http://127.0.0.1:10254, go to Apps → Gmail, and click Connect. Sign in with the Google account you want the agent to act as.
### Verify stub credentials exist
```bash
ls -la ~/.gmail-mcp/gcp-oauth.keys.json ~/.gmail-mcp/credentials.json 2>&1
```
If both exist and contain `"onecli-managed"`:
```bash
grep -l onecli-managed ~/.gmail-mcp/gcp-oauth.keys.json ~/.gmail-mcp/credentials.json
```
...skip to Phase 2.
If either file exists but does **not** contain `onecli-managed`, **STOP** and tell the user — these are real OAuth credentials from a previous non-OneCLI install. Back them up, then delete before proceeding. The OneCLI migration normally handles this; if it didn't, something is wrong.
If both files are absent, write them now:
```bash
mkdir -p ~/.gmail-mcp
cat > ~/.gmail-mcp/gcp-oauth.keys.json <<'EOF'
{
"installed": {
"client_id": "onecli-managed.apps.googleusercontent.com",
"client_secret": "onecli-managed",
"redirect_uris": ["http://localhost:3000/oauth2callback"]
}
}
EOF
cat > ~/.gmail-mcp/credentials.json <<'EOF'
{
"access_token": "onecli-managed",
"refresh_token": "onecli-managed",
"token_type": "Bearer",
"expiry_date": 99999999999999,
"scope": "https://www.googleapis.com/auth/gmail.readonly https://www.googleapis.com/auth/gmail.modify https://www.googleapis.com/auth/gmail.send"
}
EOF
chmod 600 ~/.gmail-mcp/gcp-oauth.keys.json ~/.gmail-mcp/credentials.json
```
### Verify mount allowlist covers the path
```bash
cat ~/.config/nanoclaw/mount-allowlist.json
```
`~/.gmail-mcp` must sit under an `allowedRoots` entry (e.g. `/home/<user>`). If it doesn't, tell the user to run `/manage-mounts` first or add their home directory.
### Check agent secret-mode
For each target agent group, confirm OneCLI will inject Gmail secrets into its container. Find the OneCLI agent ID that matches the group's `agentGroupId`:
```bash
onecli agents list
```
If that agent's `secretMode` is `all`, you're done — Gmail secrets (identified by OneCLI's Gmail hostPattern) will auto-inject. If it's `selective`, explicitly assign the Gmail secrets using the safe merge pattern (`set-secrets` replaces the entire list — always read first):
```bash
GMAIL_IDS=$(onecli secrets list | jq -r '[.data[] | select(.name | test("(?i)gmail")) | .id] | join(",")')
CURRENT=$(onecli agents secrets --id <agent-id> | jq -r '[.data[]] | join(",")')
MERGED=$(printf '%s' "$CURRENT,$GMAIL_IDS" | tr ',' '\n' | sort -u | paste -sd ',' -)
onecli agents set-secrets --id <agent-id> --secret-ids "$MERGED"
onecli agents secrets --id <agent-id>
```
## Phase 2: Apply Code Changes
### Check if already applied
```bash
grep -q 'GMAIL_MCP_VERSION' container/Dockerfile && \
echo "ALREADY APPLIED — skip to Phase 3"
```
### Add MCP server to Dockerfile
Edit `container/Dockerfile`. Find the pinned-version ARG block:
```dockerfile
ARG CLAUDE_CODE_VERSION=2.1.116
ARG AGENT_BROWSER_VERSION=latest
ARG VERCEL_VERSION=latest
ARG BUN_VERSION=1.3.12
```
Add a new line:
```dockerfile
ARG GMAIL_MCP_VERSION=1.1.11
```
Then find the last pnpm global-install `RUN` block (the one that installs `@anthropic-ai/claude-code`) and add a new block after it, before `# ---- Entrypoint`:
```dockerfile
RUN --mount=type=cache,target=/root/.cache/pnpm \
pnpm install -g \
"@gongrzhe/server-gmail-autoauth-mcp@${GMAIL_MCP_VERSION}" \
"zod-to-json-schema@3.22.5"
```
Pinned version matters — `minimumReleaseAge` in `pnpm-workspace.yaml` gates trunk installs, and CLAUDE.md requires a fixed ARG version for all Node CLIs installed into the image.
**Why the `zod-to-json-schema` pin:** `@gongrzhe/server-gmail-autoauth-mcp@1.1.11` has loose deps (`zod-to-json-schema: ^3.22.1`, `zod: ^3.22.4`). pnpm resolves `zod-to-json-schema` to the latest 3.25.x, which imports `zod/v3` — a subpath that only exists in `zod>=3.25`. But `zod` resolves to `3.24.x` (highest satisfying `^3.22.4` without breaking peer ranges). Result: `ERR_PACKAGE_PATH_NOT_EXPORTED` at import time. Pinning `zod-to-json-schema` to a pre-v3-subpath version avoids it. Re-check if you bump `GMAIL_MCP_VERSION`.
**No `TOOL_ALLOWLIST` edit needed.** `container/agent-runner/src/providers/claude.ts` derives the allow-pattern dynamically from each group's `mcpServers` map (`Object.keys(this.mcpServers).map(mcpAllowPattern)`), so registering `gmail` in Phase 3 automatically allows `mcp__gmail__*`. Earlier versions of this skill instructed a static `TOOL_ALLOWLIST` edit — that's now redundant.
### Rebuild the container image
```bash
./container/build.sh
```
Must complete cleanly. The new `pnpm install -g` layer is ~60s first time (cached on rebuild).
## Phase 3: Wire Per-Agent-Group
For each agent group that should have Gmail (ask the user — typically their personal DM and CLI agents, sometimes shared household agents), persist two changes to the **central DB** (`data/v2.db`): the `mcpServers.gmail` entry and an `additionalMounts` entry for `.gmail-mcp`. Both flow through `materializeContainerJson` on every spawn, so editing `groups/<folder>/container.json` by hand does **not** stick — that file is regenerated from the DB.
### List groups, pick which ones get Gmail
```bash
ncl groups list
```
### Register the MCP server
For each chosen `<group-id>`:
```bash
ncl groups config add-mcp-server \
--id <group-id> \
--name gmail \
--command gmail-mcp \
--args '[]' \
--env '{"GMAIL_OAUTH_PATH":"/workspace/extra/.gmail-mcp/gcp-oauth.keys.json","GMAIL_CREDENTIALS_PATH":"/workspace/extra/.gmail-mcp/credentials.json"}'
```
Approval behaviour depends on where you run it: from inside an agent's container `ncl` write verbs are approval-gated (admin approves before it lands); from a host operator shell with full scope, it executes immediately. Either way, the response tells you which path it took.
### Add the `.gmail-mcp` mount
There is no `ncl groups config add-mount` verb yet (tracked in [#2395](https://github.com/nanocoai/nanoclaw/issues/2395)). Until that ships, edit the DB directly via the in-tree wrapper (`scripts/q.ts``setup/verify.ts:5` codifies that NanoClaw avoids depending on the `sqlite3` CLI binary, so don't shell out to it):
```bash
GROUP_ID='<group-id>'
HOST_PATH="$HOME/.gmail-mcp"
MOUNT=$(jq -cn --arg h "$HOST_PATH" '{hostPath:$h, containerPath:".gmail-mcp", readonly:false}')
pnpm exec tsx scripts/q.ts data/v2.db "UPDATE container_configs \
SET additional_mounts = json_insert(additional_mounts, '\$[#]', json('$MOUNT')), \
updated_at = datetime('now') \
WHERE agent_group_id = '$GROUP_ID';"
```
Run from your NanoClaw project root (where `data/v2.db` lives). The `$[#]` placeholder is SQLite JSON1's append-to-end notation; it's `\$`-escaped so bash doesn't arithmetic-expand it before sqlite sees it. `updated_at` is ISO-string everywhere else in the schema, so use `datetime('now')` — not `strftime('%s','now')`, which would silently mix epoch ints into a column of YYYY-MM-DD HH:MM:SS strings.
**Switch to `ncl groups config add-mount` once #2395 lands.** Update this skill at that time.
**Why the container path is relative:** `mount-security` rejects absolute `containerPath` values. Additional mounts are prefixed with `/workspace/extra/`, so `containerPath: ".gmail-mcp"` lands at `/workspace/extra/.gmail-mcp`. The MCP server's `GMAIL_OAUTH_PATH` / `GMAIL_CREDENTIALS_PATH` env vars point at that absolute location inside the container.
**Why this can't be `groups/<folder>/container.json`:** post-migration `014-container-configs`, `materializeContainerJson` in `src/container-config.ts` rewrites that file from the DB on every spawn. Anything hand-edited there is silently overwritten on next restart.
## Phase 4: Build and Restart
```bash
pnpm run build
```
Run from your NanoClaw project root:
```bash
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
systemctl --user restart $(systemd_unit) # Linux
```
## Phase 5: Verify
### Test from the wired agent
Tell the user:
> In your `<agent-name>` chat, send: **"list my gmail labels"** or **"search my inbox for invoices from last month"**.
>
> The agent should use `mcp__gmail__list_labels` / `mcp__gmail__search`. The first call may take a second or two while the MCP server starts and OneCLI does the token exchange.
### Check logs if the tool isn't working
```bash
tail -100 logs/nanoclaw.log logs/nanoclaw.error.log | grep -iE 'gmail|mcp'
# Per-container logs — session-scoped:
ls data/v2-sessions/*/stderr.log | head
```
Common signals:
- `command not found: gmail-mcp` → image wasn't rebuilt or PATH doesn't include `/pnpm` (should — `ENV PATH="$PNPM_HOME:$PATH"` in Dockerfile).
- `ENOENT: no such file or directory, open '/workspace/extra/.gmail-mcp/credentials.json'` → mount is missing. Check `~/.config/nanoclaw/mount-allowlist.json` includes a parent of `~/.gmail-mcp`.
- `401 Unauthorized` from `gmail.googleapis.com` → OneCLI isn't injecting. Check the agent's secret mode (`onecli agents secrets --id <agent-id>`) and that the Gmail app is connected (`onecli apps get --provider gmail`).
- Agent says "I don't have Gmail tools" → the `gmail` MCP server isn't registered in this group's `mcpServers` (re-run the `ncl groups config add-mcp-server` step in Phase 3 for that group and restart it), or the agent-runner image is stale (rebuild with `./container/build.sh`, with `--no-cache` if suspicious).
## Removal
1. For each group that had Gmail wired, remove the MCP server from the DB:
```bash
ncl groups config remove-mcp-server --id <group-id> --name gmail
```
2. Remove the `.gmail-mcp` mount from the DB (no `remove-mount` verb yet — same #2395 dependency):
```bash
pnpm exec tsx scripts/q.ts data/v2.db "UPDATE container_configs \
SET additional_mounts = (SELECT json_group_array(value) FROM json_each(additional_mounts) \
WHERE json_extract(value, '\$.containerPath') != '.gmail-mcp'), \
updated_at = datetime('now') \
WHERE agent_group_id = '<group-id>';"
```
3. Remove the `GMAIL_MCP_VERSION` ARG and the `pnpm install -g @gongrzhe/server-gmail-autoauth-mcp` block from `container/Dockerfile`.
4. `pnpm run build && ./container/build.sh && systemctl --user restart "$(. setup/lib/install-slug.sh && systemd_unit)"`.
5. (Optional) `rm -rf ~/.gmail-mcp/` if no other host-side tool needs the stubs.
6. (Optional) Disconnect Gmail in OneCLI: `onecli apps disconnect --provider gmail`.
No `TOOL_ALLOWLIST` removal step — Phase 2 no longer edits it.
## Notes
- **Stub format is OneCLI-prescribed.** The `access_token: "onecli-managed"` pattern with `expiry_date: 99999999999999` tells the Google auth client the token is valid; OneCLI intercepts the outgoing Gmail API call and rewrites `Authorization: Bearer onecli-managed` to the real token. `expiry_date: 0` (refresh-interception) is an alternative the OneCLI docs describe — both work but OneCLI's own `migrate` command writes the far-future variant, which is what this skill assumes.
- **Scopes are set at OAuth connect time.** If the agent needs scopes beyond what's currently connected (e.g. the user later wants `calendar.readonly` for combined email/calendar workflows), disconnect and reconnect Gmail in the OneCLI web UI with the expanded scope set.
- **This is tool-only.** Inbound email as a channel (emails trigger the agent) is a separate piece of work — it needs a `src/channels/gmail.ts` adapter that polls the inbox and routes to a messaging group. The pre-v2 qwibitai skill had this; it has not been ported to v2's channel architecture as of v2.0.0.
## Credits & references
- **MCP server:** [`@gongrzhe/server-gmail-autoauth-mcp`](https://github.com/GongRzhe/Gmail-MCP-Server) by GongRzhe — MIT-licensed.
- **OneCLI credential stubs:** pattern documented at `https://onecli.sh/docs/guides/credential-stubs/gmail.md`.
- **Skill pattern:** modeled on [`add-atomic-chat-tool`](../add-atomic-chat-tool/SKILL.md) and [`add-vercel`](../add-vercel/SKILL.md).
- **Addresses:** [issue #1500](https://github.com/nanocoai/nanoclaw/issues/1500) (proxy Gmail/Calendar OAuth tokens through credential proxy) for the Gmail side.
- **Related PRs:** [#1810](https://github.com/nanocoai/nanoclaw/pull/1810) (pre-install Gmail/Notion MCP) overlaps on the "install the MCP server in the image" idea but bundles many unrelated changes; this skill is the focused OneCLI-native version.
+236
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@@ -0,0 +1,236 @@
---
name: add-gmail
description: Add Gmail integration to NanoClaw. Can be configured as a tool (agent reads/sends emails when triggered from WhatsApp) or as a full channel (emails can trigger the agent, schedule tasks, and receive replies). Guides through GCP OAuth setup and implements the integration.
---
# Add Gmail Integration
This skill adds Gmail support to NanoClaw — either as a tool (read, send, search, draft) or as a full channel that polls the inbox.
## Phase 1: Pre-flight
### Check if already applied
Check if `src/channels/gmail.ts` exists. If it does, skip to Phase 3 (Setup). The code changes are already in place.
### Ask the user
Use `AskUserQuestion`:
AskUserQuestion: Should incoming emails be able to trigger the agent?
- **Yes** — Full channel mode: the agent listens on Gmail and responds to incoming emails automatically
- **No** — Tool-only: the agent gets full Gmail tools (read, send, search, draft) but won't monitor the inbox. No channel code is added.
## Phase 2: Apply Code Changes
### Ensure channel remote
```bash
git remote -v
```
If `gmail` is missing, add it:
```bash
git remote add gmail https://github.com/qwibitai/nanoclaw-gmail.git
```
### Merge the skill branch
```bash
git fetch gmail main
git merge gmail/main || {
git checkout --theirs pnpm-lock.yaml
git add pnpm-lock.yaml
git merge --continue
}
```
This merges in:
- `src/channels/gmail.ts` (GmailChannel class with self-registration via `registerChannel`)
- `src/channels/gmail.test.ts` (unit tests)
- `import './gmail.js'` appended to the channel barrel file `src/channels/index.ts`
- Gmail credentials mount (`~/.gmail-mcp`) in `src/container-runner.ts`
- Gmail MCP server (`@gongrzhe/server-gmail-autoauth-mcp`) and `mcp__gmail__*` allowed tool in `container/agent-runner/src/index.ts`
- `googleapis` npm dependency in `package.json`
If the merge reports conflicts, resolve them by reading the conflicted files and understanding the intent of both sides.
### Add email handling instructions (Channel mode only)
If the user chose channel mode, append the following to `groups/main/CLAUDE.md` (before the formatting section):
```markdown
## Email Notifications
When you receive an email notification (messages starting with `[Email from ...`), inform the user about it but do NOT reply to the email unless specifically asked. You have Gmail tools available — use them only when the user explicitly asks you to reply, forward, or take action on an email.
```
### Validate code changes
```bash
pnpm install
pnpm run build
pnpm exec vitest run src/channels/gmail.test.ts
```
All tests must pass (including the new Gmail tests) and build must be clean before proceeding.
## Phase 3: Setup
### Check existing Gmail credentials
```bash
ls -la ~/.gmail-mcp/ 2>/dev/null || echo "No Gmail config found"
```
If `credentials.json` already exists with real tokens (not `onecli-managed` values), skip to "Build and restart" below.
### GCP Project Setup
Check if OneCLI is configured:
```bash
grep -q 'ONECLI_URL=.' .env 2>/dev/null && echo "onecli" || echo "manual"
```
**If OneCLI:** Tell the user to open `${ONECLI_URL}/connections?connect=gmail` to set up their Gmail connection. The dashboard walks them through creating a Google Cloud OAuth app and authorizing it. Ask them to let you know when done.
Once the user confirms, run:
```bash
onecli apps get --provider gmail
```
Check that `config.hasCredentials` is `true` or `connection` is not null. The response `hint` field has instructions and a docs URL for what stub credential files to create under `~/.gmail-mcp/`. Follow the hint — never overwrite existing files that don't contain `onecli-managed` values.
**If manual:** Tell the user:
> I need you to set up Google Cloud OAuth credentials:
>
> 1. Open https://console.cloud.google.com — create a new project or select existing
> 2. Go to **APIs & Services > Library**, search "Gmail API", click **Enable**
> 3. Go to **APIs & Services > Credentials**, click **+ CREATE CREDENTIALS > OAuth client ID**
> - If prompted for consent screen: choose "External", fill in app name and email, save
> - Application type: **Desktop app**, name: anything (e.g., "NanoClaw Gmail")
> 4. Click **DOWNLOAD JSON** and save as `gcp-oauth.keys.json`
>
> Where did you save the file? (Give me the full path, or paste the file contents here)
If user provides a path, copy it:
```bash
mkdir -p ~/.gmail-mcp
cp "/path/user/provided/gcp-oauth.keys.json" ~/.gmail-mcp/gcp-oauth.keys.json
```
If user pastes JSON content, write it to `~/.gmail-mcp/gcp-oauth.keys.json`.
### OAuth Authorization
Tell the user:
> I'm going to run Gmail authorization. A browser window will open — sign in and grant access. If you see an "app isn't verified" warning, click "Advanced" then "Go to [app name] (unsafe)" — this is normal for personal OAuth apps.
Run the authorization:
```bash
pnpm dlx @gongrzhe/server-gmail-autoauth-mcp auth
```
If that fails (some versions don't have an auth subcommand), try `timeout 60 pnpm dlx @gongrzhe/server-gmail-autoauth-mcp || true`. Verify with `ls ~/.gmail-mcp/credentials.json`.
### Build and restart
Clear stale per-group agent-runner copies (they only get re-created if missing, so existing copies won't pick up the new Gmail server):
```bash
rm -r data/sessions/*/agent-runner-src 2>/dev/null || true
```
Rebuild the container (agent-runner changed):
```bash
cd container && ./build.sh
```
Then compile and restart:
```bash
pnpm run build
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
```
## Phase 4: Verify
### Test tool access (both modes)
Tell the user:
> Gmail is connected! Send this in your main channel:
>
> `@Andy check my recent emails` or `@Andy list my Gmail labels`
### Test channel mode (Channel mode only)
Tell the user to send themselves a test email. The agent should pick it up within a minute. Monitor: `tail -f logs/nanoclaw.log | grep -iE "(gmail|email)"`.
Once verified, offer filter customization via `AskUserQuestion` — by default, only emails in the Primary inbox trigger the agent (Promotions, Social, Updates, and Forums are excluded). The user can keep this default or narrow further by sender, label, or keywords. No code changes needed for filters.
### Check logs if needed
```bash
tail -f logs/nanoclaw.log
```
## Troubleshooting
### Gmail connection not responding
Test directly:
```bash
pnpm dlx @gongrzhe/server-gmail-autoauth-mcp
```
### OAuth token expired
Re-authorize:
```bash
rm ~/.gmail-mcp/credentials.json
pnpm dlx @gongrzhe/server-gmail-autoauth-mcp
```
### Container can't access Gmail
- Verify `~/.gmail-mcp` is mounted: check `src/container-runner.ts` for the `.gmail-mcp` mount
- Check container logs: `cat groups/main/logs/container-*.log | tail -50`
### Emails not being detected (Channel mode only)
- By default, the channel polls unread Primary inbox emails (`is:unread category:primary`)
- Check logs for Gmail polling errors
## Removal
### Tool-only mode
1. Remove `~/.gmail-mcp` mount from `src/container-runner.ts`
2. Remove `gmail` MCP server and `mcp__gmail__*` from `container/agent-runner/src/index.ts`
3. Rebuild and restart
4. Clear stale agent-runner copies: `rm -r data/sessions/*/agent-runner-src 2>/dev/null || true`
5. Rebuild: `cd container && ./build.sh && cd .. && pnpm run build && launchctl kickstart -k gui/$(id -u)/com.nanoclaw` (macOS) or `systemctl --user restart nanoclaw` (Linux)
### Channel mode
1. Delete `src/channels/gmail.ts` and `src/channels/gmail.test.ts`
2. Remove `import './gmail.js'` from `src/channels/index.ts`
3. Remove `~/.gmail-mcp` mount from `src/container-runner.ts`
4. Remove `gmail` MCP server and `mcp__gmail__*` from `container/agent-runner/src/index.ts`
5. Uninstall: `pnpm uninstall googleapis`
6. Rebuild and restart
7. Clear stale agent-runner copies: `rm -r data/sessions/*/agent-runner-src 2>/dev/null || true`
8. Rebuild: `cd container && ./build.sh && cd .. && pnpm run build && launchctl kickstart -k gui/$(id -u)/com.nanoclaw` (macOS) or `systemctl --user restart nanoclaw` (Linux)
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---
name: add-image-vision
description: Add image vision to NanoClaw agents. Resizes and processes WhatsApp image attachments, then sends them to Claude as multimodal content blocks.
---
# Image Vision Skill
Adds the ability for NanoClaw agents to see and understand images sent via WhatsApp. Images are downloaded, resized with sharp, saved to the group workspace, and passed to the agent as base64-encoded multimodal content blocks.
## Phase 1: Pre-flight
1. Check if `src/image.ts` exists — skip to Phase 3 if already applied
2. Confirm `sharp` is installable (native bindings require build tools)
**Prerequisite:** WhatsApp must be installed first (`skill/whatsapp` merged). This skill modifies WhatsApp channel files.
## Phase 2: Apply Code Changes
### Ensure WhatsApp fork remote
```bash
git remote -v
```
If `whatsapp` is missing, add it:
```bash
git remote add whatsapp https://github.com/qwibitai/nanoclaw-whatsapp.git
```
### Merge the skill branch
```bash
git fetch whatsapp skill/image-vision
git merge whatsapp/skill/image-vision || {
git checkout --theirs pnpm-lock.yaml
git add pnpm-lock.yaml
git merge --continue
}
```
This merges in:
- `src/image.ts` (image download, resize via sharp, base64 encoding)
- `src/image.test.ts` (8 unit tests)
- Image attachment handling in `src/channels/whatsapp.ts`
- Image passing to agent in `src/index.ts` and `src/container-runner.ts`
- Image content block support in `container/agent-runner/src/index.ts`
- `sharp` npm dependency in `package.json`
If the merge reports conflicts, resolve them by reading the conflicted files and understanding the intent of both sides.
### Validate code changes
```bash
pnpm install
pnpm run build
pnpm exec vitest run src/image.test.ts
```
All tests must pass and build must be clean before proceeding.
## Phase 3: Configure
1. Rebuild the container (agent-runner changes need a rebuild):
```bash
./container/build.sh
```
2. Sync agent-runner source to group caches:
```bash
for dir in data/sessions/*/agent-runner-src/; do
cp container/agent-runner/src/*.ts "$dir"
done
```
3. Restart the service:
```bash
launchctl kickstart -k gui/$(id -u)/com.nanoclaw
```
## Phase 4: Verify
1. Send an image in a registered WhatsApp group
2. Check the agent responds with understanding of the image content
3. Check logs for "Processed image attachment":
```bash
tail -50 groups/*/logs/container-*.log
```
## Troubleshooting
- **"Image - download failed"**: Check WhatsApp connection stability. The download may timeout on slow connections.
- **"Image - processing failed"**: Sharp may not be installed correctly. Run `pnpm ls sharp` to verify.
- **Agent doesn't mention image content**: Check container logs for "Loaded image" messages. If missing, ensure agent-runner source was synced to group caches.
@@ -1,54 +1,28 @@
---
name: add-imessage
description: Add iMessage channel integration via Chat SDK. Local (macOS) or remote (Photon API) mode.
name: add-imessage-v2
description: Add iMessage channel integration to NanoClaw v2 via Chat SDK. Local (macOS) or remote (Photon API) mode.
---
# Add iMessage Channel
Adds iMessage support via the Chat SDK bridge. Two modes: local (macOS with Full Disk Access) or remote (Photon API).
Adds iMessage support to NanoClaw v2 using the Chat SDK bridge. Two modes: local (macOS with Full Disk Access) or remote (Photon API).
## Pre-flight
Check if `src/channels/imessage.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
NanoClaw doesn't ship channels in trunk. This skill copies the iMessage adapter in from the `channels` branch.
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/imessage.ts` exists
- `src/channels/index.ts` contains `import './imessage.js';`
- `chat-adapter-imessage` is listed in `package.json` dependencies
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
pnpm install chat-adapter-imessage
```
### 2. Copy the adapter
```bash
git show origin/channels:src/channels/imessage.ts > src/channels/imessage.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
Uncomment the iMessage import in `src/channels/index.ts`:
```typescript
import './imessage.js';
```
### 4. Install the adapter package (pinned)
```bash
pnpm install chat-adapter-imessage@0.1.1
```
### 5. Build
```bash
pnpm run build
```
@@ -75,7 +49,7 @@ Stop and wait for the user to confirm before continuing.
### Remote Mode (Photon API)
1. Set up a [Photon](https://photon.codes) account
1. Set up a [Photon](https://photon.im) account
2. Get your server URL and API key
### Configure environment
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@@ -71,16 +71,40 @@ AskUserQuestion: "Want periodic wiki health checks?"
2. **Monthly**
3. **Skip** — lint manually
If yes, ask the agent to schedule the lint task using the `schedule_task` MCP tool in conversation.
## Step 6: Restart
Run from your NanoClaw project root:
If yes, create a NanoClaw scheduled task that runs in the wiki group. This is NOT a Claude Code cron job — it's a NanoClaw group task that runs in the agent container. Insert it into the SQLite database:
```bash
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
systemctl --user restart $(systemd_unit) # Linux
pnpm exec tsx -e "
const Database = require('better-sqlite3');
const { CronExpressionParser } = require('cron-parser');
const db = new Database('store/messages.db');
const interval = CronExpressionParser.parse('<cron-expr>', { tz: process.env.TZ || 'UTC' });
const nextRun = interval.next().toISOString();
db.prepare('INSERT INTO scheduled_tasks (id, group_folder, chat_jid, prompt, schedule_type, schedule_value, context_mode, next_run, status, created_at) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?)').run(
'wiki-lint',
'<group_folder>',
'<chat_jid>',
'Run a wiki lint pass per the wiki container skill. Check for contradictions, orphan pages, stale content, missing cross-references, and gaps. Report findings and offer to fix issues.',
'cron',
'<cron-expr>',
'group',
nextRun,
'active',
new Date().toISOString()
);
db.close();
"
```
Use the group's `folder` and `chat_jid` from the registered groups table. Cron expressions: `0 10 * * 0` (weekly Sunday 10am) or `0 10 1 * *` (monthly 1st at 10am).
## Step 6: Build and restart
```bash
pnpm run build
./container/build.sh
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
```
Tell the user to test by sending a source to the wiki group.
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---
name: add-linear-v2
description: Add Linear channel integration to NanoClaw v2 via Chat SDK. Issue comment threads as conversations.
---
# Add Linear Channel
Adds Linear support to NanoClaw v2 using the Chat SDK bridge. The agent participates in issue comment threads.
## Pre-flight
Check if `src/channels/linear.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
```bash
pnpm install @chat-adapter/linear
```
Uncomment the Linear import in `src/channels/index.ts`:
```typescript
import './linear.js';
```
```bash
pnpm run build
```
## Credentials
> 1. Go to [Linear Settings > API Keys](https://linear.app/settings/account/security/api-keys/new)
> 2. Create a **Personal API Key** (or use an OAuth application for team-wide access)
> 3. Copy the API key
> 4. Set up a webhook:
> - Go to **Settings** > **API** > **Webhooks** > **New webhook**
> - URL: `https://your-domain/webhook/linear`
> - Select events: **Comment** (created, updated)
> - Copy the signing secret
### Configure environment
Add to `.env`:
```bash
LINEAR_API_KEY=lin_api_...
LINEAR_WEBHOOK_SECRET=your-webhook-secret
```
Sync to container: `mkdir -p data/env && cp .env data/env/env`
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, run `/manage-channels` to wire this channel to an agent group.
## Channel Info
- **type**: `linear`
- **terminology**: Linear has "teams" containing "issues." Each issue's comment thread is a separate conversation.
- **how-to-find-id**: The platform ID is your team key (e.g. `ENG`). Find it in Linear under Settings > Teams. Each issue becomes its own thread automatically.
- **supports-threads**: yes (issue comment threads are native conversations)
- **typical-use**: Webhook/notification — the agent receives issue comment events and responds in threads
- **default-isolation**: Typically shares a session with a chat channel (e.g. Slack) so the agent can discuss issues in the same context as team chat. Use a separate agent group if the Linear team tracks sensitive work.
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@@ -1,176 +0,0 @@
---
name: add-linear
description: Add Linear channel integration via Chat SDK. Issue comment threads as conversations.
---
# Add Linear Channel
Adds Linear support via the Chat SDK bridge. The agent participates in issue comment threads. Every comment on a Linear issue triggers the agent — no @-mention needed.
## Prerequisites
**Recommended:** Create a Linear **OAuth application** so the agent posts as an app identity, not as you. This prevents the adapter from filtering your own comments as self-messages.
1. Go to [Linear Settings > API > OAuth Applications](https://linear.app/settings/api/applications/new)
2. Create an app (e.g. "NanoClaw Bot")
- Developer URL: your repo URL (e.g. `https://github.com/your-org/nanoclaw`)
- Callback URL: `http://localhost`
3. After creating, click the app and enable **Client credentials** under grant types
4. Copy the **Client ID** and **Client Secret**
**Alternative:** Use a Personal API Key (`LINEAR_API_KEY`) for simpler setup. The agent will post as you, and your own comments will be filtered (other team members' comments still work).
## Install
NanoClaw doesn't ship channels in trunk. This skill copies the Linear adapter in from the `channels` branch and patches the Chat SDK bridge to support catch-all message forwarding (Linear OAuth apps can't be @-mentioned).
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/linear.ts` exists
- `src/channels/index.ts` contains `import './linear.js';`
- `@chat-adapter/linear` is listed in `package.json` dependencies
- `src/channels/chat-sdk-bridge.ts` contains `catchAll`
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
```
### 2. Copy the adapter
```bash
git show origin/channels:src/channels/linear.ts > src/channels/linear.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
```typescript
import './linear.js';
```
### 4. Patch the Chat SDK bridge for catch-all message forwarding
Linear OAuth apps can't be @-mentioned, so the bridge's `onNewMention` handler never fires. Add `catchAll` support to `src/channels/chat-sdk-bridge.ts`:
**4a.** Add `catchAll?: boolean` to the `ChatSdkBridgeConfig` interface:
```typescript
/**
* Forward ALL messages in unsubscribed threads, not just @-mentions.
* Use for platforms where the bot identity can't be @-mentioned (e.g.
* Linear OAuth apps). The thread is auto-subscribed on first message.
*/
catchAll?: boolean;
```
**4b.** Add this handler block right after the `chat.onNewMention(...)` block (before the DMs block):
```typescript
// Catch-all for platforms where @-mention isn't possible (e.g. Linear
// OAuth apps). Forward every unsubscribed message and auto-subscribe.
if (config.catchAll) {
chat.onNewMessage(/.*/, async (thread, message) => {
const channelId = adapter.channelIdFromThreadId(thread.id);
await setupConfig.onInbound(channelId, thread.id, await messageToInbound(message));
await thread.subscribe();
});
}
```
### 5. Install the adapter package (pinned)
```bash
pnpm install @chat-adapter/linear@4.27.0
```
### 6. Build
```bash
pnpm run build
```
## Credentials
### 1. Set up a webhook
1. Go to **Linear Settings** > **API** > **Webhooks** > **New webhook**
2. Label: `NanoClaw`
3. URL: `https://your-domain/webhook/linear` (the shared webhook server, default port 3000)
4. Team: select the team you want to monitor
5. Events: check **Comment**
6. Save — copy the **signing secret**
Note: Linear webhook delivery may be delayed 1-5 minutes for new webhooks. This is normal.
### 2. Configure environment
Add to `.env`:
```bash
# OAuth app (recommended)
LINEAR_CLIENT_ID=your-client-id
LINEAR_CLIENT_SECRET=your-client-secret
# OR Personal API key (simpler, but agent posts as you)
# LINEAR_API_KEY=lin_api_...
LINEAR_WEBHOOK_SECRET=your-webhook-signing-secret
LINEAR_BOT_USERNAME=NanoClaw Bot
LINEAR_TEAM_KEY=ENG
```
- `LINEAR_BOT_USERNAME`: display name for the bot (used for self-message detection when using a Personal API Key)
- `LINEAR_TEAM_KEY`: the Linear team key (e.g. `ENG`, `NAN`). Find it in Linear under Settings > Teams. All issues in this team route to one messaging group.
Sync to container: `mkdir -p data/env && cp .env data/env/env`
## Wiring
Ask the user: **Is this a private or public Linear workspace?**
- **Private workspace** — use `unknown_sender_policy: 'public'`. Only workspace members can comment.
- **Public workspace** — use `unknown_sender_policy: 'strict'` and add trusted members (see GitHub skill for member registration example).
Run `/manage-channels` to wire the Linear channel to an agent group, or insert manually:
```sql
-- Create messaging group (one per team)
INSERT INTO messaging_groups (id, channel_type, platform_id, name, is_group, unknown_sender_policy, created_at)
VALUES ('mg-linear-eng', 'linear', 'linear:ENG', 'Engineering', 1, 'public', datetime('now'));
-- Wire to agent group
INSERT INTO messaging_group_agents (id, messaging_group_id, agent_group_id, trigger_rules, response_scope, session_mode, priority, created_at)
VALUES ('mga-linear-eng', 'mg-linear-eng', '<your-agent-group-id>', '', 'all', 'per-thread', 10, datetime('now'));
```
The `platform_id` must be `linear:<TEAM_KEY>` matching the `LINEAR_TEAM_KEY` env var. Use `per-thread` session mode so each issue comment thread gets its own agent session.
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, restart the service to pick up the new channel.
Run from your NanoClaw project root:
```bash
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
systemctl --user restart $(systemd_unit) # Linux
```
## Channel Info
- **type**: `linear`
- **terminology**: Linear has "teams" containing "issues." Each issue's comment thread is a separate conversation.
- **how-to-find-id**: The platform ID is `linear:<TEAM_KEY>` (e.g. `linear:ENG`). Find your team key in Linear under Settings > Teams. Each issue becomes its own thread automatically.
- **supports-threads**: yes (issue comment threads are native conversations)
- **typical-use**: Webhook-driven — the agent receives all issue comment events and responds automatically. No @-mention needed (Linear OAuth apps can't be @-mentioned).
- **default-isolation**: Use `per-thread` session mode. Each issue comment thread gets its own isolated agent session.
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@@ -0,0 +1,65 @@
---
name: add-matrix-v2
description: Add Matrix channel integration to NanoClaw v2 via Chat SDK. Works with any Matrix homeserver.
---
# Add Matrix Channel
Adds Matrix support to NanoClaw v2 using the Chat SDK bridge.
## Pre-flight
Check if `src/channels/matrix.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
```bash
pnpm install @beeper/chat-adapter-matrix
```
Uncomment the Matrix import in `src/channels/index.ts`:
```typescript
import './matrix.js';
```
```bash
pnpm run build
```
## Credentials
1. Register a bot account on your Matrix homeserver (e.g., via Element)
2. Get the homeserver URL (e.g., `https://matrix.org` or your self-hosted URL)
3. Get an access token:
- In Element: **Settings** > **Help & About** > **Access Token** (advanced)
- Or via API: `curl -XPOST 'https://matrix.org/_matrix/client/r0/login' -d '{"type":"m.login.password","user":"botuser","password":"..."}'`
4. Note the bot's user ID (e.g., `@botuser:matrix.org`)
### Configure environment
Add to `.env`:
```bash
MATRIX_BASE_URL=https://matrix.org
MATRIX_ACCESS_TOKEN=your-access-token
MATRIX_USER_ID=@botuser:matrix.org
MATRIX_BOT_USERNAME=botuser
```
Sync to container: `mkdir -p data/env && cp .env data/env/env`
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, run `/manage-channels` to wire this channel to an agent group.
## Channel Info
- **type**: `matrix`
- **terminology**: Matrix has "rooms." A room can be a group chat or a direct message. Rooms have internal IDs (like `!abc123:matrix.org`) and optional aliases (like `#general:matrix.org`).
- **how-to-find-id**: In Element, click the room name > Settings > Advanced — the "Internal room ID" is the platform ID (starts with `!`). Or use a room alias like `#general:matrix.org`.
- **supports-threads**: partial (some clients support threads, but not all — treat as no for reliability)
- **typical-use**: Interactive chat — rooms or direct messages
- **default-isolation**: Same agent group for rooms where you're the primary user. Separate agent group for rooms with different communities or sensitive contexts.
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@@ -1,148 +0,0 @@
---
name: add-matrix
description: Add Matrix channel integration via Chat SDK. Works with any Matrix homeserver.
---
# Add Matrix Channel
Adds Matrix support via the Chat SDK bridge.
## Install
NanoClaw doesn't ship channels in trunk. This skill copies the Matrix adapter in from the `channels` branch.
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/matrix.ts` exists
- `src/channels/index.ts` contains `import './matrix.js';`
- `@beeper/chat-adapter-matrix` is listed in `package.json` dependencies
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
```
### 2. Copy the adapter
```bash
git show origin/channels:src/channels/matrix.ts > src/channels/matrix.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
```typescript
import './matrix.js';
```
### 4. Install the adapter package (pinned)
```bash
pnpm install @beeper/chat-adapter-matrix@0.2.0
```
### 5. Patch matrix-js-sdk ESM imports
The adapter's published dist references `matrix-js-sdk/lib/...` without `.js`
extensions, which fails under Node 22 strict ESM resolution. Add the missing
extensions (idempotent — safe to re-run):
```bash
node -e '
const fs = require("fs"), path = require("path");
const root = "node_modules/.pnpm";
const dir = fs.readdirSync(root).find(d => d.startsWith("@beeper+chat-adapter-matrix@"));
if (!dir) { console.log("Matrix adapter not installed"); process.exit(0); }
const f = path.join(root, dir, "node_modules/@beeper/chat-adapter-matrix/dist/index.js");
fs.writeFileSync(f, fs.readFileSync(f, "utf8").replace(
/from "(matrix-js-sdk\/lib\/[^"]+?)(?<!\.js)"/g, "from \"$1.js\""
));
console.log("Patched", f);
'
```
Re-run this after every `pnpm install` that touches the adapter.
### 6. Build
```bash
pnpm run build
```
## Credentials
The bot needs its own Matrix account — separate from the user's account. This is required because Matrix cannot send DMs to yourself.
### Create a bot account
1. Open [app.element.io](https://app.element.io) in a private/incognito window (or sign out first)
2. Register a new account for the bot (e.g. `andybot` on matrix.org)
3. Note the bot's user ID (e.g. `@andybot:matrix.org`)
### Choose an auth method
**Option A: Username + Password (simpler)**
No extra steps — just use the bot account's credentials directly. The adapter logs in automatically.
```bash
MATRIX_BASE_URL=https://matrix.org
MATRIX_USERNAME=andybot
MATRIX_PASSWORD=your-bot-password
MATRIX_USER_ID=@andybot:matrix.org
MATRIX_BOT_USERNAME=Andy
```
**Option B: Access Token (recommended for production)**
Get an access token from Element: sign into the bot account → **Settings** > **Help & About** > **Access Token** (under Advanced). Or via API:
```bash
curl -XPOST 'https://matrix.org/_matrix/client/r0/login' \
-d '{"type":"m.login.password","user":"andybot","password":"..."}'
```
```bash
MATRIX_BASE_URL=https://matrix.org
MATRIX_ACCESS_TOKEN=your-access-token
MATRIX_USER_ID=@andybot:matrix.org
MATRIX_BOT_USERNAME=Andy
```
### Optional settings
```bash
MATRIX_INVITE_AUTOJOIN=true # Auto-accept room invites (default: true)
MATRIX_INVITE_AUTOJOIN_ALLOWLIST=@you:matrix.org # Only accept invites from these users
MATRIX_RECOVERY_KEY=your-recovery-key # Enable E2EE cross-signing
MATRIX_DEVICE_ID=NANOCLAW01 # Stable device ID across restarts
```
### Configure environment
Add the chosen env vars to `.env`, then sync:
```bash
mkdir -p data/env && cp .env data/env/env
```
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, run `/manage-channels` to wire this channel to an agent group.
## Channel Info
- **type**: `matrix`
- **terminology**: Matrix has "rooms." A room can be a group chat or a direct message. Rooms have internal IDs (like `!abc123:matrix.org`) and optional aliases (like `#general:matrix.org`).
- **how-to-find-id**: For DMs, use the bot's `openDM` to resolve the room automatically. For group rooms, in Element click the room name > Settings > Advanced — the "Internal room ID" is the platform ID (starts with `!`). Or use a room alias like `#general:matrix.org`.
- **supports-threads**: partial (some clients support threads, but not all — treat as no for reliability)
- **typical-use**: Interactive chat — rooms or direct messages. Requires a separate bot account (the agent cannot DM users from their own account).
- **default-isolation**: Same agent group for rooms where you're the primary user. Separate agent group for rooms with different communities or sensitive contexts.
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@@ -1,211 +0,0 @@
---
name: add-mnemon
description: Add persistent graph-based memory via mnemon. Agents recall past context before responding and remember insights after each turn.
---
# Add Mnemon — Persistent Memory
Installs [mnemon](https://github.com/mnemon-dev/mnemon) in the agent container image. On each container start, `mnemon setup` registers Claude Code hooks that surface relevant memory before the agent responds and store new insights after each turn. Memory is written to the per-agent-group `.claude/` mount and survives container restarts.
## Provider Compatibility
**mnemon hooks only work with `--target claude-code`.** If the agent group uses `AGENT_PROVIDER=opencode`, hooks registered by `mnemon setup` will never fire — OpenCode spawns its own process and doesn't invoke the `claude` CLI at all.
Check your provider:
```bash
grep AGENT_PROVIDER .env groups/*/container.json 2>/dev/null
```
- `AGENT_PROVIDER=claude` (default) — fully compatible, proceed with both Phase 2 steps.
- `AGENT_PROVIDER=opencode` — use **Phase 2 (OpenCode path)** instead of the standard entrypoint step.
## Phase 1: Pre-flight
### Check if already applied
```bash
grep -q 'MNEMON_VERSION' container/Dockerfile && echo "Already applied" || echo "Not applied"
```
If already applied, skip to Phase 3 (Verify).
### Check latest mnemon version
```bash
curl -fsSL https://api.github.com/repos/mnemon-dev/mnemon/releases/latest | grep '"tag_name"'
```
Note the version (e.g. `v0.1.1`) — use it as `MNEMON_VERSION` in the next step.
## Phase 2: Apply Changes (Claude Code path)
### 1. Dockerfile — install mnemon binary
Add after the AWS CLI block, before the Bun runtime section:
```dockerfile
# ---- mnemon — persistent agent memory ----------------------------------------
ARG MNEMON_VERSION=0.1.1
RUN ARCH=$(dpkg --print-architecture) && \
curl -fsSL "https://github.com/mnemon-dev/mnemon/releases/download/v${MNEMON_VERSION}/mnemon_${MNEMON_VERSION}_linux_${ARCH}.tar.gz" \
| tar -xz -C /usr/local/bin mnemon && \
chmod +x /usr/local/bin/mnemon
ENV MNEMON_DATA_DIR=/home/node/.claude/mnemon
```
`MNEMON_DATA_DIR` points into the per-agent-group `.claude/` mount so memory persists across container restarts. No extra volume mounts needed.
### 2. Entrypoint — run mnemon setup on each container start
`mnemon setup` is idempotent. Edit `container/entrypoint.sh` to run it right after `set -e`, before the `cat` that captures stdin:
```bash
#!/bin/bash
# NanoClaw agent container entrypoint.
#
# ...existing header comment...
set -e
mnemon setup --target claude-code --yes --global >/dev/stderr 2>&1
cat > /tmp/input.json
exec bun run /app/src/index.ts < /tmp/input.json
```
`>/dev/stderr 2>&1` routes all mnemon output to stderr (docker logs) so it doesn't interfere with the JSON stdin handshake between host and agent-runner.
### 3. Rebuild and smoke-test the image
```bash
./container/build.sh
docker run --rm --entrypoint mnemon nanoclaw-agent:latest --version
```
## Phase 3: Restart and Verify
### Restart the service
Run from your NanoClaw project root:
```bash
source setup/lib/install-slug.sh
systemctl --user restart $(systemd_unit) # Linux
# launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
```
### Confirm mnemon hooks are registered
After the next container starts, check that setup ran:
```bash
docker logs $(docker ps --filter name=nanoclaw-v2 --format '{{.Names}}' | head -1) 2>&1 | grep -i mnemon
```
Then inspect the hooks inside the running container:
```bash
docker exec $(docker ps --filter name=nanoclaw-v2 --format '{{.Names}}' | head -1) \
cat /home/node/.claude/settings.json | grep -A5 mnemon
```
### Test memory recall
Have a conversation with the agent, then start a new session and reference something from the earlier one. Mnemon should surface the relevant context automatically without you restating it.
## Phase 2 (OpenCode path) — context injection
mnemon hooks don't fire under OpenCode. Instead, the agent-runner injects mnemon context directly into every prompt via `wrapPromptWithContext()` in `container/agent-runner/src/providers/opencode.ts`. This is already implemented in NanoClaw — no code changes needed if you're on current `ester`/`main`.
**How it works:** On each prompt, `readMnemonContext()` checks for `MNEMON_DATA_DIR` (set by the Dockerfile `ENV`). If the env var is present, it reads `$MNEMON_DATA_DIR/prompt/guide.md` (mnemon's custom prompt guide, written by `mnemon setup`) or falls back to an inline guide. The content is prepended as a `<system>` block, instructing the agent to run `mnemon recall` at the start of relevant tasks and `mnemon remember` after key decisions.
**What this means for the agent:** The agent (running inside OpenCode) can call `mnemon recall`, `mnemon remember`, `mnemon link`, and `mnemon status` via its bash tool. mnemon writes its graph to `$MNEMON_DATA_DIR`, which is in the per-agent-group `.claude/` mount — so memory persists across container restarts.
**Applying:** Only the Dockerfile step from Phase 2 is needed for OpenCode agents. Skip `container/entrypoint.sh` entirely.
```dockerfile
ARG MNEMON_VERSION=0.1.1
RUN ARCH=$(dpkg --print-architecture) && \
curl -fsSL "https://github.com/mnemon-dev/mnemon/releases/download/v${MNEMON_VERSION}/mnemon_${MNEMON_VERSION}_linux_${ARCH}.tar.gz" \
| tar -xz -C /usr/local/bin mnemon && \
chmod +x /usr/local/bin/mnemon
ENV MNEMON_DATA_DIR=/home/node/.claude/mnemon
```
Then rebuild: `./container/build.sh`
### Verify (OpenCode)
Start a session and ask the agent to run `mnemon status`. It should report empty graphs (no error) on first run.
```bash
# Also confirm the binary is present in the image:
docker run --rm --entrypoint mnemon nanoclaw-agent:latest --version
```
## Memory Storage
Mnemon writes to `/home/node/.claude/mnemon/` inside the container, which maps to the per-agent-group `.claude/` directory on the host. To find the exact host path:
```bash
docker inspect $(docker ps --filter name=nanoclaw-v2 --format '{{.Names}}' | head -1) \
--format '{{range .Mounts}}{{if eq .Destination "/home/node/.claude"}}{{.Source}}{{end}}{{end}}'
```
To reset all memory for an agent, stop the container and delete the `mnemon/` subdirectory from that host path.
## Migration Guide Update
If you are using `/migrate-nanoclaw`, add these entries to `.nanoclaw-migrations/05-dockerfile.md`:
**Dockerfile — after AWS CLI, before Bun runtime:**
```dockerfile
ARG MNEMON_VERSION=0.1.1
RUN ARCH=$(dpkg --print-architecture) && \
curl -fsSL "https://github.com/mnemon-dev/mnemon/releases/download/v${MNEMON_VERSION}/mnemon_${MNEMON_VERSION}_linux_${ARCH}.tar.gz" \
| tar -xz -C /usr/local/bin mnemon && \
chmod +x /usr/local/bin/mnemon
ENV MNEMON_DATA_DIR=/home/node/.claude/mnemon
```
**`container/entrypoint.sh` — add after `set -e`:**
```bash
mnemon setup --target claude-code --yes --global >/dev/stderr 2>&1
```
## Troubleshooting
### `mnemon: command not found` in container
The image wasn't rebuilt after adding the Dockerfile layer. Run `./container/build.sh` and restart.
### Memory not persisting across restarts
Verify `MNEMON_DATA_DIR` resolves to a mounted path (not an in-container ephemeral directory):
```bash
docker exec <container> sh -c 'ls -la $MNEMON_DATA_DIR'
```
If the directory is empty after conversations, the mount is missing or the path is wrong. Check the host mount with the `docker inspect` command above.
### Agent not using past memory
`mnemon setup` writes hooks into `/home/node/.claude/settings.json`. Verify:
```bash
docker exec <container> cat /home/node/.claude/settings.json
```
If the hooks are absent, `mnemon setup` may have failed silently. Check container startup logs for errors from mnemon.
### Setup fails at container start
Run setup manually inside a running container to see the full error:
```bash
docker exec -it <container> mnemon setup --target claude-code --yes --global
```
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@@ -1,182 +0,0 @@
---
name: add-ollama-provider
description: Route a NanoClaw agent group to a local Ollama model instead of the Anthropic API. Ollama speaks the Anthropic API natively (v1/messages), so no provider code changes are needed — just env var overrides and a model setting. Use when the user wants to run their agent locally, cut API costs, or experiment with open-weight models. See docs/ollama.md for background.
---
# Add Ollama Provider
Routes an agent group to a local Ollama instance instead of the Anthropic API.
See `docs/ollama.md` for how this works and the tradeoffs involved.
## Prerequisites
1. **Ollama is installed and running** on the host — verify: `curl -s http://localhost:11434/api/tags`
2. **A model is pulled** — e.g. `ollama pull gemma4` or `ollama pull qwen3-coder`
3. **The agent group already exists** — run `/init-first-agent` first if needed
## 1. Check source support
The feature requires two fields in `ContainerConfig` (`env` and `blockedHosts`) and their
corresponding wiring in `container-runner.ts`. Check if already present:
```bash
grep -c 'blockedHosts' src/container-config.ts src/container-runner.ts
```
If either count is 0, apply the changes in steps 1a and 1b. Otherwise skip to step 2.
### 1a. Extend ContainerConfig
In `src/container-config.ts`, add to the `ContainerConfig` interface:
```typescript
env?: Record<string, string>;
blockedHosts?: string[];
```
And in `readContainerConfig`, add inside the returned object:
```typescript
env: raw.env,
blockedHosts: raw.blockedHosts,
```
### 1b. Wire into container-runner
In `src/container-runner.ts`, after the `NANOCLAW_MCP_SERVERS` block, add:
```typescript
// Per-agent-group env overrides — applied last to win over OneCLI values.
if (containerConfig.env) {
for (const [key, value] of Object.entries(containerConfig.env)) {
args.push('-e', `${key}=${value}`);
}
}
// Blocked hosts: resolve to 0.0.0.0 so they are unreachable inside the container.
if (containerConfig.blockedHosts) {
for (const host of containerConfig.blockedHosts) {
args.push('--add-host', `${host}:0.0.0.0`);
}
}
```
### 1c. Fix home directory permissions (if not already done)
The container may run as your host uid (not uid 1000). Check the Dockerfile:
```bash
grep 'chmod.*home/node' container/Dockerfile
```
If it shows `chmod 755`, change it to `chmod 777` so any uid can write there.
Then rebuild the container image: `./container/build.sh`
## 2. Identify the setup
Ask the user (plain text, not AskUserQuestion):
1. **Which agent group?** List available groups: `pnpm exec tsx scripts/q.ts data/v2.db "SELECT folder, name FROM agent_groups;"`
2. **Which Ollama model?** List available: `curl -s http://localhost:11434/api/tags | grep '"name"'`
3. **Block Anthropic API?** Recommended yes — prevents accidental spend if config drifts.
Record as `FOLDER`, `MODEL`, and `BLOCK_ANTHROPIC`.
## 3. Configure container.json
Read `groups/<FOLDER>/container.json`. Add (or merge into) an `env` block and optionally `blockedHosts`:
```json
{
"env": {
"ANTHROPIC_BASE_URL": "http://host.docker.internal:11434",
"ANTHROPIC_API_KEY": "ollama",
"NO_PROXY": "host.docker.internal",
"no_proxy": "host.docker.internal"
},
"blockedHosts": ["api.anthropic.com"]
}
```
Omit `blockedHosts` if the user declined step 2.
**Why these vars:** `ANTHROPIC_BASE_URL` redirects the Anthropic SDK to Ollama.
`ANTHROPIC_API_KEY=ollama` satisfies the SDK's key requirement (Ollama ignores it).
`NO_PROXY` bypasses the OneCLI HTTPS proxy for requests to `host.docker.internal`
so they reach Ollama directly instead of going through the credential gateway.
## 4. Set the model
Read the agent group's shared Claude settings:
```bash
# Find the agent group ID
AG_ID=$(pnpm exec tsx scripts/q.ts data/v2.db "SELECT id FROM agent_groups WHERE folder='<FOLDER>';")
SETTINGS=data/v2-sessions/$AG_ID/.claude-shared/settings.json
```
Add `"model": "<MODEL>"` to that settings file. Create the file if it doesn't exist:
```json
{
"model": "gemma4:latest"
}
```
If the file already has content, merge the `model` key in — don't overwrite existing keys.
**Why here and not container.json:** Claude Code reads its model from its own settings
file, not from env vars. This file is bind-mounted into the container as `~/.claude/settings.json`.
## 5. Build and restart
Run from your NanoClaw project root:
```bash
export PATH="/opt/homebrew/bin:$PATH"
pnpm run build
source setup/lib/install-slug.sh
launchctl unload ~/Library/LaunchAgents/$(launchd_label).plist
launchctl load ~/Library/LaunchAgents/$(launchd_label).plist
# Linux: systemctl --user restart $(systemd_unit)
```
## 6. Verify
Send a message to the agent. Then confirm:
```bash
# Ollama shows the model as active
curl -s http://localhost:11434/api/ps | grep '"name"'
# Container has the right env vars
CTR=$(docker ps --filter "name=nanoclaw-v2-<FOLDER>" --format "{{.Names}}" | head -1)
docker inspect "$CTR" --format '{{json .HostConfig.ExtraHosts}}'
docker exec "$CTR" env | grep ANTHROPIC
```
Expected: `api.anthropic.com:0.0.0.0` in ExtraHosts, `ANTHROPIC_BASE_URL=http://host.docker.internal:11434`.
## Reverting to Claude
To switch back to the Anthropic API:
1. Remove the `env` and `blockedHosts` keys from `groups/<FOLDER>/container.json`
2. Remove `"model"` from the shared settings file
3. Restart the service
No rebuild needed — both files are read at container spawn time.
## Troubleshooting
**Agent hangs, no response:** Ollama may be loading the model cold (large models take 1030s).
Watch `curl -s http://localhost:11434/api/ps` — the model appears once loaded.
**"model not found" error in container logs:** The model name in settings.json doesn't match
what Ollama has. Run `ollama list` on the host and use the exact name shown.
**Responses claim to be Claude:** The model was trained on data that includes Claude conversations.
Add a line to `groups/<FOLDER>/CLAUDE.md` telling it what model it runs on.
**Agent responds but Ollama shows no activity:** `NO_PROXY` may not have taken effect for
`http_proxy` (lowercase). Add both `NO_PROXY` and `no_proxy` to the env block.
+3 -6
View File
@@ -54,7 +54,7 @@ git remote -v
If `upstream` is missing, add it:
```bash
git remote add upstream https://github.com/nanocoai/nanoclaw.git
git remote add upstream https://github.com/qwibitai/nanoclaw.git
```
### Merge the skill branch
@@ -122,12 +122,9 @@ OLLAMA_HOST=http://your-ollama-host:11434
### Restart the service
Run from your NanoClaw project root:
```bash
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
systemctl --user restart $(systemd_unit) # Linux
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
```
## Phase 4: Verify
+45 -163
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@@ -1,119 +1,20 @@
---
name: add-opencode
description: Use OpenCode as an agent provider (AGENT_PROVIDER=opencode). OpenRouter, OpenAI, Google, DeepSeek, etc. via OpenCode config — not the Anthropic Agent SDK. Per-session and per-group via agent_provider; host passes OPENCODE_* and XDG mount when spawning containers.
description: Use OpenCode as an agent provider on NanoClaw v2 (AGENT_PROVIDER=opencode). OpenRouter, OpenAI, Google, DeepSeek, etc. via OpenCode config — not the Anthropic Agent SDK. Per-session and per-group via agent_provider; host passes OPENCODE_* and XDG mount when spawning containers.
---
# OpenCode agent provider
# OpenCode agent provider (v2)
NanoClaw runs agents in a long-lived **poll loop** inside the container. The backend is selected with **`AGENT_PROVIDER`** (`claude` | `opencode` | `mock`).
NanoClaw **v2** runs agents in a long-lived **poll loop** inside the container. The backend is selected with **`AGENT_PROVIDER`** (`claude` | `opencode` | `mock`), not the v1 `AGENT_RUNNER` env var.
Trunk ships with only the `claude` provider baked in. This skill copies the OpenCode provider files in from the `providers` branch, wires them into the host and container barrels, installs dependencies, and rebuilds the image.
## What it does (upstream v2)
## Install
### Pre-flight
If all of the following are already present, skip to **Configuration**:
- `src/providers/opencode.ts`
- `container/agent-runner/src/providers/opencode.ts`
- `import './opencode.js';` line in `src/providers/index.ts`
- `import './opencode.js';` line in `container/agent-runner/src/providers/index.ts`
- `@opencode-ai/sdk` in `container/agent-runner/package.json`
- `opencode-ai@${OPENCODE_VERSION}` in the pnpm global-install block in `container/Dockerfile`
Missing pieces — continue below. All steps are idempotent; re-running is safe.
### 1. Fetch the providers branch
```bash
git fetch origin providers
```
### 2. Copy the OpenCode source files
Wholesale copies (owned entirely by this skill — user edits to these files won't survive a re-run, as designed):
```bash
git show origin/providers:src/providers/opencode.ts > src/providers/opencode.ts
git show origin/providers:container/agent-runner/src/providers/opencode.ts > container/agent-runner/src/providers/opencode.ts
git show origin/providers:container/agent-runner/src/providers/mcp-to-opencode.ts > container/agent-runner/src/providers/mcp-to-opencode.ts
git show origin/providers:container/agent-runner/src/providers/mcp-to-opencode.test.ts > container/agent-runner/src/providers/mcp-to-opencode.test.ts
git show origin/providers:container/agent-runner/src/providers/opencode.factory.test.ts > container/agent-runner/src/providers/opencode.factory.test.ts
```
### 3. Append the self-registration imports
Each barrel gets one line appended at the end — skip if the line is already present.
`src/providers/index.ts`:
```typescript
import './opencode.js';
```
`container/agent-runner/src/providers/index.ts`:
```typescript
import './opencode.js';
```
### 4. Add the agent-runner dependency
Pinned. Bump deliberately, not with `bun update`. Use `1.4.17` — must match the `opencode-ai` CLI version pinned in step 5. The 1.14.x SDK has a completely different API and is **incompatible** with the current provider code.
```bash
cd container/agent-runner && bun add @opencode-ai/sdk@1.4.17 && cd -
```
### 5. Add `opencode-ai` to the container Dockerfile
Two edits to `container/Dockerfile`, both idempotent (skip if already present):
**(a)** In the "Pin CLI versions" ARG block (around line 18), add after `ARG VERCEL_VERSION=latest`:
```dockerfile
ARG OPENCODE_VERSION=1.4.17
```
> **Do not use `latest`** — the CLI and SDK must be the same version. `latest` silently upgrades the CLI to 1.14.x which has a breaking session API change (UUID session IDs → `ses_` prefix) incompatible with SDK 1.4.x.
**(b)** In the `pnpm install -g` block (around line 80), append `"opencode-ai@${OPENCODE_VERSION}"` to the list:
```dockerfile
pnpm install -g \
"@anthropic-ai/claude-code@${CLAUDE_CODE_VERSION}" \
"agent-browser@${AGENT_BROWSER_VERSION}" \
"vercel@${VERCEL_VERSION}" \
"opencode-ai@${OPENCODE_VERSION}"
```
### 6. Build
```bash
pnpm run build # host
pnpm exec tsc -p container/agent-runner/tsconfig.json --noEmit # container typecheck
./container/build.sh # agent image
```
> **Build cache gotcha:** The container buildkit caches COPY steps aggressively. If provider files were already present in the build context before, the new files may not be picked up. If you see "Unknown provider: opencode" after the build, prune the builder and rebuild:
> ```bash
> docker builder prune -f && ./container/build.sh
> ```
### 7. Propagate to existing per-group overlays
Each agent group has a live source overlay at `data/v2-sessions/<group-id>/agent-runner-src/providers/` that **overrides the image at runtime**. This overlay is created when the group is first wired and never auto-updated by image rebuilds. Any group that already existed before this skill ran needs the new files copied in manually.
```bash
for overlay in data/v2-sessions/*/agent-runner-src/providers/; do
[ -d "$overlay" ] || continue
cp container/agent-runner/src/providers/opencode.ts "$overlay"
cp container/agent-runner/src/providers/mcp-to-opencode.ts "$overlay"
cp container/agent-runner/src/providers/index.ts "$overlay"
echo "Updated: $overlay"
done
```
- **`container/agent-runner/src/providers/opencode.ts`** — `OpenCodeProvider` implementing `AgentProvider` (SSE via OpenCode server, session resume, MCP from merged `ProviderOptions.mcpServers` only — no `settings.json` MCP bridge).
- **`container/agent-runner/src/providers/mcp-to-opencode.ts`** — maps v2 `McpServerConfig` to OpenCode `mcp` entries.
- **`container/agent-runner/src/providers/factory.ts`** — registers `opencode`.
- **`container/agent-runner/package.json`** — dependency `@opencode-ai/sdk`.
- **`container/Dockerfile`** — global **`opencode-ai`** CLI for `opencode serve`.
- **`src/container-runner.ts`** — when effective provider is `opencode`: `XDG_DATA_HOME=/opencode-xdg`, session-scoped host mount, `NO_PROXY`/`no_proxy` merge for `127.0.0.1,localhost`, passes through `OPENCODE_PROVIDER`, `OPENCODE_MODEL`, `OPENCODE_SMALL_MODEL` from the host environment.
## Configuration
@@ -121,81 +22,57 @@ done
Set model/provider strings in the form OpenCode expects (often `provider/model-id`). **Put comments on their own lines** — a `#` inside a value is kept verbatim and breaks model IDs.
These variables are read **on the host** and passed into the container only when the effective provider is `opencode`. They do not switch the provider by themselves; the DB still needs `agent_provider` set (below).
These variables are read **on the host** and passed into the container only when the effective provider is `opencode` (see `src/container-runner.ts`). They do not switch the provider by themselves; the DB still needs `agent_provider` set (below).
- `OPENCODE_PROVIDER` — OpenCode provider id, e.g. `openrouter`, `anthropic`, `deepseek`.
- `OPENCODE_MODEL` — full model id in `provider/model` form, e.g. `deepseek/deepseek-chat`.
- `OPENCODE_SMALL_MODEL` — optional second model for lighter tasks; defaults to `OPENCODE_MODEL` if unset.
- `ANTHROPIC_BASE_URL`**required for non-`anthropic` providers.** The opencode container provider passes this as the `baseURL` for the upstream provider config so requests route through OneCLI's credential proxy or directly to the provider's API. Set it to the provider's API base URL (e.g. `https://api.deepseek.com/v1`, `https://openrouter.ai/api/v1`).
- `OPENCODE_PROVIDER` — OpenCode provider id, e.g. `openrouter`, `anthropic` (if unset, the runner defaults to `anthropic`).
- `OPENCODE_MODEL` — full model id, e.g. `openrouter/anthropic/claude-sonnet-4`.
- `OPENCODE_SMALL_MODEL` — optional second model for “small” tasks.
Credentials: register provider API keys in OneCLI with the matching `--host-pattern` (e.g. `api.deepseek.com`, `openrouter.ai`). OneCLI injects them via `HTTPS_PROXY` in the container — the key never lives in `.env` or the container environment.
After adding a secret, **grant the agent access** — agents in `selective` mode only receive secrets they've been explicitly assigned:
Use the safe merge pattern — `set-secrets` replaces the entire list, so always read first:
```bash
AGENT_ID=$(onecli agents list | jq -r '.data[] | select(.identifier=="<agentGroupId>") | .id')
CURRENT=$(onecli agents secrets --id "$AGENT_ID" | jq -r '[.data[]] | join(",")')
MERGED=$(printf '%s' "$CURRENT,<new-secret-id>" | tr ',' '\n' | sort -u | paste -sd ',' -)
onecli agents set-secrets --id "$AGENT_ID" --secret-ids "$MERGED"
onecli agents secrets --id "$AGENT_ID"
```
#### Example: DeepSeek
```env
OPENCODE_PROVIDER=deepseek
OPENCODE_MODEL=deepseek/deepseek-chat
OPENCODE_SMALL_MODEL=deepseek/deepseek-chat
ANTHROPIC_BASE_URL=https://api.deepseek.com/v1
```
Register the key:
```bash
onecli secrets create --name "DeepSeek" --type generic \
--value YOUR_KEY --host-pattern "api.deepseek.com" \
--header-name "Authorization" --value-format "Bearer {value}"
```
Credentials: OneCLI / credential proxy patterns are unchanged. For non-`anthropic` OpenCode providers, the runner registers a placeholder API key and **`ANTHROPIC_BASE_URL`** (the credential proxy) as `baseURL` so the real key never lives in the container.
#### Example: OpenRouter
Use ids that match OpenCodes registry / your custom registrations. Adjust names to what you actually run.
```env
# OpenCode — host passes these into the container when agent_provider is opencode
OPENCODE_PROVIDER=openrouter
OPENCODE_MODEL=openrouter/anthropic/claude-sonnet-4
OPENCODE_SMALL_MODEL=openrouter/anthropic/claude-haiku-4.5
ANTHROPIC_BASE_URL=https://openrouter.ai/api/v1
```
Register the key:
```bash
onecli secrets create --name "OpenRouter" --type generic \
--value YOUR_KEY --host-pattern "openrouter.ai" \
--header-name "Authorization" --value-format "Bearer {value}"
```
#### Example: Anthropic via existing proxy env
#### Example: Anthropic (no ANTHROPIC_BASE_URL needed)
When `OPENCODE_PROVIDER` is `anthropic`, OpenCode uses normal Anthropic env inside the container — the proxy + placeholder key pattern is unchanged and `ANTHROPIC_BASE_URL` is not required.
When `OPENCODE_PROVIDER` is `anthropic`, OpenCode uses normal Anthropic env inside the container (proxy + placeholder key pattern unchanged).
```env
OPENCODE_PROVIDER=anthropic
OPENCODE_MODEL=anthropic/claude-sonnet-4-20250514
OPENCODE_SMALL_MODEL=anthropic/claude-haiku-4-5-20251001
```
#### Example: only a main model
```env
OPENCODE_PROVIDER=openrouter
OPENCODE_MODEL=openrouter/google/gemini-2.5-pro-preview
```
#### OpenCode Zen (`x-api-key`, not Bearer)
Zen's HTTP API (e.g. `POST …/zen/v1/messages`) expects the key in the **`x-api-key`** header. If OneCLI injects **`Authorization: Bearer …`** only, Zen often returns **401 / "Missing API key"** even though the gateway is working.
Zens HTTP API (e.g. `POST …/zen/v1/messages`) expects the key in the **`x-api-key`** header. If OneCLI injects **`Authorization: Bearer …`** only, Zen often returns **401 / Missing API key** even though the gateway is working.
**Naming:** NanoClaw **`AGENT_PROVIDER=opencode`** (DB `agent_provider`) means "run the **OpenCode agent provider**." Separately, **`OPENCODE_PROVIDER=opencode`** in `.env` is OpenCode's **Zen provider id** inside the OpenCode config (see [Zen docs](https://opencode.ai/docs/zen/)).
**Naming:** NanoClaw **`AGENT_PROVIDER=opencode`** (v2 DB `agent_provider`) means run the **OpenCode agent provider**. Separately, **`OPENCODE_PROVIDER=opencode`** in `.env` is OpenCodes **Zen provider id** inside the OpenCode config (see [Zen docs](https://opencode.ai/docs/zen/)).
**Host `.env` (typical Zen shape):**
```env
# NanoClaw still resolves AGENT_PROVIDER from agent_groups / sessions; set agent_provider to opencode there.
# OpenCode SDK: Zen as the upstream provider + models under opencode/…
OPENCODE_PROVIDER=opencode
OPENCODE_MODEL=opencode/big-pickle
OPENCODE_SMALL_MODEL=opencode/big-pickle
# Point the credential proxy at Zens Anthropic-compatible base URL (host + OneCLI must forward this host).
ANTHROPIC_BASE_URL=https://opencode.ai/zen/v1
```
@@ -209,24 +86,29 @@ onecli secrets create --name "OpenCode Zen" --type generic \
--header-name "x-api-key" --value-format "{value}"
```
For comparison, OpenRouter uses `Authorization` + `Bearer {value}`. Zen is different by design.
### Per group / per session
Set `"provider": "opencode"` in the group's **`container.json`** (`groups/<folder>/container.json`) — the in-container runner reads `provider` from there, not from the DB. The DB columns **`agent_groups.agent_provider`** and **`sessions.agent_provider`** (session overrides group) only drive host-side provider contribution — per-session XDG mount, `OPENCODE_*` env passthrough — and do not propagate into `container.json` at spawn time. Set both, or just edit `container.json`; if they disagree, the runner uses `container.json` and the host-side resolver falls back through session → group → `container.json``'claude'`.
v2 schema: **`agent_groups.agent_provider`** and **`sessions.agent_provider`**. Set to `opencode` for groups or sessions that should use OpenCode. The container receives `AGENT_PROVIDER` from the resolved value (session overrides group).
Extra MCP servers still come from **`NANOCLAW_MCP_SERVERS`** / `container_config.mcpServers` on the host; the runner merges them into the same `mcpServers` object passed to **both** Claude and OpenCode providers.
## Operational notes
- OpenCode keeps a local **`opencode serve`** process and SSE subscription; the provider tears down with **`stream.return`** and **SIGKILL** on the server process on **`abort()`** / shared runtime reset to avoid MCP/zombie hangs.
- Session continuation uses UUID format (SDK 1.4.x / CLI 1.4.x). Stale sessions are cleared by `isSessionInvalid` on OpenCode-specific error patterns. If you see UUID-related errors after an accidental CLI upgrade, clear `session_state` in `outbound.db` and wipe the `opencode-xdg` directory under the session folder.
- Session continuation is opaque (`ses_*` ids); stale sessions are cleared using **`isSessionInvalid`** on OpenCode-specific errors (timeouts, connection resets, not-found patterns) in addition to the poll-loops existing recovery.
- **`NO_PROXY`** for localhost matters when the OpenCode client talks to `127.0.0.1` inside the container while HTTP(S)_PROXY is set (e.g. OneCLI).
## Verify
```bash
grep -q "./opencode.js" container/agent-runner/src/providers/index.ts && echo "container barrel: OK"
grep -q "./opencode.js" src/providers/index.ts && echo "host barrel: OK"
grep -q "@opencode-ai/sdk" container/agent-runner/package.json && echo "agent-runner dep: OK"
grep -q "opencode-ai@" container/Dockerfile && echo "Dockerfile install: OK"
cd container/agent-runner && bun test src/providers/ && cd -
grep -q opencode container/agent-runner/src/providers/factory.ts && echo "OpenCode registered" || echo "Missing"
npm run build --prefix container/agent-runner
```
Rebuild the agent image after Dockerfile changes: `./container/build.sh` (or your usual image build).
## Migrate from v1 wording
If documentation or habits still say **`AGENT_RUNNER=opencode`**, update to **`AGENT_PROVIDER=opencode`** and store **`agent_provider`** in v2 tables, not v1 runner columns.
+7 -10
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@@ -229,22 +229,19 @@ echo '{}' | docker run -i --entrypoint /bin/echo nanoclaw-agent:latest "Containe
### 7. Restart Service
Rebuild the main app and restart.
Run from your NanoClaw project root:
Rebuild the main app and restart:
```bash
pnpm run build
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
# Linux: systemctl --user restart $(systemd_unit)
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
```
Wait 3 seconds for service to start, then verify:
```bash
sleep 3
launchctl list | grep "$(. setup/lib/install-slug.sh && launchd_label)" # macOS
# Linux: systemctl --user status "$(. setup/lib/install-slug.sh && systemd_unit)"
launchctl list | grep nanoclaw # macOS
# Linux: systemctl --user status nanoclaw
```
### 8. Test Integration
@@ -278,7 +275,7 @@ Look for: `Parallel AI MCP servers configured`
- Check agent-runner logs for "Parallel AI MCP servers configured" message
**Task polling not working:**
- Verify scheduled task was created: `pnpm exec tsx scripts/q.ts store/messages.db "SELECT * FROM scheduled_tasks"`
- Verify scheduled task was created: `sqlite3 store/messages.db "SELECT * FROM scheduled_tasks"`
- Check task runs: `tail -f logs/nanoclaw.log | grep "scheduled task"`
- Ensure task prompt includes proper Parallel MCP tool names
@@ -290,4 +287,4 @@ To remove Parallel AI integration:
2. Revert changes to container-runner.ts and agent-runner/src/index.ts
3. Remove Web Research Tools section from groups/main/CLAUDE.md
4. Rebuild: `./container/build.sh && pnpm run build`
5. Restart: `source setup/lib/install-slug.sh && launchctl kickstart -k gui/$(id -u)/$(launchd_label)` (macOS) or `source setup/lib/install-slug.sh && systemctl --user restart $(systemd_unit)` (Linux)
5. Restart: `launchctl kickstart -k gui/$(id -u)/com.nanoclaw` (macOS) or `systemctl --user restart nanoclaw` (Linux)
+104
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@@ -0,0 +1,104 @@
---
name: add-pdf-reader
description: Add PDF reading to NanoClaw agents. Extracts text from PDFs via pdftotext CLI. Handles WhatsApp attachments, URLs, and local files.
---
# Add PDF Reader
Adds PDF reading capability to all container agents using poppler-utils (pdftotext/pdfinfo). PDFs sent as WhatsApp attachments are auto-downloaded to the group workspace.
## Phase 1: Pre-flight
1. Check if `container/skills/pdf-reader/pdf-reader` exists — skip to Phase 3 if already applied
2. Confirm WhatsApp is installed first (`skill/whatsapp` merged). This skill modifies WhatsApp channel files.
## Phase 2: Apply Code Changes
### Ensure WhatsApp fork remote
```bash
git remote -v
```
If `whatsapp` is missing, add it:
```bash
git remote add whatsapp https://github.com/qwibitai/nanoclaw-whatsapp.git
```
### Merge the skill branch
```bash
git fetch whatsapp skill/pdf-reader
git merge whatsapp/skill/pdf-reader || {
git checkout --theirs pnpm-lock.yaml
git add pnpm-lock.yaml
git merge --continue
}
```
This merges in:
- `container/skills/pdf-reader/SKILL.md` (agent-facing documentation)
- `container/skills/pdf-reader/pdf-reader` (CLI script)
- `poppler-utils` in `container/Dockerfile`
- PDF attachment download in `src/channels/whatsapp.ts`
- PDF tests in `src/channels/whatsapp.test.ts`
If the merge reports conflicts, resolve them by reading the conflicted files and understanding the intent of both sides.
### Validate
```bash
pnpm run build
pnpm exec vitest run src/channels/whatsapp.test.ts
```
### Rebuild container
```bash
./container/build.sh
```
### Restart service
```bash
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
```
## Phase 3: Verify
### Test PDF extraction
Send a PDF file in any registered WhatsApp chat. The agent should:
1. Download the PDF to `attachments/`
2. Respond acknowledging the PDF
3. Be able to extract text when asked
### Test URL fetching
Ask the agent to read a PDF from a URL. It should use `pdf-reader fetch <url>`.
### Check logs if needed
```bash
tail -f logs/nanoclaw.log | grep -i pdf
```
Look for:
- `Downloaded PDF attachment` — successful download
- `Failed to download PDF attachment` — media download issue
## Troubleshooting
### Agent says pdf-reader command not found
Container needs rebuilding. Run `./container/build.sh` and restart the service.
### PDF text extraction is empty
The PDF may be scanned (image-based). pdftotext only handles text-based PDFs. Consider using the agent-browser to open the PDF visually instead.
### WhatsApp PDF not detected
Verify the message has `documentMessage` with `mimetype: application/pdf`. Some file-sharing apps send PDFs as generic files without the correct mimetype.
+117
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@@ -0,0 +1,117 @@
---
name: add-reactions
description: Add WhatsApp emoji reaction support — receive, send, store, and search reactions.
---
# Add Reactions
This skill adds emoji reaction support to NanoClaw's WhatsApp channel: receive and store reactions, send reactions from the container agent via MCP tool, and query reaction history from SQLite.
## Phase 1: Pre-flight
### Check if already applied
Check if `src/status-tracker.ts` exists:
```bash
test -f src/status-tracker.ts && echo "Already applied" || echo "Not applied"
```
If already applied, skip to Phase 3 (Verify).
## Phase 2: Apply Code Changes
### Ensure WhatsApp fork remote
```bash
git remote -v
```
If `whatsapp` is missing, add it:
```bash
git remote add whatsapp https://github.com/qwibitai/nanoclaw-whatsapp.git
```
### Merge the skill branch
```bash
git fetch whatsapp skill/reactions
git merge whatsapp/skill/reactions || {
git checkout --theirs pnpm-lock.yaml
git add pnpm-lock.yaml
git merge --continue
}
```
This adds:
- `scripts/migrate-reactions.ts` (database migration for `reactions` table with composite PK and indexes)
- `src/status-tracker.ts` (forward-only emoji state machine for message lifecycle signaling, with persistence and retry)
- `src/status-tracker.test.ts` (unit tests for StatusTracker)
- `container/skills/reactions/SKILL.md` (agent-facing documentation for the `react_to_message` MCP tool)
- Reaction support in `src/db.ts`, `src/channels/whatsapp.ts`, `src/types.ts`, `src/ipc.ts`, `src/index.ts`, `src/group-queue.ts`, and `container/agent-runner/src/ipc-mcp-stdio.ts`
### Run database migration
```bash
pnpm exec tsx scripts/migrate-reactions.ts
```
### Validate code changes
```bash
pnpm test
pnpm run build
```
All tests must pass and build must be clean before proceeding.
## Phase 3: Verify
### Build and restart
```bash
pnpm run build
```
Linux:
```bash
systemctl --user restart nanoclaw
```
macOS:
```bash
launchctl kickstart -k gui/$(id -u)/com.nanoclaw
```
### Test receiving reactions
1. Send a message from your phone
2. React to it with an emoji on WhatsApp
3. Check the database:
```bash
sqlite3 store/messages.db "SELECT * FROM reactions ORDER BY timestamp DESC LIMIT 5;"
```
### Test sending reactions
Ask the agent to react to a message via the `react_to_message` MCP tool. Check your phone — the reaction should appear on the message.
## Troubleshooting
### Reactions not appearing in database
- Check NanoClaw logs for `Failed to process reaction` errors
- Verify the chat is registered
- Confirm the service is running
### Migration fails
- Ensure `store/messages.db` exists and is accessible
- If "table reactions already exists", the migration already ran — skip it
### Agent can't send reactions
- Check IPC logs for `Unauthorized IPC reaction attempt blocked` — the agent can only react in its own group's chat
- Verify WhatsApp is connected: check logs for connection status
@@ -1,53 +1,29 @@
---
name: add-resend
description: Add Resend (email) channel integration via Chat SDK.
name: add-resend-v2
description: Add Resend (email) channel integration to NanoClaw v2 via Chat SDK.
---
# Add Resend Email Channel
Connect NanoClaw to email via Resend for async email conversations.
## Pre-flight
Check if `src/channels/resend.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
NanoClaw doesn't ship channels in trunk. This skill copies the Resend adapter in from the `channels` branch.
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/resend.ts` exists
- `src/channels/index.ts` contains `import './resend.js';`
- `@resend/chat-sdk-adapter` is listed in `package.json` dependencies
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
pnpm install @resend/chat-sdk-adapter
```
### 2. Copy the adapter
```bash
git show origin/channels:src/channels/resend.ts > src/channels/resend.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
Uncomment the Resend import in `src/channels/index.ts`:
```typescript
import './resend.js';
```
### 4. Install the adapter package (pinned)
```bash
pnpm install @resend/chat-sdk-adapter@0.1.1
```
### 5. Build
Build:
```bash
pnpm run build
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@@ -1,140 +0,0 @@
---
name: add-rtk
description: Install rtk token-compression proxy into agent containers. Routes Bash tool calls through rtk for 6090% token savings on dev commands (git, cargo, pytest, docker, kubectl, etc.).
---
# Add rtk
Install [rtk](https://github.com/rtk-ai/rtk) — a CLI proxy delivering 6090% token savings on common dev commands (git, cargo, pytest, docker, kubectl, etc.) — and wire it transparently into agent containers via the Claude Code `PreToolUse` hook.
## What this sets up
- `rtk` binary at `~/.local/bin/rtk` on the host
- `~/.local/bin/rtk` mounted read-only at `/usr/local/bin/rtk` inside the target agent group's containers
- `PreToolUse` hook in the agent group's `settings.json` so every Bash call is automatically filtered through rtk — no CLAUDE.md instructions needed
## Step 1 — Install rtk on the host
```bash
curl -fsSL https://raw.githubusercontent.com/rtk-ai/rtk/refs/heads/master/install.sh | sh
```
If the script put the binary elsewhere, move it:
```bash
find ~/.local ~/.cargo/bin ~/bin -name rtk 2>/dev/null
mv "$(which rtk 2>/dev/null)" ~/.local/bin/rtk
```
Verify:
```bash
~/.local/bin/rtk --version
chmod +x ~/.local/bin/rtk # if needed
```
## Step 2 — Identify the target agent group
```bash
ncl groups list
```
Note the group ID (e.g. `ag-1776342942165-ptgddd`). Repeat Steps 35 for each group.
## Step 3 — Mount rtk into the container config
`additional_mounts` is a JSON column not exposed via `ncl config update`. Update it directly via the DB helper, merging with any existing mounts.
Read current mounts first:
```bash
pnpm exec tsx scripts/q.ts data/v2.db \
"SELECT additional_mounts FROM container_configs WHERE agent_group_id = '<group-id>'"
```
Then write the merged array (include all existing entries plus the rtk entry):
```bash
pnpm exec tsx scripts/q.ts data/v2.db \
"UPDATE container_configs SET additional_mounts = '<merged-json>' WHERE agent_group_id = '<group-id>'"
```
The rtk entry to append: `{"hostPath":"/home/<user>/.local/bin/rtk","containerPath":"/usr/local/bin/rtk","readonly":true}`
Verify:
```bash
pnpm exec tsx scripts/q.ts data/v2.db \
"SELECT additional_mounts FROM container_configs WHERE agent_group_id = '<group-id>'"
```
## Step 4 — Add the PreToolUse hook to settings.json
Each agent group has a `settings.json` at:
```
data/v2-sessions/<group-id>/.claude-shared/settings.json
```
This file is mounted at `/home/node/.claude/settings.json` inside the container and is read by Claude Code for hooks, env, and model config.
Add the `PreToolUse` entry using `jq` to merge safely:
```bash
SETTINGS="data/v2-sessions/<group-id>/.claude-shared/settings.json"
jq '.hooks.PreToolUse = [{"matcher":"Bash","hooks":[{"type":"command","command":"rtk hook claude"}]}]' \
"$SETTINGS" > /tmp/rtk-settings.json && mv /tmp/rtk-settings.json "$SETTINGS"
```
If `PreToolUse` already exists, append instead of overwriting:
```bash
jq '.hooks.PreToolUse += [{"matcher":"Bash","hooks":[{"type":"command","command":"rtk hook claude"}]}]' \
"$SETTINGS" > /tmp/rtk-settings.json && mv /tmp/rtk-settings.json "$SETTINGS"
```
## Step 5 — Restart the container
```bash
ncl groups restart --id <group-id>
```
No `--message` needed — the hook is transparent and requires no agent awareness.
## Verify
Ask the agent to run `git status` or any other supported command. rtk intercepts it silently. Check savings with:
```bash
~/.local/bin/rtk gain
```
## Troubleshooting
### `rtk: command not found` inside the container
Mount wasn't applied or container wasn't restarted:
```bash
pnpm exec tsx scripts/q.ts data/v2.db \
"SELECT additional_mounts FROM container_configs WHERE agent_group_id = '<group-id>'"
# Look for entry with /usr/local/bin/rtk
ncl groups restart --id <group-id>
```
### Hook not firing
Verify the hook is in `settings.json`:
```bash
jq '.hooks.PreToolUse' data/v2-sessions/<group-id>/.claude-shared/settings.json
```
If missing, re-run Step 4.
### Binary won't execute — permission denied
```bash
chmod +x ~/.local/bin/rtk
```
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# Remove Signal
1. Comment out `import './signal.js'` in `src/channels/index.ts`
2. Remove `SIGNAL_ACCOUNT` (and any other `SIGNAL_*` vars) from `.env`
3. Rebuild and restart
If you also want to unlink the Signal account from `signal-cli`:
```bash
signal-cli -a +1YOURNUMBER removeDevice --deviceId <id>
```
(Find the device id with `signal-cli -a +1YOURNUMBER listDevices`.)
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@@ -1,331 +0,0 @@
---
name: add-signal
description: Add Signal channel integration via signal-cli TCP daemon. Native adapter — no Chat SDK bridge.
---
# Add Signal Channel
Adds Signal messaging support via a native adapter that speaks JSON-RPC to a [signal-cli](https://github.com/AsamK/signal-cli) TCP daemon. No Chat SDK bridge — only Node.js builtins (`node:net`, `node:child_process`, `node:fs`).
Unlike Telegram or Discord, Signal has no bot API. NanoClaw registers as a full Signal account on a dedicated phone number (recommended) or links as a secondary device on your existing number.
## Prerequisites
### Java
signal-cli requires Java 17+:
```bash
java -version
```
If missing:
- **macOS:** `brew install --cask temurin@17`
- **Debian/Ubuntu:** `sudo apt-get install -y default-jre`
- **RHEL/Fedora:** `sudo dnf install -y java-17-openjdk`
Java 1725 all work.
### signal-cli
- **macOS:** `brew install signal-cli`
- **Linux:** download the native binary from [GitHub releases](https://github.com/AsamK/signal-cli/releases):
```bash
SIGNAL_CLI_VERSION=$(curl -fsSL https://api.github.com/repos/AsamK/signal-cli/releases/latest | python3 -c "import sys,json; print(json.load(sys.stdin)['tag_name'][1:])")
curl -fsSL "https://github.com/AsamK/signal-cli/releases/download/v${SIGNAL_CLI_VERSION}/signal-cli-${SIGNAL_CLI_VERSION}-Linux-native.tar.gz" \
| tar -xz -C ~/.local
ln -sf ~/.local/signal-cli ~/.local/bin/signal-cli
signal-cli --version
```
> The Linux native tarball extracts a single binary directly to `~/.local/signal-cli` (not into a subdirectory). The symlink above puts it on PATH.
## Registration
Two paths. The new-number path is recommended and battle-tested.
### Path A: Register a new number (recommended)
Use a dedicated SIM or VoIP number. NanoClaw owns it entirely.
> **VoIP numbers:** Signal requires SMS verification before voice. Some VoIP providers are blocked even for voice calls. If registration fails with an auth error, try a different provider or a physical SIM.
**Step 1: Solve the CAPTCHA**
Signal requires a CAPTCHA on first registration:
1. Open `https://signalcaptchas.org/registration/generate.html` in a browser
2. Solve the captcha
3. Right-click the **"Open Signal"** button → **Copy Link**
4. The link starts with `signalcaptcha://` — the token is everything after that prefix
**Step 2: Request SMS verification**
```bash
signal-cli -a +1YOURNUMBER register --captcha "PASTE_TOKEN_HERE"
```
**Step 3: Voice call fallback (if your number can't receive SMS)**
Wait ~60 seconds after the SMS request, then:
```bash
signal-cli -a +1YOURNUMBER register --voice --captcha "SAME_TOKEN"
```
Signal calls your number and reads a 6-digit code. The same captcha token is reusable — no need to solve a new one.
> You must request SMS first. Requesting voice immediately fails with `Invalid verification method: Before requesting voice verification…`
**Step 4: Verify**
```bash
signal-cli -a +1YOURNUMBER verify CODE
```
No output = success.
**Step 5: Set profile name (optional)**
> ⚠ Stop NanoClaw before running signal-cli commands — the daemon holds an exclusive lock on its data directory while running.
Run from your NanoClaw project root:
```bash
source setup/lib/install-slug.sh
# macOS
launchctl unload ~/Library/LaunchAgents/$(launchd_label).plist
signal-cli -a +1YOURNUMBER updateProfile --name "YourBotName"
# optionally: --avatar /path/to/avatar.jpg
launchctl load ~/Library/LaunchAgents/$(launchd_label).plist
# Linux
systemctl --user stop $(systemd_unit)
signal-cli -a +1YOURNUMBER updateProfile --name "YourBotName"
systemctl --user start $(systemd_unit)
```
### Path B: Link as secondary device
Joins an existing Signal account as a secondary device. Simpler, but NanoClaw shares your personal number.
```bash
signal-cli -a +1YOURNUMBER link --name "NanoClaw"
```
This prints a `tsdevice:` URI. Scan it as a QR code on your phone: **Settings → Linked Devices → Link New Device**. QR codes expire in ~30 seconds — re-run if it expires.
## Install
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/signal.ts` and `src/channels/signal.test.ts` both exist
- `src/channels/index.ts` contains `import './signal.js';`
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
```
### 2. Copy the adapter and tests
```bash
git show origin/channels:src/channels/signal.ts > src/channels/signal.ts
git show origin/channels:src/channels/signal.test.ts > src/channels/signal.test.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
```typescript
import './signal.js';
```
### 4. Build
```bash
pnpm run build
```
No npm packages to install — the adapter uses only Node.js builtins.
## Credentials
Add to `.env`:
```bash
SIGNAL_ACCOUNT=+1YOURNUMBER
```
### Optional settings
```bash
# TCP daemon host and port (default: 127.0.0.1:7583)
SIGNAL_TCP_HOST=127.0.0.1
SIGNAL_TCP_PORT=7583
# Path to the signal-cli binary (default: resolved on PATH)
SIGNAL_CLI_PATH=/usr/local/bin/signal-cli
# Whether NanoClaw manages the daemon lifecycle (default: true).
# Set to false if you run signal-cli daemon externally.
SIGNAL_MANAGE_DAEMON=true
# signal-cli data directory (default: ~/.local/share/signal-cli)
SIGNAL_DATA_DIR=~/.local/share/signal-cli
```
**Security note:** keep the TCP host on `127.0.0.1`. The daemon has no auth — binding it to a public interface would expose your full Signal account to the network.
Sync to container: `mkdir -p data/env && cp .env data/env/env`
### Restart
Run from your NanoClaw project root:
```bash
source setup/lib/install-slug.sh
# macOS
launchctl kickstart -k gui/$(id -u)/$(launchd_label)
# Linux
systemctl --user restart $(systemd_unit)
```
## Wiring
### DMs
After the service starts, send any message to the Signal number from your personal Signal app. The router auto-creates a `messaging_groups` row. Then:
```bash
pnpm exec tsx scripts/q.ts data/v2.db \
"SELECT id, platform_id FROM messaging_groups WHERE channel_type='signal' ORDER BY created_at DESC LIMIT 5"
```
Pass the `id` to `/init-first-agent` or `/manage-channels` to wire it to an agent group.
### Groups
Add the Signal number to a group from your phone, send any message, then wire the resulting row the same way. For isolated per-group sessions:
```bash
NOW=$(date -u +"%Y-%m-%dT%H:%M:%S.000Z")
pnpm exec tsx scripts/q.ts data/v2.db "
INSERT OR IGNORE INTO messaging_group_agents
(id, messaging_group_id, agent_group_id, session_mode, priority, created_at)
VALUES
('mga-'||hex(randomblob(8)), 'mg-GROUPID', 'ag-AGENTID', 'isolated', 0, '$NOW');
"
```
### Grant user access
New Signal users (including the owner's Signal identity) are silently dropped with `not_member` until granted access. After the user's first message appears in `messaging_groups`:
```bash
NOW=$(date -u +"%Y-%m-%dT%H:%M:%S.000Z")
pnpm exec tsx scripts/q.ts data/v2.db "
INSERT OR REPLACE INTO user_roles (user_id, role, agent_group_id, granted_by, granted_at)
VALUES ('signal:UUID', 'owner', NULL, 'system', '$NOW');
INSERT OR IGNORE INTO agent_group_members (user_id, agent_group_id, added_by, added_at)
VALUES ('signal:UUID', 'ag-AGENTID', 'system', '$NOW');
"
```
Find the UUID from `messaging_groups.platform_id` or the `users` table.
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, run `/init-first-agent` to create an agent and wire it to your Signal DM, or `/manage-channels` to wire this channel to an existing agent group.
## Channel Info
- **type**: `signal`
- **terminology**: Signal has "chats" (1:1 DMs) and "groups"
- **supports-threads**: no
- **platform-id-format**:
- DM: `signal:{UUID}` — sender's Signal UUID (ACI), **not** their phone number
- Group: `signal:{base64GroupId}` — base64-encoded GroupV2 ID
- **how-to-find-id**: Send a message to the bot, then query `messaging_groups` as shown above
- **typical-use**: Personal assistant via Signal DMs or small group chats
- **default-isolation**: One agent per Signal account. Multiple chats with the same operator can share an agent group; groups with other people should typically use `isolated` session mode
### Features
- Markdown formatting — `**bold**`, `*italic*` / `_italic_`, `` `code` ``, ` ```code fence``` `, `~~strike~~`, `||spoiler||` (converted to Signal's offset-based text styles)
- Quoted replies — `replyTo*` fields populated from Signal quotes
- Typing indicators — DMs only (Signal doesn't support group typing)
- Echo suppression — outbound messages matched on `(platformId, text)` within a 10 s TTL to avoid syncMessage loops
- Note to Self — messages you send to your own account from another device route to the agent as inbound with `isFromMe: true`
- Voice attachments — detected but not transcribed by default; the agent receives `[Voice Message]` placeholder text. Run `/add-voice-transcription` for local transcription via parakeet-mlx
Not supported yet: outbound file attachments (logged and dropped), edit/delete messages, reactions.
## Troubleshooting
### Daemon not reachable
```bash
grep "Signal" logs/nanoclaw.log | tail
```
If you see `Signal daemon failed to start. Is signal-cli installed and your account linked?`:
- Confirm `signal-cli` is on PATH (or set `SIGNAL_CLI_PATH`)
- Confirm the account is linked: `signal-cli -a +1YOURNUMBER listIdentities` should succeed without prompting
If you see `Signal daemon not reachable at 127.0.0.1:7583` and `SIGNAL_MANAGE_DAEMON=false`, start the daemon yourself: `signal-cli -a +1YOURNUMBER daemon --tcp 127.0.0.1:7583`.
### Bot not responding
1. Channel initialized: `grep "Signal channel connected" logs/nanoclaw.log | tail -1`
2. Channel wired: `pnpm exec tsx scripts/q.ts data/v2.db "SELECT mg.platform_id, mg.name FROM messaging_groups mg JOIN messaging_group_agents mga ON mg.id = mga.messaging_group_id WHERE mg.channel_type='signal'"`
3. Service running: `launchctl print gui/$(id -u)/"$(. setup/lib/install-slug.sh && launchd_label)"` (macOS) / `systemctl --user status "$(. setup/lib/install-slug.sh && systemd_unit)"` (Linux)
4. **Check for duplicate service instances** — if `logs/nanoclaw.error.log` shows `No adapter for channel type channelType="signal"` despite the adapter starting, two NanoClaw processes are racing. See the `/debug` skill section "No adapter for channel type / Messages silently lost" for the full fix.
### Messages delivered but never arrive (null platformMsgId)
Signal responses show `platformMsgId=undefined` in the main log. This means the delivery poll ran but found no adapter — likely a duplicate service instance issue (see above). Affected messages cannot be retried; the user must resend.
### Lost connection mid-session
If you see `Signal channel lost TCP connection to signal-cli daemon` in the logs, the daemon dropped the connection. Restart the service to re-establish.
### Messages dropped with `not_member`
The Signal user hasn't been granted membership. See "Grant user access" above. This affects every new Signal user, including the owner's Signal identity — which is a separate user record from their identity on other channels even if it's the same person.
### Captcha required
Signal requires a captcha for new registrations. Go to `https://signalcaptchas.org/registration/generate.html`, solve it, right-click "Open Signal", copy the link, extract the token after `signalcaptcha://`.
### `Invalid verification method: Before requesting voice verification…`
You must request SMS first, wait ~60 seconds, then request voice. Both steps can use the same captcha token.
### Config file in use / daemon lock
signal-cli holds an exclusive lock on its data directory while the daemon is running. Stop NanoClaw before running any `signal-cli` commands directly, then restart afterward.
### Group replies going to DM instead of group
Modern Signal groups use GroupV2. The adapter must extract the group ID from `envelope?.dataMessage?.groupV2?.id` — not `groupInfo?.groupId`, which is GroupV1/legacy. If group messages are routing as DMs, check `src/channels/signal.ts` and confirm the groupId extraction falls through to `groupV2.id`.
### Java not found
Install Java 17+ — see the Prerequisites section above.
### QR code expired (Path B)
QR codes expire in ~30 seconds. Re-run the link command to generate a new one.
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# Verify Signal
Send a message to your own Signal number (Note to Self) from another device, or have someone send your linked number a DM. The bot should respond within a few seconds.
If nothing happens, tail `logs/nanoclaw.log` for `Signal channel connected` and `Signal message received`.
+92
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@@ -0,0 +1,92 @@
---
name: add-slack-v2
description: Add Slack channel integration to NanoClaw v2 via Chat SDK.
---
# Add Slack Channel
Adds Slack support to NanoClaw v2 using the Chat SDK bridge.
## Pre-flight
Check if `src/channels/slack.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
### Install the adapter package
```bash
pnpm install @chat-adapter/slack
```
### Enable the channel
Uncomment the Slack import in `src/channels/index.ts`:
```typescript
import './slack.js';
```
### Build
```bash
pnpm run build
```
## Credentials
### Create Slack App
1. Go to [api.slack.com/apps](https://api.slack.com/apps) and click **Create New App** > **From scratch**
2. Name it (e.g., "NanoClaw") and select your workspace
3. Go to **OAuth & Permissions** and add Bot Token Scopes:
- `chat:write`, `channels:history`, `groups:history`, `im:history`, `channels:read`, `groups:read`, `users:read`, `reactions:write`
4. Click **Install to Workspace** and copy the **Bot User OAuth Token** (`xoxb-...`)
5. Go to **Basic Information** and copy the **Signing Secret**
### Enable DMs
6. Go to **App Home** and enable the **Messages Tab**
7. Check **"Allow users to send Slash commands and messages from the messages tab"**
### Event Subscriptions
8. Go to **Event Subscriptions** and toggle **Enable Events**
9. Set the **Request URL** to `https://your-domain/webhook/slack` — Slack will send a verification challenge; it must pass before you can save
10. Under **Subscribe to bot events**, add:
- `message.channels`, `message.groups`, `message.im`, `app_mention`
11. Click **Save Changes**
12. Slack will show a banner asking you to **reinstall the app** — click it to apply the new event subscriptions
### Configure environment
Add to `.env`:
```bash
SLACK_BOT_TOKEN=xoxb-your-bot-token
SLACK_SIGNING_SECRET=your-signing-secret
```
Sync to container: `mkdir -p data/env && cp .env data/env/env`
### Webhook server
The Chat SDK bridge automatically starts a shared webhook server on port 3000 (configurable via `WEBHOOK_PORT` env var). The server handles `/webhook/slack` for Slack and other webhook-based adapters. This port must be publicly reachable from the internet for Slack to deliver events.
If running locally, discuss options for exposing the server — e.g. ngrok (`ngrok http 3000`), Cloudflare Tunnel, or a reverse proxy on a VPS. The resulting public URL becomes the base for `https://your-domain/webhook/slack`.
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, run `/manage-channels` to wire this channel to an agent group.
## Channel Info
- **type**: `slack`
- **terminology**: Slack has "workspaces" containing "channels." Channels can be public (#general) or private. The bot can also receive direct messages.
- **platform-id-format**: `slack:{channelId}` for channels (e.g., `slack:C0123ABC`), `slack:{dmId}` for DMs (e.g., `slack:D0ARWEBLV63`)
- **how-to-find-id**: Right-click a channel name > "View channel details" — the Channel ID is at the bottom (starts with C). For DMs, the ID starts with D. Or copy the channel link — the ID is the last segment of the URL.
- **supports-threads**: yes
- **typical-use**: Interactive chat — team channels or direct messages
- **default-isolation**: Same agent group for channels where you're the primary user. Separate agent group for channels with different teams or sensitive contexts.
+155 -66
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@@ -1,88 +1,80 @@
---
name: add-slack
description: Add Slack channel integration via Chat SDK.
description: Add Slack as a channel. Can replace WhatsApp entirely or run alongside it. Uses Socket Mode (no public URL needed).
---
# Add Slack Channel
Adds Slack support via the Chat SDK bridge.
This skill adds Slack support to NanoClaw, then walks through interactive setup.
## Install
## Phase 1: Pre-flight
NanoClaw doesn't ship channels in trunk. This skill copies the Slack adapter in from the `channels` branch.
### Check if already applied
### Pre-flight (idempotent)
Check if `src/channels/slack.ts` exists. If it does, skip to Phase 3 (Setup). The code changes are already in place.
Skip to **Credentials** if all of these are already in place:
### Ask the user
- `src/channels/slack.ts` exists
- `src/channels/index.ts` contains `import './slack.js';`
- `@chat-adapter/slack` is listed in `package.json` dependencies
**Do they already have a Slack app configured?** If yes, collect the Bot Token and App Token now. If no, we'll create one in Phase 3.
Otherwise continue. Every step below is safe to re-run.
## Phase 2: Apply Code Changes
### 1. Fetch the channels branch
### Ensure channel remote
```bash
git fetch origin channels
git remote -v
```
### 2. Copy the adapter
If `slack` is missing, add it:
```bash
git show origin/channels:src/channels/slack.ts > src/channels/slack.ts
git remote add slack https://github.com/qwibitai/nanoclaw-slack.git
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
```typescript
import './slack.js';
```
### 4. Install the adapter package (pinned)
### Merge the skill branch
```bash
pnpm install @chat-adapter/slack@4.27.0
git fetch slack main
git merge slack/main || {
git checkout --theirs pnpm-lock.yaml
git add pnpm-lock.yaml
git merge --continue
}
```
### 5. Build
This merges in:
- `src/channels/slack.ts` (SlackChannel class with self-registration via `registerChannel`)
- `src/channels/slack.test.ts` (46 unit tests)
- `import './slack.js'` appended to the channel barrel file `src/channels/index.ts`
- `@slack/bolt` npm dependency in `package.json`
- `SLACK_BOT_TOKEN` and `SLACK_APP_TOKEN` in `.env.example`
If the merge reports conflicts, resolve them by reading the conflicted files and understanding the intent of both sides.
### Validate code changes
```bash
pnpm install
pnpm run build
pnpm exec vitest run src/channels/slack.test.ts
```
## Credentials
All tests must pass (including the new Slack tests) and build must be clean before proceeding.
### Create Slack App
## Phase 3: Setup
1. Go to [api.slack.com/apps](https://api.slack.com/apps) and click **Create New App** > **From scratch**
2. Name it (e.g., "NanoClaw") and select your workspace
3. Go to **OAuth & Permissions** and add Bot Token Scopes:
- `chat:write`, `im:write`, `channels:history`, `groups:history`, `im:history`, `channels:read`, `groups:read`, `users:read`, `reactions:write`, `files:read`, `files:write`
4. Click **Install to Workspace** and copy the **Bot User OAuth Token** (`xoxb-...`)
5. Go to **Basic Information** and copy the **Signing Secret**
### Create Slack App (if needed)
### Enable DMs
If the user doesn't have a Slack app, share [SLACK_SETUP.md](SLACK_SETUP.md) which has step-by-step instructions with screenshots guidance, troubleshooting, and a token reference table.
6. Go to **App Home** and enable the **Messages Tab**
7. Check **"Allow users to send Slash commands and messages from the messages tab"**
Quick summary of what's needed:
1. Create a Slack app at [api.slack.com/apps](https://api.slack.com/apps)
2. Enable Socket Mode and generate an App-Level Token (`xapp-...`)
3. Subscribe to bot events: `message.channels`, `message.groups`, `message.im`
4. Add OAuth scopes: `chat:write`, `channels:history`, `groups:history`, `im:history`, `channels:read`, `groups:read`, `users:read`
5. Install to workspace and copy the Bot Token (`xoxb-...`)
### Event Subscriptions
8. Go to **Event Subscriptions** and toggle **Enable Events**
9. Set the **Request URL** to `https://your-domain/webhook/slack` — Slack will send a verification challenge; it must pass before you can save
10. Under **Subscribe to bot events**, add:
- `message.channels`, `message.groups`, `message.im`, `app_mention`
11. Click **Save Changes**
### Interactivity
12. Go to **Interactivity & Shortcuts** and toggle **Interactivity** on
13. Set the **Request URL** to the same `https://your-domain/webhook/slack`
14. Click **Save Changes**
15. Slack will show a banner asking you to **reinstall the app** — click it to apply the new settings
Wait for the user to provide both tokens.
### Configure environment
@@ -90,29 +82,126 @@ Add to `.env`:
```bash
SLACK_BOT_TOKEN=xoxb-your-bot-token
SLACK_SIGNING_SECRET=your-signing-secret
SLACK_APP_TOKEN=xapp-your-app-token
```
Sync to container: `mkdir -p data/env && cp .env data/env/env`
Channels auto-enable when their credentials are present — no extra configuration needed.
### Webhook server
Sync to container environment:
The Chat SDK bridge automatically starts a shared webhook server on port 3000 (configurable via `WEBHOOK_PORT` env var). The server handles `/webhook/slack` for Slack and other webhook-based adapters. This port must be publicly reachable from the internet for Slack to deliver events.
```bash
mkdir -p data/env && cp .env data/env/env
```
If running locally, discuss options for exposing the server — e.g. ngrok (`ngrok http 3000`), Cloudflare Tunnel, or a reverse proxy on a VPS. The resulting public URL becomes the base for `https://your-domain/webhook/slack`.
The container reads environment from `data/env/env`, not `.env` directly.
## Next Steps
### Build and restart
If you're in the middle of `/setup`, return to the setup flow now.
```bash
pnpm run build
launchctl kickstart -k gui/$(id -u)/com.nanoclaw
```
Otherwise, run `/manage-channels` to wire this channel to an agent group.
## Phase 4: Registration
## Channel Info
### Get Channel ID
- **type**: `slack`
- **terminology**: Slack has "workspaces" containing "channels." Channels can be public (#general) or private. The bot can also receive direct messages.
- **platform-id-format**: `slack:{channelId}` for channels (e.g., `slack:C0123ABC`), `slack:{dmId}` for DMs (e.g., `slack:D0ARWEBLV63`)
- **how-to-find-id**: Right-click a channel name > "View channel details" — the Channel ID is at the bottom (starts with C). For DMs, the ID starts with D. Or copy the channel link — the ID is the last segment of the URL.
- **supports-threads**: yes
- **typical-use**: Interactive chat — team channels or direct messages
- **default-isolation**: Same agent group for channels where you're the primary user. Separate agent group for channels with different teams or sensitive contexts.
Tell the user:
> 1. Add the bot to a Slack channel (right-click channel → **View channel details****Integrations****Add apps**)
> 2. In that channel, the channel ID is in the URL when you open it in a browser: `https://app.slack.com/client/T.../C0123456789` — the `C...` part is the channel ID
> 3. Alternatively, right-click the channel name → **Copy link** — the channel ID is the last path segment
>
> The JID format for NanoClaw is: `slack:C0123456789`
Wait for the user to provide the channel ID.
### Register the channel
The channel ID, name, and folder name are needed. Use `pnpm exec tsx setup/index.ts --step register` with the appropriate flags.
For a main channel (responds to all messages):
```bash
pnpm exec tsx setup/index.ts --step register -- --jid "slack:<channel-id>" --name "<channel-name>" --folder "slack_main" --trigger "@${ASSISTANT_NAME}" --channel slack --no-trigger-required --is-main
```
For additional channels (trigger-only):
```bash
pnpm exec tsx setup/index.ts --step register -- --jid "slack:<channel-id>" --name "<channel-name>" --folder "slack_<channel-name>" --trigger "@${ASSISTANT_NAME}" --channel slack
```
## Phase 5: Verify
### Test the connection
Tell the user:
> Send a message in your registered Slack channel:
> - For main channel: Any message works
> - For non-main: `@<assistant-name> hello` (using the configured trigger word)
>
> The bot should respond within a few seconds.
### Check logs if needed
```bash
tail -f logs/nanoclaw.log
```
## Troubleshooting
### Bot not responding
1. Check `SLACK_BOT_TOKEN` and `SLACK_APP_TOKEN` are set in `.env` AND synced to `data/env/env`
2. Check channel is registered: `sqlite3 store/messages.db "SELECT * FROM registered_groups WHERE jid LIKE 'slack:%'"`
3. For non-main channels: message must include trigger pattern
4. Service is running: `launchctl list | grep nanoclaw`
### Bot connected but not receiving messages
1. Verify Socket Mode is enabled in the Slack app settings
2. Verify the bot is subscribed to the correct events (`message.channels`, `message.groups`, `message.im`)
3. Verify the bot has been added to the channel
4. Check that the bot has the required OAuth scopes
### Bot not seeing messages in channels
By default, bots only see messages in channels they've been explicitly added to. Make sure to:
1. Add the bot to each channel you want it to monitor
2. Check the bot has `channels:history` and/or `groups:history` scopes
### "missing_scope" errors
If the bot logs `missing_scope` errors:
1. Go to **OAuth & Permissions** in your Slack app settings
2. Add the missing scope listed in the error message
3. **Reinstall the app** to your workspace — scope changes require reinstallation
4. Copy the new Bot Token (it changes on reinstall) and update `.env`
5. Sync: `mkdir -p data/env && cp .env data/env/env`
6. Restart: `launchctl kickstart -k gui/$(id -u)/com.nanoclaw`
### Getting channel ID
If the channel ID is hard to find:
- In Slack desktop: right-click channel → **Copy link** → extract the `C...` ID from the URL
- In Slack web: the URL shows `https://app.slack.com/client/TXXXXXXX/C0123456789`
- Via API: `curl -s -H "Authorization: Bearer $SLACK_BOT_TOKEN" "https://slack.com/api/conversations.list" | jq '.channels[] | {id, name}'`
## After Setup
The Slack channel supports:
- **Public channels** — Bot must be added to the channel
- **Private channels** — Bot must be invited to the channel
- **Direct messages** — Users can DM the bot directly
- **Multi-channel** — Can run alongside WhatsApp or other channels (auto-enabled by credentials)
## Known Limitations
- **Threads are flattened** — Threaded replies are delivered to the agent as regular channel messages. The agent sees them but has no awareness they originated in a thread. Responses always go to the channel, not back into the thread. Users in a thread will need to check the main channel for the bot's reply. Full thread-aware routing (respond in-thread) requires pipeline-wide changes: database schema, `NewMessage` type, `Channel.sendMessage` interface, and routing logic.
- **No typing indicator** — Slack's Bot API does not expose a typing indicator endpoint. The `setTyping()` method is a no-op. Users won't see "bot is typing..." while the agent works.
- **Message splitting is naive** — Long messages are split at a fixed 4000-character boundary, which may break mid-word or mid-sentence. A smarter split (on paragraph or sentence boundaries) would improve readability.
- **No file/image handling** — The bot only processes text content. File uploads, images, and rich message blocks are not forwarded to the agent.
- **Channel metadata sync is unbounded**`syncChannelMetadata()` paginates through all channels the bot is a member of, but has no upper bound or timeout. Workspaces with thousands of channels may experience slow startup.
- **Workspace admin policies not detected** — If the Slack workspace restricts bot app installation, the setup will fail at the "Install to Workspace" step with no programmatic detection or guidance. See SLACK_SETUP.md troubleshooting section.
@@ -1,53 +1,29 @@
---
name: add-teams
description: Add Microsoft Teams channel integration via Chat SDK.
name: add-teams-v2
description: Add Microsoft Teams channel integration to NanoClaw v2 via Chat SDK.
---
# Add Microsoft Teams Channel
Connect NanoClaw to Microsoft Teams for interactive chat in team channels, group chats, and direct messages.
## Pre-flight
Check if `src/channels/teams.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
NanoClaw doesn't ship channels in trunk. This skill copies the Teams adapter in from the `channels` branch.
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/teams.ts` exists
- `src/channels/index.ts` contains `import './teams.js';`
- `@chat-adapter/teams` is listed in `package.json` dependencies
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
pnpm install @chat-adapter/teams
```
### 2. Copy the adapter
```bash
git show origin/channels:src/channels/teams.ts > src/channels/teams.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
Uncomment the Teams import in `src/channels/index.ts`:
```typescript
import './teams.js';
```
### 4. Install the adapter package (pinned)
```bash
pnpm install @chat-adapter/teams@4.27.0
```
### 5. Build
Build:
```bash
pnpm run build
@@ -55,47 +31,6 @@ pnpm run build
## Credentials
Two paths — manual (Azure Portal) or auto (Teams CLI).
### Auto: Teams CLI
Requires Node.js 18+, a Microsoft 365 account with sideloading permissions, and a public HTTPS endpoint (ngrok, Cloudflare Tunnel, or similar).
1. Install the CLI:
```bash
npm install -g @microsoft/teams.cli@preview
```
2. Sign in and verify:
```bash
teams login
teams status
```
3. Create the Entra app, client secret, and bot registration:
```bash
teams app create \
--name "NanoClaw" \
--endpoint "https://your-domain/api/webhooks/teams"
```
The CLI prints the credentials as `CLIENT_ID`, `CLIENT_SECRET`, and `TENANT_ID`. Map them to NanoClaw's env keys:
- `CLIENT_ID``TEAMS_APP_ID`
- `CLIENT_SECRET``TEAMS_APP_PASSWORD`
- `TENANT_ID``TEAMS_APP_TENANT_ID`
4. Pick **Install in Teams** from the post-create menu and confirm in the Teams dialog.
Continue to [Configure environment](#configure-environment).
---
The steps below describe the **manual Azure Portal path**.
### Step 1: Create an Azure AD App Registration
1. Go to [Azure Portal](https://portal.azure.com) > **App registrations** > **New registration**
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@@ -0,0 +1,384 @@
---
name: add-telegram-swarm
description: Add Agent Swarm (Teams) support to Telegram. Each subagent gets its own bot identity in the group. Requires Telegram channel to be set up first (use /add-telegram). Triggers on "agent swarm", "agent teams telegram", "telegram swarm", "bot pool".
---
# Add Agent Swarm to Telegram
This skill adds Agent Teams (Swarm) support to an existing Telegram channel. Each subagent in a team gets its own bot identity in the Telegram group, so users can visually distinguish which agent is speaking.
**Prerequisite**: Telegram must already be set up via the `/add-telegram` skill. If `src/telegram.ts` does not exist or `TELEGRAM_BOT_TOKEN` is not configured, tell the user to run `/add-telegram` first.
## How It Works
- The **main bot** receives messages and sends lead agent responses (already set up by `/add-telegram`)
- **Pool bots** are send-only — each gets a Grammy `Api` instance (no polling)
- When a subagent calls `send_message` with a `sender` parameter, the host assigns a pool bot and renames it to match the sender's role
- Messages appear in Telegram from different bot identities
```
Subagent calls send_message(text: "Found 3 results", sender: "Researcher")
→ MCP writes IPC file with sender field
→ Host IPC watcher picks it up
→ Assigns pool bot #2 to "Researcher" (round-robin, stable per-group)
→ Renames pool bot #2 to "Researcher" via setMyName
→ Sends message via pool bot #2's Api instance
→ Appears in Telegram from "Researcher" bot
```
## Prerequisites
### 1. Create Pool Bots
Tell the user:
> I need you to create 3-5 Telegram bots to use as the agent pool. These will be renamed dynamically to match agent roles.
>
> 1. Open Telegram and search for `@BotFather`
> 2. Send `/newbot` for each bot:
> - Give them any placeholder name (e.g., "Bot 1", "Bot 2")
> - Usernames like `myproject_swarm_1_bot`, `myproject_swarm_2_bot`, etc.
> 3. Copy all the tokens
> 4. Add all bots to your Telegram group(s) where you want agent teams
Wait for user to provide the tokens.
### 2. Disable Group Privacy for Pool Bots
Tell the user:
> **Important**: Each pool bot needs Group Privacy disabled so it can send messages in groups.
>
> For each pool bot in `@BotFather`:
> 1. Send `/mybots` and select the bot
> 2. Go to **Bot Settings** > **Group Privacy** > **Turn off**
>
> Then add all pool bots to your Telegram group(s).
## Implementation
### Step 1: Update Configuration
Read `src/config.ts` and add the bot pool config near the other Telegram exports:
```typescript
export const TELEGRAM_BOT_POOL = (process.env.TELEGRAM_BOT_POOL || '')
.split(',')
.map((t) => t.trim())
.filter(Boolean);
```
### Step 2: Add Bot Pool to Telegram Module
Read `src/telegram.ts` and add the following:
1. **Update imports** — add `Api` to the Grammy import:
```typescript
import { Api, Bot } from 'grammy';
```
2. **Add pool state** after the existing `let bot` declaration:
```typescript
// Bot pool for agent teams: send-only Api instances (no polling)
const poolApis: Api[] = [];
// Maps "{groupFolder}:{senderName}" → pool Api index for stable assignment
const senderBotMap = new Map<string, number>();
let nextPoolIndex = 0;
```
3. **Add pool functions** — place these before the `isTelegramConnected` function:
```typescript
/**
* Initialize send-only Api instances for the bot pool.
* Each pool bot can send messages but doesn't poll for updates.
*/
export async function initBotPool(tokens: string[]): Promise<void> {
for (const token of tokens) {
try {
const api = new Api(token);
const me = await api.getMe();
poolApis.push(api);
logger.info(
{ username: me.username, id: me.id, poolSize: poolApis.length },
'Pool bot initialized',
);
} catch (err) {
logger.error({ err }, 'Failed to initialize pool bot');
}
}
if (poolApis.length > 0) {
logger.info({ count: poolApis.length }, 'Telegram bot pool ready');
}
}
/**
* Send a message via a pool bot assigned to the given sender name.
* Assigns bots round-robin on first use; subsequent messages from the
* same sender in the same group always use the same bot.
* On first assignment, renames the bot to match the sender's role.
*/
export async function sendPoolMessage(
chatId: string,
text: string,
sender: string,
groupFolder: string,
): Promise<void> {
if (poolApis.length === 0) {
// No pool bots — fall back to main bot
await sendTelegramMessage(chatId, text);
return;
}
const key = `${groupFolder}:${sender}`;
let idx = senderBotMap.get(key);
if (idx === undefined) {
idx = nextPoolIndex % poolApis.length;
nextPoolIndex++;
senderBotMap.set(key, idx);
// Rename the bot to match the sender's role, then wait for Telegram to propagate
try {
await poolApis[idx].setMyName(sender);
await new Promise((r) => setTimeout(r, 2000));
logger.info({ sender, groupFolder, poolIndex: idx }, 'Assigned and renamed pool bot');
} catch (err) {
logger.warn({ sender, err }, 'Failed to rename pool bot (sending anyway)');
}
}
const api = poolApis[idx];
try {
const numericId = chatId.replace(/^tg:/, '');
const MAX_LENGTH = 4096;
if (text.length <= MAX_LENGTH) {
await api.sendMessage(numericId, text);
} else {
for (let i = 0; i < text.length; i += MAX_LENGTH) {
await api.sendMessage(numericId, text.slice(i, i + MAX_LENGTH));
}
}
logger.info({ chatId, sender, poolIndex: idx, length: text.length }, 'Pool message sent');
} catch (err) {
logger.error({ chatId, sender, err }, 'Failed to send pool message');
}
}
```
### Step 3: Add sender Parameter to MCP Tool
Read `container/agent-runner/src/ipc-mcp-stdio.ts` and update the `send_message` tool to accept an optional `sender` parameter:
Change the tool's schema from:
```typescript
{ text: z.string().describe('The message text to send') },
```
To:
```typescript
{
text: z.string().describe('The message text to send'),
sender: z.string().optional().describe('Your role/identity name (e.g. "Researcher"). When set, messages appear from a dedicated bot in Telegram.'),
},
```
And update the handler to include `sender` in the IPC data:
```typescript
async (args) => {
const data: Record<string, string | undefined> = {
type: 'message',
chatJid,
text: args.text,
sender: args.sender || undefined,
groupFolder,
timestamp: new Date().toISOString(),
};
writeIpcFile(MESSAGES_DIR, data);
return { content: [{ type: 'text' as const, text: 'Message sent.' }] };
},
```
### Step 4: Update Host IPC Routing
Read `src/ipc.ts` and make these changes:
1. **Add imports** — add `sendPoolMessage` and `initBotPool` from the Telegram swarm module, and `TELEGRAM_BOT_POOL` from config.
2. **Update IPC message routing** — in `src/ipc.ts`, find where the `sendMessage` dependency is called to deliver IPC messages (inside `processIpcFiles`). The `sendMessage` is passed in via the `IpcDeps` parameter. Wrap it to route Telegram swarm messages through the bot pool:
```typescript
if (data.sender && data.chatJid.startsWith('tg:')) {
await sendPoolMessage(
data.chatJid,
data.text,
data.sender,
sourceGroup,
);
} else {
await deps.sendMessage(data.chatJid, data.text);
}
```
Note: The assistant name prefix is handled by `formatOutbound()` in the router — Telegram channels have `prefixAssistantName = false` so no prefix is added for `tg:` JIDs.
3. **Initialize pool in `main()` in `src/index.ts`** — after creating the Telegram channel, add:
```typescript
if (TELEGRAM_BOT_POOL.length > 0) {
await initBotPool(TELEGRAM_BOT_POOL);
}
```
### Step 5: Update CLAUDE.md Files
#### 5a. Add global message formatting rules
Read `groups/global/CLAUDE.md` and add a Message Formatting section:
```markdown
## Message Formatting
NEVER use markdown. Only use WhatsApp/Telegram formatting:
- *single asterisks* for bold (NEVER **double asterisks**)
- _underscores_ for italic
- • bullet points
- ```triple backticks``` for code
No ## headings. No [links](url). No **double stars**.
```
#### 5b. Update existing group CLAUDE.md headings
In any group CLAUDE.md that has a "WhatsApp Formatting" section (e.g. `groups/main/CLAUDE.md`), rename the heading to reflect multi-channel support:
```
## WhatsApp Formatting (and other messaging apps)
```
#### 5c. Add Agent Teams instructions to Telegram groups
For each Telegram group that will use agent teams, create or update its `groups/{folder}/CLAUDE.md` with these instructions. Read the existing CLAUDE.md first (or `groups/global/CLAUDE.md` as a base) and add the Agent Teams section:
```markdown
## Agent Teams
When creating a team to tackle a complex task, follow these rules:
### CRITICAL: Follow the user's prompt exactly
Create *exactly* the team the user asked for — same number of agents, same roles, same names. Do NOT add extra agents, rename roles, or use generic names like "Researcher 1". If the user says "a marine biologist, a physicist, and Alexander Hamilton", create exactly those three agents with those exact names.
### Team member instructions
Each team member MUST be instructed to:
1. *Share progress in the group* via `mcp__nanoclaw__send_message` with a `sender` parameter matching their exact role/character name (e.g., `sender: "Marine Biologist"` or `sender: "Alexander Hamilton"`). This makes their messages appear from a dedicated bot in the Telegram group.
2. *Also communicate with teammates* via `SendMessage` as normal for coordination.
3. Keep group messages *short* — 2-4 sentences max per message. Break longer content into multiple `send_message` calls. No walls of text.
4. Use the `sender` parameter consistently — always the same name so the bot identity stays stable.
5. NEVER use markdown formatting. Use ONLY WhatsApp/Telegram formatting: single *asterisks* for bold (NOT **double**), _underscores_ for italic, • for bullets, ```backticks``` for code. No ## headings, no [links](url), no **double asterisks**.
### Example team creation prompt
When creating a teammate, include instructions like:
\```
You are the Marine Biologist. When you have findings or updates for the user, send them to the group using mcp__nanoclaw__send_message with sender set to "Marine Biologist". Keep each message short (2-4 sentences max). Use emojis for strong reactions. ONLY use single *asterisks* for bold (never **double**), _underscores_ for italic, • for bullets. No markdown. Also communicate with teammates via SendMessage.
\```
### Lead agent behavior
As the lead agent who created the team:
- You do NOT need to react to or relay every teammate message. The user sees those directly from the teammate bots.
- Send your own messages only to comment, share thoughts, synthesize, or direct the team.
- When processing an internal update from a teammate that doesn't need a user-facing response, wrap your *entire* output in `<internal>` tags.
- Focus on high-level coordination and the final synthesis.
```
### Step 6: Update Environment
Add pool tokens to `.env`:
```bash
TELEGRAM_BOT_POOL=TOKEN1,TOKEN2,TOKEN3,...
```
**Important**: Sync to all required locations:
```bash
cp .env data/env/env
```
Also add `TELEGRAM_BOT_POOL` to the launchd plist (`~/Library/LaunchAgents/com.nanoclaw.plist`) in the `EnvironmentVariables` dict if using launchd.
### Step 7: Rebuild and Restart
```bash
pnpm run build
./container/build.sh # Required — MCP tool changed
# macOS:
launchctl unload ~/Library/LaunchAgents/com.nanoclaw.plist
launchctl load ~/Library/LaunchAgents/com.nanoclaw.plist
# Linux:
# systemctl --user restart nanoclaw
```
Must use `unload/load` (macOS) or `restart` (Linux) because the service env vars changed.
### Step 8: Test
Tell the user:
> Send a message in your Telegram group asking for a multi-agent task, e.g.:
> "Assemble a team of a researcher and a coder to build me a hello world app"
>
> You should see:
> - The lead agent (main bot) acknowledging and creating the team
> - Each subagent messaging from a different bot, renamed to their role
> - Short, scannable messages from each agent
>
> Check logs: `tail -f logs/nanoclaw.log | grep -i pool`
## Architecture Notes
- Pool bots use Grammy's `Api` class — lightweight, no polling, just send
- Bot names are set via `setMyName` — changes are global to the bot, not per-chat
- A 2-second delay after `setMyName` allows Telegram to propagate the name change before the first message
- Sender→bot mapping is stable within a group (keyed as `{groupFolder}:{senderName}`)
- Mapping resets on service restart — pool bots get reassigned fresh
- If pool runs out, bots are reused (round-robin wraps)
## Troubleshooting
### Pool bots not sending messages
1. Verify tokens: `curl -s "https://api.telegram.org/botTOKEN/getMe"`
2. Check pool initialized: `grep "Pool bot" logs/nanoclaw.log`
3. Ensure all pool bots are members of the Telegram group
4. Check Group Privacy is disabled for each pool bot
### Bot names not updating
Telegram caches bot names client-side. The 2-second delay after `setMyName` helps, but users may need to restart their Telegram client to see updated names immediately.
### Subagents not using send_message
Check the group's `CLAUDE.md` has the Agent Teams instructions. The lead agent reads this when creating teammates and must include the `send_message` + `sender` instructions in each teammate's prompt.
## Removal
To remove Agent Swarm support while keeping basic Telegram:
1. Remove `TELEGRAM_BOT_POOL` from `src/config.ts`
2. Remove pool code from `src/telegram.ts` (`poolApis`, `senderBotMap`, `initBotPool`, `sendPoolMessage`)
3. Remove pool routing from IPC handler in `src/index.ts` (revert to plain `sendMessage`)
4. Remove `initBotPool` call from `main()`
5. Remove `sender` param from MCP tool in `container/agent-runner/src/ipc-mcp-stdio.ts`
6. Remove Agent Teams section from group CLAUDE.md files
7. Remove `TELEGRAM_BOT_POOL` from `.env`, `data/env/env`, and launchd plist/systemd unit
8. Rebuild: `pnpm run build && ./container/build.sh && launchctl unload ~/Library/LaunchAgents/com.nanoclaw.plist && launchctl load ~/Library/LaunchAgents/com.nanoclaw.plist` (macOS) or `pnpm run build && ./container/build.sh && systemctl --user restart nanoclaw` (Linux)
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---
name: add-telegram-v2
description: Add Telegram channel integration to NanoClaw v2 via Chat SDK.
---
# Add Telegram Channel
Adds Telegram bot support to NanoClaw v2 using the Chat SDK bridge.
## Pre-flight
Check if `src/channels/telegram.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
### Install the adapter package
```bash
pnpm install @chat-adapter/telegram
```
### Enable the channel
Uncomment the Telegram import in `src/channels/index.ts`:
```typescript
import './telegram.js';
```
### Build
```bash
pnpm run build
```
## Credentials
### Create Telegram Bot
1. Open Telegram and search for `@BotFather`
2. Send `/newbot` and follow the prompts:
- Bot name: Something friendly (e.g., "NanoClaw Assistant")
- Bot username: Must end with "bot" (e.g., "nanoclaw_bot")
3. Copy the bot token (looks like `123456:ABC-DEF1234ghIkl-zyx57W2v1u123ew11`)
**Important for group chats**: By default, Telegram bots only see @mentions and commands in groups. To let the bot see all messages:
1. Open `@BotFather` > `/mybots` > select your bot
2. **Bot Settings** > **Group Privacy** > **Turn off**
### Configure environment
Add to `.env`:
```bash
TELEGRAM_BOT_TOKEN=your-bot-token
```
Sync to container: `mkdir -p data/env && cp .env data/env/env`
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, run `/manage-channels` to wire this channel to an agent group.
## Channel Info
- **type**: `telegram`
- **terminology**: Telegram calls them "groups" and "chats." A "group" has multiple members; a "chat" is a 1:1 conversation with the bot.
- **how-to-find-id**: Do NOT ask the user for a chat ID. Telegram registration uses pairing — run `pnpm exec tsx setup/index.ts --step pair-telegram -- --intent <main|wire-to:folder|new-agent:folder>`, show the user the 4-digit `CODE` from the `PAIR_TELEGRAM_ISSUED` block (follow the `REMINDER_TO_ASSISTANT` line in that block), and tell them to send just the 4 digits as a message from the chat they want to register (DM the bot for `main`, post in the group otherwise). In groups with Group Privacy ON, prefix with the bot handle: `@<botname> CODE`. Wrong guesses invalidate the code — if a `PAIR_TELEGRAM_ATTEMPT` block arrives with a mismatched `RECEIVED_CODE`, a `PAIR_TELEGRAM_NEW_CODE` block will follow automatically (up to 5 regenerations); show the new code. On `PAIR_TELEGRAM STATUS=failed ERROR=max-regenerations-exceeded`, ask the user if they want to try again and re-invoke the step — each invocation starts a fresh 5-attempt batch. Success emits `PAIR_TELEGRAM STATUS=success` with `PLATFORM_ID`, `IS_GROUP`, and `ADMIN_USER_ID`. The service must be running for this to work (the polling adapter is what observes the code).
- **supports-threads**: no
- **typical-use**: Interactive chat — direct messages or small groups
- **default-isolation**: Same agent group if you're the only participant across multiple chats. Separate agent group if different people are in different groups.
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---
name: add-telegram
description: Add Telegram channel integration via Chat SDK.
description: Add Telegram as a channel. Can replace WhatsApp entirely or run alongside it. Also configurable as a control-only channel (triggers actions) or passive channel (receives notifications only).
---
# Add Telegram Channel
Adds Telegram bot support via the Chat SDK bridge.
This skill adds Telegram support to NanoClaw, then walks through interactive setup.
## Install
## Phase 1: Pre-flight
NanoClaw doesn't ship channels in trunk. This skill copies the Telegram adapter, its formatting/pairing helpers, their tests, and the `pair-telegram` setup step in from the `channels` branch.
### Check if already applied
### Pre-flight (idempotent)
Check if `src/channels/telegram.ts` exists. If it does, skip to Phase 3 (Setup). The code changes are already in place.
Skip to **Credentials** if all of these are already in place:
### Ask the user
- `src/channels/telegram.ts`, `telegram-pairing.ts`, `telegram-markdown-sanitize.ts` (and their `.test.ts` siblings) all exist
- `src/channels/index.ts` contains `import './telegram.js';`
- `setup/pair-telegram.ts` exists and `setup/index.ts`'s `STEPS` map contains `'pair-telegram':`
- `@chat-adapter/telegram` is listed in `package.json` dependencies
Use `AskUserQuestion` to collect configuration:
Otherwise continue. Every step below is safe to re-run.
AskUserQuestion: Do you have a Telegram bot token, or do you need to create one?
### 1. Fetch the channels branch
If they have one, collect it now. If not, we'll create one in Phase 3.
## Phase 2: Apply Code Changes
### Ensure channel remote
```bash
git fetch origin channels
git remote -v
```
### 2. Copy the adapter, helpers, tests, and setup step
If `telegram` is missing, add it:
```bash
git show origin/channels:src/channels/telegram.ts > src/channels/telegram.ts
git show origin/channels:src/channels/telegram-pairing.ts > src/channels/telegram-pairing.ts
git show origin/channels:src/channels/telegram-pairing.test.ts > src/channels/telegram-pairing.test.ts
git show origin/channels:src/channels/telegram-markdown-sanitize.ts > src/channels/telegram-markdown-sanitize.ts
git show origin/channels:src/channels/telegram-markdown-sanitize.test.ts > src/channels/telegram-markdown-sanitize.test.ts
git show origin/channels:setup/pair-telegram.ts > setup/pair-telegram.ts
git remote add telegram https://github.com/qwibitai/nanoclaw-telegram.git
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if already present):
```typescript
import './telegram.js';
```
### 4. Register the setup step
In `setup/index.ts`, add this entry to the `STEPS` map (right after the `register` line is fine; skip if already present):
```typescript
'pair-telegram': () => import('./pair-telegram.js'),
```
### 5. Install the adapter package (pinned)
### Merge the skill branch
```bash
pnpm install @chat-adapter/telegram@4.27.0
git fetch telegram main
git merge telegram/main || {
git checkout --theirs pnpm-lock.yaml
git add pnpm-lock.yaml
git merge --continue
}
```
### 6. Build
This merges in:
- `src/channels/telegram.ts` (TelegramChannel class with self-registration via `registerChannel`)
- `src/channels/telegram.test.ts` (unit tests with grammy mock)
- `import './telegram.js'` appended to the channel barrel file `src/channels/index.ts`
- `grammy` npm dependency in `package.json`
- `TELEGRAM_BOT_TOKEN` in `.env.example`
If the merge reports conflicts, resolve them by reading the conflicted files and understanding the intent of both sides.
### Validate code changes
```bash
pnpm install
pnpm run build
pnpm exec vitest run src/channels/telegram.test.ts
```
## Credentials
All tests must pass (including the new Telegram tests) and build must be clean before proceeding.
### Create Telegram Bot
## Phase 3: Setup
1. Open Telegram and search for `@BotFather`
2. Send `/newbot` and follow the prompts:
- Bot name: Something friendly (e.g., "NanoClaw Assistant")
- Bot username: Must end with "bot" (e.g., "nanoclaw_bot")
3. Copy the bot token (looks like `123456:ABC-DEF1234ghIkl-zyx57W2v1u123ew11`)
### Create Telegram Bot (if needed)
**Important for group chats**: By default, Telegram bots only see @mentions and commands in groups. To let the bot see all messages:
If the user doesn't have a bot token, tell them:
1. Open `@BotFather` > `/mybots` > select your bot
2. **Bot Settings** > **Group Privacy** > **Turn off**
> I need you to create a Telegram bot:
>
> 1. Open Telegram and search for `@BotFather`
> 2. Send `/newbot` and follow prompts:
> - Bot name: Something friendly (e.g., "Andy Assistant")
> - Bot username: Must end with "bot" (e.g., "andy_ai_bot")
> 3. Copy the bot token (looks like `123456:ABC-DEF1234ghIkl-zyx57W2v1u123ew11`)
Wait for the user to provide the token.
### Configure environment
Add to `.env`:
```bash
TELEGRAM_BOT_TOKEN=your-bot-token
TELEGRAM_BOT_TOKEN=<their-token>
```
Sync to container: `mkdir -p data/env && cp .env data/env/env`
Channels auto-enable when their credentials are present — no extra configuration needed.
## Next Steps
Sync to container environment:
If you're in the middle of `/setup`, return to the setup flow now.
```bash
mkdir -p data/env && cp .env data/env/env
```
Otherwise, run `/manage-channels` to wire this channel to an agent group.
The container reads environment from `data/env/env`, not `.env` directly.
## Channel Info
### Disable Group Privacy (for group chats)
- **type**: `telegram`
- **terminology**: Telegram calls them "groups" and "chats." A "group" has multiple members; a "chat" is a 1:1 conversation with the bot.
- **how-to-find-id**: Do NOT ask the user for a chat ID. Telegram registration uses pairing — run `pnpm exec tsx setup/index.ts --step pair-telegram -- --intent <main|wire-to:folder|new-agent:folder>`, show the user the 4-digit `CODE` from the `PAIR_TELEGRAM_ISSUED` block (follow the `REMINDER_TO_ASSISTANT` line in that block), and tell them to send just the 4 digits as a message from the chat they want to register (DM the bot for `main`, post in the group otherwise). In groups with Group Privacy ON, prefix with the bot handle: `@<botname> CODE`. Wrong guesses invalidate the code — if a `PAIR_TELEGRAM_ATTEMPT` block arrives with a mismatched `RECEIVED_CODE`, a `PAIR_TELEGRAM_NEW_CODE` block will follow automatically (up to 5 regenerations); show the new code. On `PAIR_TELEGRAM STATUS=failed ERROR=max-regenerations-exceeded`, ask the user if they want to try again and re-invoke the step — each invocation starts a fresh 5-attempt batch. Success emits `PAIR_TELEGRAM STATUS=success` with `PLATFORM_ID`, `IS_GROUP`, and `ADMIN_USER_ID`. The service must be running for this to work (the polling adapter is what observes the code).
- **supports-threads**: no
- **typical-use**: Interactive chat — direct messages or small groups
- **default-isolation**: Same agent group if you're the only participant across multiple chats. Separate agent group if different people are in different groups.
Tell the user:
> **Important for group chats**: By default, Telegram bots only see @mentions and commands in groups. To let the bot see all messages:
>
> 1. Open Telegram and search for `@BotFather`
> 2. Send `/mybots` and select your bot
> 3. Go to **Bot Settings** > **Group Privacy** > **Turn off**
>
> This is optional if you only want trigger-based responses via @mentioning the bot.
### Build and restart
```bash
pnpm run build
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
```
## Phase 4: Registration
### Get Chat ID
Tell the user:
> 1. Open your bot in Telegram (search for its username)
> 2. Send `/chatid` — it will reply with the chat ID
> 3. For groups: add the bot to the group first, then send `/chatid` in the group
Wait for the user to provide the chat ID (format: `tg:123456789` or `tg:-1001234567890`).
### Register the chat
The chat ID, name, and folder name are needed. Use `pnpm exec tsx setup/index.ts --step register` with the appropriate flags.
For a main chat (responds to all messages):
```bash
pnpm exec tsx setup/index.ts --step register -- --jid "tg:<chat-id>" --name "<chat-name>" --folder "telegram_main" --trigger "@${ASSISTANT_NAME}" --channel telegram --no-trigger-required --is-main
```
For additional chats (trigger-only):
```bash
pnpm exec tsx setup/index.ts --step register -- --jid "tg:<chat-id>" --name "<chat-name>" --folder "telegram_<group-name>" --trigger "@${ASSISTANT_NAME}" --channel telegram
```
## Phase 5: Verify
### Test the connection
Tell the user:
> Send a message to your registered Telegram chat:
> - For main chat: Any message works
> - For non-main: `@Andy hello` or @mention the bot
>
> The bot should respond within a few seconds.
### Check logs if needed
```bash
tail -f logs/nanoclaw.log
```
## Troubleshooting
### Bot not responding
Check:
1. `TELEGRAM_BOT_TOKEN` is set in `.env` AND synced to `data/env/env`
2. Chat is registered in SQLite (check with: `sqlite3 store/messages.db "SELECT * FROM registered_groups WHERE jid LIKE 'tg:%'"`)
3. For non-main chats: message includes trigger pattern
4. Service is running: `launchctl list | grep nanoclaw` (macOS) or `systemctl --user status nanoclaw` (Linux)
### Bot only responds to @mentions in groups
Group Privacy is enabled (default). Fix:
1. `@BotFather` > `/mybots` > select bot > **Bot Settings** > **Group Privacy** > **Turn off**
2. Remove and re-add the bot to the group (required for the change to take effect)
### Getting chat ID
If `/chatid` doesn't work:
- Verify token: `curl -s "https://api.telegram.org/bot${TELEGRAM_BOT_TOKEN}/getMe"`
- Check bot is started: `tail -f logs/nanoclaw.log`
## After Setup
If running `pnpm run dev` while the service is active:
```bash
# macOS:
launchctl unload ~/Library/LaunchAgents/com.nanoclaw.plist
pnpm run dev
# When done testing:
launchctl load ~/Library/LaunchAgents/com.nanoclaw.plist
# Linux:
# systemctl --user stop nanoclaw
# pnpm run dev
# systemctl --user start nanoclaw
```
## Removal
To remove Telegram integration:
1. Delete `src/channels/telegram.ts` and `src/channels/telegram.test.ts`
2. Remove `import './telegram.js'` from `src/channels/index.ts`
3. Remove `TELEGRAM_BOT_TOKEN` from `.env`
4. Remove Telegram registrations from SQLite: `sqlite3 store/messages.db "DELETE FROM registered_groups WHERE jid LIKE 'tg:%'"`
5. Uninstall: `pnpm uninstall grammy`
6. Rebuild: `pnpm run build && launchctl kickstart -k gui/$(id -u)/com.nanoclaw` (macOS) or `pnpm run build && systemctl --user restart nanoclaw` (Linux)
+6 -6
View File
@@ -90,12 +90,12 @@ onecli secrets list | grep -i vercel
OneCLI uses selective secret mode — secrets must be explicitly assigned to each agent. Get the Vercel secret ID from the output above, then assign it to every agent:
```bash
# set-secrets replaces the entire list — read and merge for each agent.
VERCEL_SECRET_ID=$(onecli secrets list | jq -r '.data[] | select(.name | test("(?i)vercel")) | .id' | head -1)
for agent in $(onecli agents list | jq -r '.data[].id'); do
CURRENT=$(onecli agents secrets --id "$agent" | jq -r '[.data[]] | join(",")')
MERGED=$(printf '%s' "$CURRENT,$VERCEL_SECRET_ID" | tr ',' '\n' | sort -u | paste -sd ',' -)
onecli agents set-secrets --id "$agent" --secret-ids "$MERGED"
# For each agent, add the Vercel secret to its assigned secrets list.
# First get current assignments, then set them with the new secret appended.
VERCEL_SECRET_ID=$(onecli secrets list 2>/dev/null | grep -B2 "Vercel" | grep '"id"' | head -1 | sed 's/.*"id": "//;s/".*//')
for agent in $(onecli agents list 2>/dev/null | grep '"id"' | sed 's/.*"id": "//;s/".*//'); do
CURRENT=$(onecli agents secrets --id "$agent" 2>/dev/null | grep '"' | grep -v hint | grep -v data | sed 's/.*"//;s/".*//' | tr '\n' ',' | sed 's/,$//')
onecli agents set-secrets --id "$agent" --secret-ids "${CURRENT:+$CURRENT,}$VERCEL_SECRET_ID"
done
```
@@ -0,0 +1,148 @@
---
name: add-voice-transcription
description: Add voice message transcription to NanoClaw using OpenAI's Whisper API. Automatically transcribes WhatsApp voice notes so the agent can read and respond to them.
---
# Add Voice Transcription
This skill adds automatic voice message transcription to NanoClaw's WhatsApp channel using OpenAI's Whisper API. When a voice note arrives, it is downloaded, transcribed, and delivered to the agent as `[Voice: <transcript>]`.
## Phase 1: Pre-flight
### Check if already applied
Check if `src/transcription.ts` exists. If it does, skip to Phase 3 (Configure). The code changes are already in place.
### Ask the user
Use `AskUserQuestion` to collect information:
AskUserQuestion: Do you have an OpenAI API key for Whisper transcription?
If yes, collect it now. If no, direct them to create one at https://platform.openai.com/api-keys.
## Phase 2: Apply Code Changes
**Prerequisite:** WhatsApp must be installed first (`skill/whatsapp` merged). This skill modifies WhatsApp channel files.
### Ensure WhatsApp fork remote
```bash
git remote -v
```
If `whatsapp` is missing, add it:
```bash
git remote add whatsapp https://github.com/qwibitai/nanoclaw-whatsapp.git
```
### Merge the skill branch
```bash
git fetch whatsapp skill/voice-transcription
git merge whatsapp/skill/voice-transcription || {
git checkout --theirs pnpm-lock.yaml
git add pnpm-lock.yaml
git merge --continue
}
```
This merges in:
- `src/transcription.ts` (voice transcription module using OpenAI Whisper)
- Voice handling in `src/channels/whatsapp.ts` (isVoiceMessage check, transcribeAudioMessage call)
- Transcription tests in `src/channels/whatsapp.test.ts`
- `openai` npm dependency in `package.json`
- `OPENAI_API_KEY` in `.env.example`
If the merge reports conflicts, resolve them by reading the conflicted files and understanding the intent of both sides.
### Validate code changes
```bash
pnpm install
pnpm run build
pnpm exec vitest run src/channels/whatsapp.test.ts
```
All tests must pass and build must be clean before proceeding.
## Phase 3: Configure
### Get OpenAI API key (if needed)
If the user doesn't have an API key:
> I need you to create an OpenAI API key:
>
> 1. Go to https://platform.openai.com/api-keys
> 2. Click "Create new secret key"
> 3. Give it a name (e.g., "NanoClaw Transcription")
> 4. Copy the key (starts with `sk-`)
>
> Cost: ~$0.006 per minute of audio (~$0.003 per typical 30-second voice note)
Wait for the user to provide the key.
### Add to environment
Add to `.env`:
```bash
OPENAI_API_KEY=<their-key>
```
Sync to container environment:
```bash
mkdir -p data/env && cp .env data/env/env
```
The container reads environment from `data/env/env`, not `.env` directly.
### Build and restart
```bash
pnpm run build
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
```
## Phase 4: Verify
### Test with a voice note
Tell the user:
> Send a voice note in any registered WhatsApp chat. The agent should receive it as `[Voice: <transcript>]` and respond to its content.
### Check logs if needed
```bash
tail -f logs/nanoclaw.log | grep -i voice
```
Look for:
- `Transcribed voice message` — successful transcription with character count
- `OPENAI_API_KEY not set` — key missing from `.env`
- `OpenAI transcription failed` — API error (check key validity, billing)
- `Failed to download audio message` — media download issue
## Troubleshooting
### Voice notes show "[Voice Message - transcription unavailable]"
1. Check `OPENAI_API_KEY` is set in `.env` AND synced to `data/env/env`
2. Verify key works: `curl -s https://api.openai.com/v1/models -H "Authorization: Bearer $OPENAI_API_KEY" | head -c 200`
3. Check OpenAI billing — Whisper requires a funded account
### Voice notes show "[Voice Message - transcription failed]"
Check logs for the specific error. Common causes:
- Network timeout — transient, will work on next message
- Invalid API key — regenerate at https://platform.openai.com/api-keys
- Rate limiting — wait and retry
### Agent doesn't respond to voice notes
Verify the chat is registered and the agent is running. Voice transcription only runs for registered groups.
@@ -1,54 +1,28 @@
---
name: add-webex
description: Add Webex channel integration via Chat SDK.
name: add-webex-v2
description: Add Webex channel integration to NanoClaw v2 via Chat SDK.
---
# Add Webex Channel
Adds Cisco Webex support via the Chat SDK bridge.
Adds Cisco Webex support to NanoClaw v2 using the Chat SDK bridge.
## Pre-flight
Check if `src/channels/webex.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
NanoClaw doesn't ship channels in trunk. This skill copies the Webex adapter in from the `channels` branch.
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/webex.ts` exists
- `src/channels/index.ts` contains `import './webex.js';`
- `@bitbasti/chat-adapter-webex` is listed in `package.json` dependencies
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
pnpm install @bitbasti/chat-adapter-webex
```
### 2. Copy the adapter
```bash
git show origin/channels:src/channels/webex.ts > src/channels/webex.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
Uncomment the Webex import in `src/channels/index.ts`:
```typescript
import './webex.js';
```
### 4. Install the adapter package (pinned)
```bash
pnpm install @bitbasti/chat-adapter-webex@0.1.0
```
### 5. Build
```bash
pnpm run build
```
-52
View File
@@ -1,52 +0,0 @@
# Remove WeChat Channel
Undo `/add-wechat`.
### 1. Remove credentials
Delete WeChat lines from `.env`:
```bash
sed -i.bak '/^WECHAT_ENABLED=/d' .env && rm -f .env.bak
cp .env data/env/env
```
### 2. Remove adapter and import
```bash
rm -f src/channels/wechat.ts
sed -i.bak "/import '\.\/wechat\.js';/d" src/channels/index.ts && rm -f src/channels/index.ts.bak
```
### 3. Uninstall the package
```bash
pnpm remove wechat-ilink-client
```
### 4. Remove saved auth + sync state
```bash
rm -rf data/wechat
```
### 5. Remove DB wiring
```sql
-- Remove any sessions first (foreign key)
DELETE FROM sessions WHERE messaging_group_id IN (SELECT id FROM messaging_groups WHERE channel_type = 'wechat');
DELETE FROM messaging_group_agents WHERE messaging_group_id IN (SELECT id FROM messaging_groups WHERE channel_type = 'wechat');
DELETE FROM messaging_groups WHERE channel_type = 'wechat';
```
### 6. Rebuild and restart
Run from your NanoClaw project root:
```bash
pnpm run build
source setup/lib/install-slug.sh
systemctl --user restart $(systemd_unit) # Linux
# or
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
```
-173
View File
@@ -1,173 +0,0 @@
---
name: add-wechat
description: Add WeChat (personal) channel integration via Tencent's official iLink Bot API. Uses long-polling and QR scan — no webhook, no ToS risk, no paid token.
---
# Add WeChat Channel
Adds WeChat support via **iLink Bot API** — the first-party Tencent API for personal WeChat bots (different from WeCom / Official Account).
**Why this is different from wechaty/PadLocal:**
- Official Tencent API — no ToS violation, no ban risk
- Free — no PadLocal token required
- No public webhook URL needed — uses long-poll
- Works with any personal WeChat account
## Prerequisites
- A **personal WeChat account** with the mobile app installed
- A phone to scan the QR code for login
- Node.js >= 20 (already required by NanoClaw)
## Install
NanoClaw doesn't ship channels in trunk. This skill copies the WeChat adapter in from the `channels` branch.
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/wechat.ts` exists
- `src/channels/index.ts` contains `import './wechat.js';`
- `wechat-ilink-client` is listed in `package.json` dependencies
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
```
### 2. Copy the adapter
```bash
git show origin/channels:src/channels/wechat.ts > src/channels/wechat.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
```typescript
import './wechat.js';
```
### 4. Install the library (pinned)
```bash
pnpm install wechat-ilink-client@0.1.0
```
### 5. Build
```bash
pnpm run build
```
## Credentials
Unlike most channels, WeChat requires **no pre-configured API keys**. Auth happens via QR code scan from your phone.
### 1. Enable the channel
Add to `.env`:
```bash
WECHAT_ENABLED=true
```
Sync to container: `mkdir -p data/env && cp .env data/env/env`
### 2. Start the service and scan the QR
Restart NanoClaw.
Run from your NanoClaw project root:
```bash
source setup/lib/install-slug.sh
systemctl --user restart $(systemd_unit) # Linux
# or
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
```
The adapter will print a **QR URL** to the logs and save it to `data/wechat/qr.txt`:
```bash
tail -f logs/nanoclaw.log | grep WeChat
# or
cat data/wechat/qr.txt
```
Open the URL in a browser (it renders a QR code), then:
1. Open WeChat on your phone
2. Use its built-in QR scanner (top-right "+" → Scan)
3. Approve the authorization on your phone
4. Auth credentials are saved to `data/wechat/auth.json` — do not commit this file
The bot is now connected as your WeChat account.
## Wire your first DM
A successful QR login alone isn't enough — the adapter still needs to be wired to an agent group before it can respond.
### 1. Trigger the first inbound message
Have a different WeChat account send a message to the bot account. This auto-creates a `messaging_groups` row with the sender's `platform_id`.
### 2. Run the wire script
```bash
pnpm exec tsx .claude/skills/add-wechat/scripts/wire-dm.ts
```
Interactive flow: the script lists all unwired WeChat messaging groups, asks which agent group to wire it to, and creates the `messaging_group_agents` row with sensible defaults (sender policy `request_approval`, session mode `shared`).
With `request_approval`, the next DM from the stranger fires an approval card to the admin — admin taps Approve/Deny, approved users are added as members and their queued message replays through the agent.
Non-interactive:
```bash
pnpm exec tsx .claude/skills/add-wechat/scripts/wire-dm.ts \
--platform-id wechat:wxid_xxxxx \
--agent-group ag-xxxxx \
--non-interactive
```
Flags:
- `--platform-id <id>` — wire a specific messaging group (default: most recent unwired)
- `--agent-group <id>` — target agent group (default: prompt; or solo admin group in non-interactive)
- `--sender-policy public|strict|request_approval` — default `request_approval` (fires an admin approval card on unknown-sender DMs)
- `--session-mode shared|per-thread` — default `shared`
### 3. Test
Have the sender message the bot again — the agent should respond.
## Operational notes
- **Only one instance can use a given token at a time.** Don't run multiple NanoClaw instances pointing to the same `data/wechat/auth.json`.
- **Re-login on session expiry:** if you see `WeChat: session expired` in logs, delete `data/wechat/auth.json` and restart — you'll be asked to re-scan.
- **Sync cursor persistence:** `data/wechat/sync-buf.txt` holds the long-poll cursor. Deleting it replays recent history on next start; don't delete it in normal operation.
- **Account safety:** this uses the official Tencent API, so account bans for bot automation aren't a risk. That said, don't spam — normal rate limits still apply.
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, restart the service to pick up the new channel and wiring.
## Channel Info
- **type**: `wechat`
- **terminology**: WeChat has "contacts" (DMs) and "group chats" (rooms). Each DM or group is a separate messaging group.
- **how-to-find-id**: Send a message to the bot from the target account; the adapter auto-creates a messaging group and logs `WeChat inbound platformId=wechat:<id>`. Use `wechat:<user_id>` for DMs, `wechat:<group_id>` for rooms.
- **admin-user-id**: The operator's WeChat user_id (for `init-first-agent.ts --admin-user-id`) is saved to `data/wechat/auth.json` as `operatorUserId` after the QR scan. Read it with `cat data/wechat/auth.json | jq -r .operatorUserId` and prefix with `wechat:` (i.e. `wechat:<operatorUserId>`).
- **supports-threads**: no (WeChat has no reply threads)
- **typical-use**: Long-poll — the adapter holds a persistent connection to Tencent's iLink API and receives messages in real time. No webhook URL needed.
- **default-isolation**: `shared` session mode per messaging group (DM or room). Use `strict` sender policy if you want only specific users to reach the agent; `public` opens it to anyone who messages the bot.
- **post-install-wiring**: Use the `wire-dm.ts` helper (see the "Wire your first DM" section above) if running this skill standalone. If running as part of `bash nanoclaw.sh`, `init-first-agent.ts` handles wiring — just pass the `platform-id` and `admin-user-id` captured above.
@@ -1,172 +0,0 @@
#!/usr/bin/env pnpm exec tsx
/**
* Wire a WeChat DM (or group) to an agent group.
*
* After /add-wechat installs the adapter and the user scans the QR login,
* the first inbound message from another WeChat account auto-creates a
* `messaging_groups` row. This script finds that row, asks the operator
* which agent group to wire it to, and inserts the `messaging_group_agents`
* join row with sensible defaults the "post-login wiring" step /add-wechat
* otherwise requires manual SQL for.
*
* Usage:
* pnpm exec tsx .claude/skills/add-wechat/scripts/wire-dm.ts
*
* Flags:
* --platform-id <id> Wire a specific messaging group (default: most recent unwired)
* --agent-group <id> Target agent group (default: interactive pick; or solo admin group)
* --sender-policy <p> public | strict (default: public)
* --session-mode <m> shared | per-thread (default: shared)
* --non-interactive Fail instead of prompting
*/
import Database from 'better-sqlite3';
import path from 'node:path';
import readline from 'node:readline';
const DB_PATH = process.env.NANOCLAW_DB_PATH ?? path.join(process.cwd(), 'data', 'v2.db');
type SenderPolicy = 'public' | 'strict' | 'request_approval';
interface Args {
platformId?: string;
agentGroupId?: string;
senderPolicy: SenderPolicy;
sessionMode: 'shared' | 'per-thread';
interactive: boolean;
}
function parseArgs(argv: string[]): Args {
const args: Args = {
// Default matches the router's auto-create (`request_approval`) so the
// admin gets an approval card on the next unknown-sender DM rather than
// a silent allow. Pass `--sender-policy public` to open the channel to
// anyone, or `strict` to require explicit membership.
senderPolicy: 'request_approval',
sessionMode: 'shared',
interactive: true,
};
for (let i = 0; i < argv.length; i++) {
const flag = argv[i];
const val = argv[i + 1];
switch (flag) {
case '--platform-id': args.platformId = val; i++; break;
case '--agent-group': args.agentGroupId = val; i++; break;
case '--sender-policy':
if (val !== 'public' && val !== 'strict' && val !== 'request_approval') {
throw new Error(`bad --sender-policy: ${val} (use public | strict | request_approval)`);
}
args.senderPolicy = val; i++; break;
case '--session-mode':
if (val !== 'shared' && val !== 'per-thread') throw new Error(`bad --session-mode: ${val}`);
args.sessionMode = val; i++; break;
case '--non-interactive': args.interactive = false; break;
case '--help': case '-h':
console.log('See .claude/skills/add-wechat/scripts/wire-dm.ts header for usage.');
process.exit(0);
}
}
return args;
}
async function prompt(q: string): Promise<string> {
const rl = readline.createInterface({ input: process.stdin, output: process.stdout });
return new Promise((resolve) => rl.question(q, (a) => { rl.close(); resolve(a.trim()); }));
}
function generateId(prefix: string): string {
return `${prefix}-${Date.now()}-${Math.random().toString(36).slice(2, 8)}`;
}
async function main(): Promise<void> {
const args = parseArgs(process.argv.slice(2));
const db = new Database(DB_PATH);
db.pragma('journal_mode = WAL');
// 1. Pick the messaging group
let platformId = args.platformId;
if (!platformId) {
const rows = db.prepare(`
SELECT mg.id, mg.platform_id, mg.name, mg.is_group, mg.created_at
FROM messaging_groups mg
LEFT JOIN messaging_group_agents mga ON mga.messaging_group_id = mg.id
WHERE mg.channel_type = 'wechat' AND mga.id IS NULL
ORDER BY mg.created_at DESC
`).all() as Array<{ id: string; platform_id: string; name: string | null; is_group: number; created_at: string }>;
if (rows.length === 0) {
console.error('No unwired WeChat messaging groups found.');
console.error('Send a message to the bot first (from another WeChat account), then re-run.');
process.exit(1);
}
if (rows.length === 1 || !args.interactive) {
platformId = rows[0].platform_id;
console.log(`Using most recent unwired group: ${platformId} (${rows[0].is_group ? 'group' : 'DM'})`);
} else {
console.log('Unwired WeChat messaging groups:');
rows.forEach((r, i) => {
console.log(` ${i + 1}. ${r.platform_id} (${r.is_group ? 'group' : 'DM'}, ${r.created_at})`);
});
const pick = await prompt('Pick one [1]: ');
const idx = pick === '' ? 0 : parseInt(pick, 10) - 1;
if (Number.isNaN(idx) || idx < 0 || idx >= rows.length) throw new Error('invalid choice');
platformId = rows[idx].platform_id;
}
}
const mg = db.prepare(
'SELECT id, platform_id, is_group FROM messaging_groups WHERE channel_type = ? AND platform_id = ?'
).get('wechat', platformId) as { id: string; platform_id: string; is_group: number } | undefined;
if (!mg) throw new Error(`no wechat messaging_group with platform_id = ${platformId}`);
// 2. Pick the agent group
let agentGroupId = args.agentGroupId;
if (!agentGroupId) {
const agents = db.prepare('SELECT id, name, is_admin FROM agent_groups ORDER BY is_admin DESC, created_at ASC')
.all() as Array<{ id: string; name: string; is_admin: number }>;
if (agents.length === 0) throw new Error('no agent groups exist — create one first');
const adminAgents = agents.filter((a) => a.is_admin === 1);
if (adminAgents.length === 1 && !args.interactive) {
agentGroupId = adminAgents[0].id;
console.log(`Auto-selected sole admin agent group: ${adminAgents[0].name} (${agentGroupId})`);
} else if (args.interactive) {
console.log('Agent groups:');
agents.forEach((a, i) => {
console.log(` ${i + 1}. ${a.name} (${a.id})${a.is_admin ? ' [admin]' : ''}`);
});
const pick = await prompt('Pick one [1]: ');
const idx = pick === '' ? 0 : parseInt(pick, 10) - 1;
if (Number.isNaN(idx) || idx < 0 || idx >= agents.length) throw new Error('invalid choice');
agentGroupId = agents[idx].id;
} else {
throw new Error('multiple agent groups exist; pass --agent-group <id>');
}
}
const ag = db.prepare('SELECT id, name FROM agent_groups WHERE id = ?').get(agentGroupId) as
{ id: string; name: string } | undefined;
if (!ag) throw new Error(`no agent_group with id = ${agentGroupId}`);
// 3. Update sender policy + wire
const tx = db.transaction(() => {
db.prepare('UPDATE messaging_groups SET unknown_sender_policy = ? WHERE id = ?')
.run(args.senderPolicy, mg.id);
db.prepare(`
INSERT INTO messaging_group_agents
(id, messaging_group_id, agent_group_id, trigger_rules, response_scope, session_mode, priority, created_at)
VALUES (?, ?, ?, '', 'all', ?, 10, datetime('now'))
`).run(generateId('mga'), mg.id, ag.id, args.sessionMode);
});
tx();
console.log('');
console.log(`WIRED platform_id=${mg.platform_id} agent_group=${ag.name} policy=${args.senderPolicy} mode=${args.sessionMode}`);
db.close();
}
main().catch((err) => {
console.error('FAILED:', err.message);
process.exit(1);
});
@@ -1,53 +1,29 @@
---
name: add-whatsapp-cloud
description: Add WhatsApp Business Cloud API channel via Chat SDK. Official Meta API.
name: add-whatsapp-cloud-v2
description: Add WhatsApp Business Cloud API channel to NanoClaw v2 via Chat SDK. Official Meta API.
---
# Add WhatsApp Cloud API Channel
Connect NanoClaw to WhatsApp via the official Meta WhatsApp Business Cloud API.
## Pre-flight
Check if `src/channels/whatsapp-cloud.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
NanoClaw doesn't ship channels in trunk. This skill copies the WhatsApp Cloud adapter in from the `channels` branch.
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/whatsapp-cloud.ts` exists
- `src/channels/index.ts` contains `import './whatsapp-cloud.js';`
- `@chat-adapter/whatsapp` is listed in `package.json` dependencies
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
pnpm install @chat-adapter/whatsapp
```
### 2. Copy the adapter
```bash
git show origin/channels:src/channels/whatsapp-cloud.ts > src/channels/whatsapp-cloud.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if the line is already present):
Uncomment the WhatsApp Cloud API import in `src/channels/index.ts`:
```typescript
import './whatsapp-cloud.js';
```
### 4. Install the adapter package (pinned)
```bash
pnpm install @chat-adapter/whatsapp@4.27.0
```
### 5. Build
Build:
```bash
pnpm run build
+240
View File
@@ -0,0 +1,240 @@
---
name: add-whatsapp-v2
description: Add WhatsApp channel to NanoClaw v2 using native Baileys adapter. Direct connection — no Chat SDK bridge. Uses QR code or pairing code for authentication.
---
# Add WhatsApp Channel
Adds WhatsApp support to NanoClaw v2 using the native Baileys adapter (no Chat SDK bridge).
## Pre-flight
Check if `src/channels/whatsapp.ts` exists and the import is uncommented in `src/channels/index.ts`. If both are in place, skip to Credentials.
## Install
### Install the adapter packages
```bash
pnpm install @whiskeysockets/baileys@^6.7.21 pino@^9.6.0 qrcode@^1.5.4 @types/qrcode@^1.5.6
```
### Enable the channel
If `src/channels/whatsapp.ts` is missing, fetch it from upstream:
```bash
git remote -v | grep -q upstream || git remote add upstream https://github.com/qwibitai/nanoclaw.git
git fetch upstream v2
git checkout upstream/v2 -- src/channels/whatsapp.ts
```
Uncomment or add the WhatsApp import in `src/channels/index.ts`:
```typescript
// whatsapp (native, no Chat SDK)
import './whatsapp.js';
```
### Build
```bash
pnpm run build
```
## Credentials
WhatsApp uses linked-device authentication — no API key, just a one-time pairing from your phone.
### Check current state
Check if WhatsApp is already authenticated. If `store/auth/creds.json` exists, skip to "Shared vs dedicated number".
```bash
test -f store/auth/creds.json && echo "WhatsApp auth exists" || echo "No WhatsApp auth"
```
### Detect environment
Check whether the environment is headless (no display server):
```bash
[[ -z "$DISPLAY" && -z "$WAYLAND_DISPLAY" && "$OSTYPE" != darwin* ]] && echo "IS_HEADLESS=true" || echo "IS_HEADLESS=false"
```
### Ask the user
Use `AskUserQuestion` to collect configuration. **Adapt auth options based on environment:**
If IS_HEADLESS=true AND not WSL → AskUserQuestion: How do you want to authenticate WhatsApp?
- **Pairing code** (Recommended) - Enter a numeric code on your phone (no camera needed, requires phone number)
- **QR code in terminal** - Displays QR code in the terminal (can be too small on some displays)
Otherwise (macOS, desktop Linux, or WSL) → AskUserQuestion: How do you want to authenticate WhatsApp?
- **QR code in browser** (Recommended) - Opens a browser window with a large, scannable QR code
- **Pairing code** - Enter a numeric code on your phone (no camera needed, requires phone number)
- **QR code in terminal** - Displays QR code in the terminal (can be too small on some displays)
If they chose pairing code:
AskUserQuestion: What is your phone number? (Digits only — country code followed by your 10-digit number, no + prefix, spaces, or dashes. Example: 14155551234 where 1 is the US country code and 4155551234 is the phone number.)
### Clean previous auth state (if re-authenticating)
```bash
rm -rf store/auth/
```
### Run WhatsApp authentication
For QR code in browser (recommended):
```bash
pnpm exec tsx setup/index.ts --step whatsapp-auth -- --method qr-browser
```
(Bash timeout: 150000ms)
Tell the user:
> A browser window will open with a QR code.
>
> 1. Open WhatsApp > **Settings** > **Linked Devices** > **Link a Device**
> 2. Scan the QR code in the browser
> 3. The page will show "Authenticated!" when done
For QR code in terminal:
```bash
pnpm exec tsx setup/index.ts --step whatsapp-auth -- --method qr-terminal
```
(Bash timeout: 150000ms)
Tell the user:
> 1. Open WhatsApp > **Settings** > **Linked Devices** > **Link a Device**
> 2. Scan the QR code displayed in the terminal
For pairing code:
Tell the user to have WhatsApp open on **Settings > Linked Devices > Link a Device**, ready to tap **"Link with phone number instead"** — the code expires in ~60 seconds and must be entered immediately.
Run the auth process in the background and poll `store/pairing-code.txt` for the code:
```bash
rm -f store/pairing-code.txt && pnpm exec tsx setup/index.ts --step whatsapp-auth -- --method pairing-code --phone <their-phone-number> > /tmp/wa-auth.log 2>&1 &
```
Then immediately poll for the code (do NOT wait for the background command to finish):
```bash
for i in $(seq 1 20); do [ -f store/pairing-code.txt ] && cat store/pairing-code.txt && break; sleep 1; done
```
Display the code to the user the moment it appears. Tell them:
> **Enter this code now** — it expires in ~60 seconds.
>
> 1. Open WhatsApp > **Settings** > **Linked Devices** > **Link a Device**
> 2. Tap **Link with phone number instead**
> 3. Enter the code immediately
After the user enters the code, poll for authentication to complete:
```bash
for i in $(seq 1 60); do grep -q 'STATUS: authenticated' /tmp/wa-auth.log 2>/dev/null && echo "authenticated" && break; grep -q 'STATUS: failed' /tmp/wa-auth.log 2>/dev/null && echo "failed" && break; sleep 2; done
```
**If failed:** logged_out → delete `store/auth/` and re-run. timeout → ask user, offer retry.
### Verify authentication succeeded
```bash
test -f store/auth/creds.json && echo "Authentication successful" || echo "Authentication failed"
```
### Shared vs dedicated number
AskUserQuestion: Is this a shared phone number (personal WhatsApp) or a dedicated number?
- **Shared number** — your personal WhatsApp (bot prefixes messages with its name)
- **Dedicated number** — a separate phone/SIM for the assistant
If dedicated, add to `.env`:
```bash
ASSISTANT_HAS_OWN_NUMBER=true
```
## Next Steps
If you're in the middle of `/setup`, return to the setup flow now.
Otherwise, run `/manage-channels` to wire this channel to an agent group.
## Channel Info
- **type**: `whatsapp`
- **terminology**: WhatsApp calls them "groups" and "chats." A "chat" is a 1:1 DM; a "group" has multiple members.
- **how-to-find-id**: DMs use `<phone>@s.whatsapp.net` (e.g. `14155551234@s.whatsapp.net`). Groups use `<id>@g.us`. To find your number: `node -e "const c=JSON.parse(require('fs').readFileSync('store/auth/creds.json','utf-8'));console.log(c.me?.id?.split(':')[0]+'@s.whatsapp.net')"`. Groups are auto-discovered — check `sqlite3 data/v2.db "SELECT platform_id, name FROM messaging_groups WHERE channel_type='whatsapp' AND is_group=1"`.
- **supports-threads**: no
- **typical-use**: Interactive chat — direct messages or small groups
- **default-isolation**: Same agent group if you're the only participant across multiple chats. Separate agent group if different people are in different groups.
### Features
- Markdown formatting — `**bold**``*bold*`, `*italic*``_italic_`, headings→bold, code blocks preserved
- Approval questions — `ask_user_question` renders with `/approve`, `/reject` slash commands
- File attachments — send and receive images, video, audio, documents
- Reactions — send emoji reactions on messages
- Typing indicators — composing presence updates
- Credential requests — text fallback (WhatsApp has no modal support)
Not supported (WhatsApp linked device limitation): edit messages, delete messages.
## Troubleshooting
### QR code expired
QR codes expire after ~60 seconds. Re-run the auth command:
```bash
rm -rf store/auth/ && pnpm exec tsx setup/index.ts --step whatsapp-auth -- --method qr-browser
```
### Pairing code not working
Codes expire in ~60 seconds. Delete auth and retry:
```bash
rm -rf store/auth/ && pnpm exec tsx setup/index.ts --step whatsapp-auth -- --method pairing-code --phone <phone>
```
Ensure: digits only (no `+`), phone has internet, WhatsApp is updated.
If pairing code keeps failing, switch to QR-browser auth instead:
```bash
rm -rf store/auth/ && pnpm exec tsx setup/index.ts --step whatsapp-auth -- --method qr-browser
```
### "waiting for this message" on reactions
Signal sessions corrupted from rapid restarts. Clear sessions:
```bash
systemctl --user stop nanoclaw
rm store/auth/session-*.json
systemctl --user start nanoclaw
```
### Bot not responding
1. Auth exists: `test -f store/auth/creds.json`
2. Connected: `grep "Connected to WhatsApp" logs/nanoclaw.log | tail -1`
3. Channel wired: `sqlite3 data/v2.db "SELECT mg.platform_id, mg.name FROM messaging_groups mg JOIN messaging_group_agents mga ON mg.id=mga.messaging_group_id WHERE mg.channel_type='whatsapp'"`
4. Service running: `systemctl --user status nanoclaw`
### "conflict" disconnection
Two instances connected with same credentials. Ensure only one NanoClaw process is running.
+224 -124
View File
@@ -1,82 +1,20 @@
---
name: add-whatsapp
description: Add WhatsApp channel via native Baileys adapter. Direct connection — no Chat SDK bridge. Uses QR code or pairing code for authentication.
description: Add WhatsApp as a channel. Can replace other channels entirely or run alongside them. Uses QR code or pairing code for authentication.
---
# Add WhatsApp Channel
Adds WhatsApp support via the native Baileys adapter (no Chat SDK bridge).
This skill adds WhatsApp support to NanoClaw. It installs the WhatsApp channel code, dependencies, and guides through authentication, registration, and configuration.
## Install
NanoClaw doesn't ship channels in trunk. This skill copies the native WhatsApp (Baileys) adapter and its `whatsapp-auth` setup step in from the `channels` branch. No Chat SDK bridge.
### Pre-flight (idempotent)
Skip to **Credentials** if all of these are already in place:
- `src/channels/whatsapp.ts` exists
- `src/channels/index.ts` contains `import './whatsapp.js';`
- `setup/whatsapp-auth.ts` and `setup/groups.ts` both exist
- `setup/index.ts`'s `STEPS` map contains both `'whatsapp-auth':` and `groups:`
- `@whiskeysockets/baileys`, `qrcode`, `pino` are listed in `package.json` dependencies
- `.claude/skills/add-whatsapp/scripts/wa-qr-browser.ts` exists (ships with this skill)
Otherwise continue. Every step below is safe to re-run.
### 1. Fetch the channels branch
```bash
git fetch origin channels
```
### 2. Copy the adapter and setup steps
```bash
git show origin/channels:src/channels/whatsapp.ts > src/channels/whatsapp.ts
git show origin/channels:setup/whatsapp-auth.ts > setup/whatsapp-auth.ts
git show origin/channels:setup/groups.ts > setup/groups.ts
```
### 3. Append the self-registration import
Append to `src/channels/index.ts` (skip if already present):
```typescript
import './whatsapp.js';
```
### 4. Register the setup steps
In `setup/index.ts`, add these entries to the `STEPS` map (skip lines already present):
```typescript
groups: () => import('./groups.js'),
'whatsapp-auth': () => import('./whatsapp-auth.js'),
```
### 5. Install the adapter packages (pinned)
```bash
pnpm install @whiskeysockets/baileys@7.0.0-rc.9 qrcode@1.5.4 @types/qrcode@1.5.6 pino@9.6.0
```
### 6. Build
```bash
pnpm run build
```
## Credentials
WhatsApp uses linked-device authentication — no API key, just a one-time pairing from your phone.
## Phase 1: Pre-flight
### Check current state
Check if WhatsApp is already authenticated. If `store/auth/creds.json` exists, skip to "Shared vs dedicated number".
Check if WhatsApp is already configured. If `store/auth/` exists with credential files, skip to Phase 4 (Registration) or Phase 5 (Verify).
```bash
test -f store/auth/creds.json && echo "WhatsApp auth exists" || echo "No WhatsApp auth"
ls store/auth/creds.json 2>/dev/null && echo "WhatsApp auth exists" || echo "No WhatsApp auth"
```
### Detect environment
@@ -96,7 +34,7 @@ If IS_HEADLESS=true AND not WSL → AskUserQuestion: How do you want to authenti
- **QR code in terminal** - Displays QR code in the terminal (can be too small on some displays)
Otherwise (macOS, desktop Linux, or WSL) → AskUserQuestion: How do you want to authenticate WhatsApp?
- **QR code in browser** (Recommended) - Runs a small local HTTP server that renders the rotating QR as a PNG and auto-opens your default browser
- **QR code in browser** (Recommended) - Opens a browser window with a large, scannable QR code
- **Pairing code** - Enter a numeric code on your phone (no camera needed, requires phone number)
- **QR code in terminal** - Displays QR code in the terminal (can be too small on some displays)
@@ -104,6 +42,57 @@ If they chose pairing code:
AskUserQuestion: What is your phone number? (Digits only — country code followed by your 10-digit number, no + prefix, spaces, or dashes. Example: 14155551234 where 1 is the US country code and 4155551234 is the phone number.)
## Phase 2: Apply Code Changes
Check if `src/channels/whatsapp.ts` already exists. If it does, skip to Phase 3 (Authentication).
### Ensure channel remote
```bash
git remote -v
```
If `whatsapp` is missing, add it:
```bash
git remote add whatsapp https://github.com/qwibitai/nanoclaw-whatsapp.git
```
### Merge the skill branch
```bash
git fetch whatsapp main
git merge whatsapp/main || {
git checkout --theirs pnpm-lock.yaml
git add pnpm-lock.yaml
git merge --continue
}
```
This merges in:
- `src/channels/whatsapp.ts` (WhatsAppChannel class with self-registration via `registerChannel`)
- `src/channels/whatsapp.test.ts` (41 unit tests)
- `src/whatsapp-auth.ts` (standalone WhatsApp authentication script)
- `setup/whatsapp-auth.ts` (WhatsApp auth setup step)
- `import './whatsapp.js'` appended to the channel barrel file `src/channels/index.ts`
- `'whatsapp-auth'` step added to `setup/index.ts`
- `@whiskeysockets/baileys`, `qrcode`, `qrcode-terminal` npm dependencies in `package.json`
- `ASSISTANT_HAS_OWN_NUMBER` in `.env.example`
If the merge reports conflicts, resolve them by reading the conflicted files and understanding the intent of both sides.
### Validate code changes
```bash
pnpm install
pnpm run build
pnpm exec vitest run src/channels/whatsapp.test.ts
```
All tests must pass and build must be clean before proceeding.
## Phase 3: Authentication
### Clean previous auth state (if re-authenticating)
```bash
@@ -115,13 +104,11 @@ rm -rf store/auth/
For QR code in browser (recommended):
```bash
pnpm exec tsx .claude/skills/add-whatsapp/scripts/wa-qr-browser.ts
pnpm exec tsx setup/index.ts --step whatsapp-auth -- --method qr-browser
```
(Bash timeout: 150000ms)
The wrapper spawns `setup/index.ts --step whatsapp-auth -- --method qr`, parses each rotating QR from its `WHATSAPP_AUTH_QR` status blocks, and serves the current QR as a PNG on a local HTTP server (default port `8765`, falls back to a free port). Flags: `--clean` (wipes `store/auth/` before spawning) and `--port N`.
Tell the user:
> A browser window will open with a QR code.
@@ -133,14 +120,10 @@ Tell the user:
For QR code in terminal:
```bash
pnpm exec tsx setup/index.ts --step whatsapp-auth -- --method qr
pnpm exec tsx setup/index.ts --step whatsapp-auth -- --method qr-terminal
```
(Bash timeout: 150000ms)
The setup driver emits each rotating QR as a `WHATSAPP_AUTH_QR` status block; when run directly (not through `setup:auto`) the raw QR string is printed and your terminal must render it as ASCII. If your terminal can't render it readably, use the browser method above.
Tell the user:
Tell the user to run `pnpm run auth` in another terminal, then:
> 1. Open WhatsApp > **Settings** > **Linked Devices** > **Link a Device**
> 2. Scan the QR code displayed in the terminal
@@ -172,10 +155,10 @@ Display the code to the user the moment it appears. Tell them:
After the user enters the code, poll for authentication to complete:
```bash
for i in $(seq 1 60); do grep -q 'STATUS: authenticated' /tmp/wa-auth.log 2>/dev/null && echo "authenticated" && break; grep -q 'STATUS: failed' /tmp/wa-auth.log 2>/dev/null && echo "failed" && break; sleep 2; done
for i in $(seq 1 60); do grep -q 'AUTH_STATUS: authenticated' /tmp/wa-auth.log 2>/dev/null && echo "authenticated" && break; grep -q 'AUTH_STATUS: failed' /tmp/wa-auth.log 2>/dev/null && echo "failed" && break; sleep 2; done
```
**If failed:** logged_out → delete `store/auth/` and re-run. timeout → ask user, offer retry.
**If failed:** qr_timeout → re-run. logged_out → delete `store/auth/` and re-run. 515 → re-run. timeout → ask user, offer retry.
### Verify authentication succeeded
@@ -183,90 +166,207 @@ for i in $(seq 1 60); do grep -q 'STATUS: authenticated' /tmp/wa-auth.log 2>/dev
test -f store/auth/creds.json && echo "Authentication successful" || echo "Authentication failed"
```
### Shared vs dedicated number
### Configure environment
AskUserQuestion: Is this a shared phone number (personal WhatsApp) or a dedicated number?
- **Shared number** — your personal WhatsApp (bot prefixes messages with its name)
- **Dedicated number** — a separate phone/SIM for the assistant
Channels auto-enable when their credentials are present — WhatsApp activates when `store/auth/creds.json` exists.
If dedicated, add to `.env`:
Sync to container environment:
```bash
ASSISTANT_HAS_OWN_NUMBER=true
mkdir -p data/env && cp .env data/env/env
```
## Next Steps
## Phase 4: Registration
If you're in the middle of `/setup`, return to the setup flow now.
### Configure trigger and channel type
Otherwise, run `/manage-channels` to wire this channel to an agent group.
Get the bot's WhatsApp number: `node -e "const c=require('./store/auth/creds.json');console.log(c.me.id.split(':')[0].split('@')[0])"`
## Channel Info
AskUserQuestion: Is this a shared phone number (personal WhatsApp) or a dedicated number (separate device)?
- **Shared number** - Your personal WhatsApp number (recommended: use self-chat or a solo group)
- **Dedicated number** - A separate phone/SIM for the assistant
- **type**: `whatsapp`
- **terminology**: WhatsApp calls them "groups" and "chats." A "chat" is a 1:1 DM; a "group" has multiple members.
- **how-to-find-id**: DMs use `<phone>@s.whatsapp.net` (e.g. `14155551234@s.whatsapp.net`). Groups use `<id>@g.us`. To find your number: `node -e "const c=JSON.parse(require('fs').readFileSync('store/auth/creds.json','utf-8'));console.log(c.me?.id?.split(':')[0]+'@s.whatsapp.net')"`. Groups are auto-discovered — check `pnpm exec tsx scripts/q.ts data/v2.db "SELECT platform_id, name FROM messaging_groups WHERE channel_type='whatsapp' AND is_group=1"`.
- **supports-threads**: no
- **typical-use**: Interactive chat — direct messages or small groups
- **default-isolation**: Same agent group if you're the only participant across multiple chats. Separate agent group if different people are in different groups.
AskUserQuestion: What trigger word should activate the assistant?
- **@Andy** - Default trigger
- **@Claw** - Short and easy
- **@Claude** - Match the AI name
### Features
AskUserQuestion: What should the assistant call itself?
- **Andy** - Default name
- **Claw** - Short and easy
- **Claude** - Match the AI name
- Markdown formatting — `**bold**``*bold*`, `*italic*``_italic_`, headings→bold, code blocks preserved
- Approval questions — `ask_user_question` renders with `/approve`, `/reject` slash commands
- File attachments — send and receive images, video, audio, documents
- Reactions — send emoji reactions on messages
- Typing indicators — composing presence updates
- Credential requests — text fallback (WhatsApp has no modal support)
AskUserQuestion: Where do you want to chat with the assistant?
Not supported (WhatsApp linked device limitation): edit messages, delete messages.
**Shared number options:**
- **Self-chat** (Recommended) - Chat in your own "Message Yourself" conversation
- **Solo group** - A group with just you and the linked device
- **Existing group** - An existing WhatsApp group
**Dedicated number options:**
- **DM with bot** (Recommended) - Direct message the bot's number
- **Solo group** - A group with just you and the bot
- **Existing group** - An existing WhatsApp group
### Get the JID
**Self-chat:** JID = your phone number with `@s.whatsapp.net`. Extract from auth credentials:
```bash
node -e "const c=JSON.parse(require('fs').readFileSync('store/auth/creds.json','utf-8'));console.log(c.me?.id?.split(':')[0]+'@s.whatsapp.net')"
```
**DM with bot:** Ask for the bot's phone number. JID = `NUMBER@s.whatsapp.net`
**Group (solo, existing):** Run group sync and list available groups:
```bash
pnpm exec tsx setup/index.ts --step groups
pnpm exec tsx setup/index.ts --step groups --list
```
The output shows `JID|GroupName` pairs. Present candidates as AskUserQuestion (names only, not JIDs).
### Register the chat
```bash
pnpm exec tsx setup/index.ts --step register \
--jid "<jid>" \
--name "<chat-name>" \
--trigger "@<trigger>" \
--folder "whatsapp_main" \
--channel whatsapp \
--assistant-name "<name>" \
--is-main \
--no-trigger-required # Only for main/self-chat
```
For additional groups (trigger-required):
```bash
pnpm exec tsx setup/index.ts --step register \
--jid "<group-jid>" \
--name "<group-name>" \
--trigger "@<trigger>" \
--folder "whatsapp_<group-name>" \
--channel whatsapp
```
## Phase 5: Verify
### Build and restart
```bash
pnpm run build
```
Restart the service:
```bash
# macOS (launchd)
launchctl kickstart -k gui/$(id -u)/com.nanoclaw
# Linux (systemd)
systemctl --user restart nanoclaw
# Linux (nohup fallback)
bash start-nanoclaw.sh
```
### Test the connection
Tell the user:
> Send a message to your registered WhatsApp chat:
> - For self-chat / main: Any message works
> - For groups: Use the trigger word (e.g., "@Andy hello")
>
> The assistant should respond within a few seconds.
### Check logs if needed
```bash
tail -f logs/nanoclaw.log
```
## Troubleshooting
### QR code expired
QR codes expire after ~60 seconds. The browser wrapper rotates automatically as long as it's running; if it was stopped, re-run with `--clean`:
QR codes expire after ~60 seconds. Re-run the auth command:
```bash
pnpm exec tsx .claude/skills/add-whatsapp/scripts/wa-qr-browser.ts --clean
rm -rf store/auth/ && pnpm exec tsx src/whatsapp-auth.ts
```
### Pairing code not working
Codes expire in ~60 seconds. Delete auth and retry:
Codes expire in ~60 seconds. To retry:
```bash
rm -rf store/auth/ && pnpm exec tsx setup/index.ts --step whatsapp-auth -- --method pairing-code --phone <phone>
rm -rf store/auth/ && pnpm exec tsx src/whatsapp-auth.ts --pairing-code --phone <phone>
```
Ensure: digits only (no `+`), phone has internet, WhatsApp is updated.
Enter the code **immediately** when it appears. Also ensure:
1. Phone number is digits only — country code + number, no `+` prefix (e.g., `14155551234` where `1` is country code, `4155551234` is the number)
2. Phone has internet access
3. WhatsApp is updated to the latest version
WhatsApp's pairing-code flow occasionally rejects valid codes with "Couldn't link device — An error happened. Please try again." This is a server-side rejection unrelated to the code itself; we've seen it happen twice in a row on fresh dedicated numbers. If you hit it more than once, switch to QR-browser auth — it has a noticeably higher success rate:
If pairing code keeps failing, switch to QR-browser auth instead:
```bash
pnpm exec tsx .claude/skills/add-whatsapp/scripts/wa-qr-browser.ts --clean
rm -rf store/auth/ && pnpm exec tsx setup/index.ts --step whatsapp-auth -- --method qr-browser
```
### "waiting for this message" on reactions
### "conflict" disconnection
Signal sessions corrupted from rapid restarts. Clear sessions.
Run from your NanoClaw project root:
This happens when two instances connect with the same credentials. Ensure only one NanoClaw process is running:
```bash
source setup/lib/install-slug.sh
systemctl --user stop $(systemd_unit)
rm store/auth/session-*.json
systemctl --user start $(systemd_unit)
pkill -f "node dist/index.js"
# Then restart
```
### Bot not responding
1. Auth exists: `test -f store/auth/creds.json`
2. Connected: `grep "Connected to WhatsApp" logs/nanoclaw.log | tail -1`
3. Channel wired: `pnpm exec tsx scripts/q.ts data/v2.db "SELECT mg.platform_id, mg.name FROM messaging_groups mg JOIN messaging_group_agents mga ON mg.id=mga.messaging_group_id WHERE mg.channel_type='whatsapp'"`
4. Service running: `systemctl --user status "$(. setup/lib/install-slug.sh && systemd_unit)"`
Check:
1. Auth credentials exist: `ls store/auth/creds.json`
3. Chat is registered: `sqlite3 store/messages.db "SELECT * FROM registered_groups WHERE jid LIKE '%whatsapp%' OR jid LIKE '%@g.us' OR jid LIKE '%@s.whatsapp.net'"`
4. Service is running: `launchctl list | grep nanoclaw` (macOS) or `systemctl --user status nanoclaw` (Linux)
5. Logs: `tail -50 logs/nanoclaw.log`
### "conflict" disconnection
### Group names not showing
Two instances connected with same credentials. Ensure only one NanoClaw process is running.
Run group metadata sync:
```bash
pnpm exec tsx setup/index.ts --step groups
```
This fetches all group names from WhatsApp. Runs automatically every 24 hours.
## After Setup
If running `pnpm run dev` while the service is active:
```bash
# macOS:
launchctl unload ~/Library/LaunchAgents/com.nanoclaw.plist
pnpm run dev
# When done testing:
launchctl load ~/Library/LaunchAgents/com.nanoclaw.plist
# Linux:
# systemctl --user stop nanoclaw
# pnpm run dev
# systemctl --user start nanoclaw
```
## Removal
To remove WhatsApp integration:
1. Delete auth credentials: `rm -rf store/auth/`
2. Remove WhatsApp registrations: `sqlite3 store/messages.db "DELETE FROM registered_groups WHERE jid LIKE '%@g.us' OR jid LIKE '%@s.whatsapp.net'"`
3. Sync env: `mkdir -p data/env && cp .env data/env/env`
4. Rebuild and restart: `pnpm run build && launchctl kickstart -k gui/$(id -u)/com.nanoclaw` (macOS) or `pnpm run build && systemctl --user restart nanoclaw` (Linux)
@@ -1,246 +0,0 @@
/**
* scripts/wa-qr-browser.ts serve WhatsApp pairing QR in the browser.
*
* Wraps `setup/index.ts --step whatsapp-auth -- --method qr` and renders the
* rotating QR string as a PNG in a small local HTTP page. Avoids the unreadable
* ASCII terminal QR. macOS / desktop-Linux only no headless support needed.
*
* Usage:
* pnpm exec tsx scripts/wa-qr-browser.ts [--clean] [--port 8765]
*
* --clean rm -rf store/auth/ before spawning the auth step.
* --port N bind to port N (default 8765, falls back to a free port).
*/
import { spawn, exec } from 'node:child_process';
import http from 'node:http';
import fs from 'node:fs';
import path from 'node:path';
import QRCode from 'qrcode';
type Status = 'waiting' | 'ready' | 'success' | 'failed';
type State = {
qr: string | null;
status: Status;
error?: string;
version: number;
};
const state: State = { qr: null, status: 'waiting', version: 0 };
const args = process.argv.slice(2);
const clean = args.includes('--clean');
const portIdx = args.indexOf('--port');
const requestedPort = portIdx >= 0 ? Number(args[portIdx + 1]) : 8765;
if (clean) {
fs.rmSync(path.join(process.cwd(), 'store', 'auth'), {
recursive: true,
force: true,
});
console.log('[wa-qr-browser] cleaned store/auth/');
}
function htmlPage(): string {
return `<!doctype html>
<html lang="en">
<head>
<meta charset="utf-8" />
<meta name="viewport" content="width=device-width,initial-scale=1" />
<title>WhatsApp pairing</title>
<style>
body { margin: 0; min-height: 100vh; display: grid; place-items: center;
font-family: -apple-system, BlinkMacSystemFont, "Segoe UI", sans-serif;
background: #0b141a; color: #e9edef; }
.card { background: #202c33; padding: 32px 40px; border-radius: 16px;
box-shadow: 0 12px 36px rgba(0,0,0,0.4); text-align: center;
min-width: 420px; }
h1 { font-size: 18px; font-weight: 500; margin: 0 0 20px; color: #aebac1; }
.qr-wrap { background: white; padding: 16px; border-radius: 12px;
display: inline-block; }
#qr { width: 360px; height: 360px; display: block; image-rendering: pixelated; }
#status { margin-top: 20px; font-size: 14px; color: #8696a0; min-height: 20px; }
#status.ok { color: #00d26a; font-size: 18px; font-weight: 500; }
#status.err { color: #ff6b6b; }
ol { text-align: left; color: #aebac1; font-size: 13px; line-height: 1.8;
margin: 20px 0 0; padding-left: 20px; }
</style>
</head>
<body>
<div class="card">
<h1>Scan with WhatsApp</h1>
<div class="qr-wrap"><img id="qr" alt="QR code" /></div>
<div id="status">Waiting for QR</div>
<ol>
<li>Open WhatsApp on your phone</li>
<li>Settings &rarr; Linked Devices &rarr; Link a Device</li>
<li>Point the camera at this QR code</li>
</ol>
</div>
<script>
let lastVersion = -1;
const qr = document.getElementById('qr');
const status = document.getElementById('status');
async function tick() {
try {
const r = await fetch('/qr.json', { cache: 'no-store' });
const s = await r.json();
if (s.status === 'success') {
qr.style.display = 'none';
status.className = 'ok';
status.textContent = '✓ Authenticated!';
return;
}
if (s.status === 'failed') {
qr.style.display = 'none';
status.className = 'err';
status.textContent = '✗ ' + (s.error || 'failed');
return;
}
if (s.qr && s.version !== lastVersion) {
lastVersion = s.version;
qr.src = '/qr.png?v=' + s.version;
status.textContent = 'QR ready — scan within ~20s';
}
} catch (e) { /* server closing, ignore */ }
setTimeout(tick, 1500);
}
tick();
</script>
</body>
</html>`;
}
const server = http.createServer(async (req, res) => {
const url = req.url ?? '/';
if (url === '/' || url.startsWith('/?')) {
res.setHeader('content-type', 'text/html; charset=utf-8');
res.end(htmlPage());
return;
}
if (url === '/qr.json') {
res.setHeader('content-type', 'application/json');
res.setHeader('cache-control', 'no-store');
res.end(JSON.stringify(state));
return;
}
if (url.startsWith('/qr.png')) {
if (!state.qr) {
res.statusCode = 404;
res.end();
return;
}
try {
const buf = await QRCode.toBuffer(state.qr, { width: 360, margin: 1 });
res.setHeader('content-type', 'image/png');
res.setHeader('cache-control', 'no-store');
res.end(buf);
} catch (e) {
res.statusCode = 500;
res.end(String(e));
}
return;
}
res.statusCode = 404;
res.end();
});
function listen(port: number): Promise<number> {
return new Promise((resolve, reject) => {
server.once('error', (err: NodeJS.ErrnoException) => {
if (err.code === 'EADDRINUSE' && port === requestedPort) {
server.listen(0, () => {
const addr = server.address();
if (addr && typeof addr === 'object') resolve(addr.port);
else reject(new Error('unexpected address'));
});
} else {
reject(err);
}
});
server.listen(port, () => {
const addr = server.address();
if (addr && typeof addr === 'object') resolve(addr.port);
else reject(new Error('unexpected address'));
});
});
}
const port = await listen(requestedPort);
const url = `http://localhost:${port}`;
console.log(`[wa-qr-browser] QR server on ${url}`);
const opener = process.platform === 'darwin' ? 'open' : 'xdg-open';
exec(`${opener} ${url}`, (err) => {
if (err) console.log(`[wa-qr-browser] could not auto-open browser: ${err.message}`);
else console.log('[wa-qr-browser] opening browser…');
});
const child = spawn(
'pnpm',
['exec', 'tsx', 'setup/index.ts', '--step', 'whatsapp-auth', '--', '--method', 'qr'],
{ stdio: ['inherit', 'pipe', 'inherit'] },
);
let stdoutBuf = '';
child.stdout.on('data', (chunk: Buffer) => {
const text = chunk.toString();
process.stdout.write(text);
stdoutBuf += text;
const blockRe = /=== NANOCLAW SETUP: (\w+) ===\n([\s\S]*?)\n=== END ===/g;
let m: RegExpExecArray | null;
let lastEnd = 0;
while ((m = blockRe.exec(stdoutBuf)) !== null) {
const [, name, body] = m;
const fields: Record<string, string> = {};
for (const line of body.split('\n')) {
const kv = line.match(/^(\w+):\s*(.*)$/);
if (kv) fields[kv[1]] = kv[2];
}
handleBlock(name, fields);
lastEnd = m.index + m[0].length;
}
if (lastEnd > 0) stdoutBuf = stdoutBuf.slice(lastEnd);
});
function handleBlock(name: string, fields: Record<string, string>): void {
if (name === 'WHATSAPP_AUTH_QR' && fields.QR) {
state.qr = fields.QR;
state.status = 'ready';
state.version++;
return;
}
if (name === 'WHATSAPP_AUTH') {
if (fields.STATUS === 'success') {
state.status = 'success';
console.log('[wa-qr-browser] authenticated');
setTimeout(() => server.close(() => process.exit(0)), 3000);
} else if (fields.STATUS === 'skipped') {
state.status = 'success';
state.error = `already authenticated (${fields.REASON ?? 'unknown'})`;
console.log(`[wa-qr-browser] ${state.error}`);
setTimeout(() => server.close(() => process.exit(0)), 3000);
} else if (fields.STATUS === 'failed') {
state.status = 'failed';
state.error = fields.ERROR ?? 'unknown error';
console.error(`[wa-qr-browser] failed: ${state.error}`);
}
}
}
child.on('exit', (code) => {
if (state.status === 'success') return;
if (state.status !== 'failed') {
state.status = 'failed';
state.error = `auth process exited (code=${code ?? 'null'})`;
}
setTimeout(() => {
server.close(() => process.exit(1));
}, 3000);
});
process.on('SIGINT', () => {
console.log('\n[wa-qr-browser] aborting…');
child.kill('SIGTERM');
server.close(() => process.exit(130));
});
+137
View File
@@ -0,0 +1,137 @@
---
name: channel-formatting
description: Convert Claude's Markdown output to each channel's native text syntax before delivery. Adds zero-dependency formatting for WhatsApp, Telegram, and Slack (marker substitution). Also ships a Signal rich-text helper (parseSignalStyles) used by the Signal skill.
---
# Channel Formatting
This skill wires channel-aware Markdown conversion into the outbound pipeline so Claude's
responses render natively on each platform — no more literal `**asterisks**` in WhatsApp or
Telegram.
| Channel | Transformation |
|---------|---------------|
| WhatsApp | `**bold**``*bold*`, `*italic*``_italic_`, headings → bold, links → `text (url)` |
| Telegram | same as WhatsApp, but `[text](url)` links are preserved (Markdown v1 renders them natively) |
| Slack | same as WhatsApp, but links become `<url\|text>` |
| Discord | passthrough (Discord already renders Markdown) |
| Signal | passthrough for `parseTextStyles`; `parseSignalStyles` in `src/text-styles.ts` produces plain text + native `textStyle` ranges for use by the Signal skill |
Code blocks (fenced and inline) are always protected — their content is never transformed.
## Phase 1: Pre-flight
### Check if already applied
```bash
test -f src/text-styles.ts && echo "already applied" || echo "not yet applied"
```
If `already applied`, skip to Phase 3 (Verify).
## Phase 2: Apply Code Changes
### Ensure the upstream remote
```bash
git remote -v
```
If an `upstream` remote pointing to `https://github.com/qwibitai/nanoclaw.git` is missing,
add it:
```bash
git remote add upstream https://github.com/qwibitai/nanoclaw.git
```
### Merge the skill branch
```bash
git fetch upstream skill/channel-formatting
git merge upstream/skill/channel-formatting
```
If there are merge conflicts on `pnpm-lock.yaml`, resolve them by accepting the incoming
version and continuing:
```bash
git checkout --theirs pnpm-lock.yaml
git add pnpm-lock.yaml
git merge --continue
```
For any other conflict, read the conflicted file and reconcile both sides manually.
This merge adds:
- `src/text-styles.ts``parseTextStyles(text, channel)` for marker substitution and
`parseSignalStyles(text)` for Signal native rich text
- `src/router.ts``formatOutbound` gains an optional `channel` parameter; when provided
it calls `parseTextStyles` after stripping `<internal>` tags
- `src/index.ts` — both outbound `sendMessage` paths pass `channel.name` to `formatOutbound`
- `src/formatting.test.ts` — test coverage for both functions across all channels
### Validate
```bash
pnpm install
pnpm run build
pnpm exec vitest run src/formatting.test.ts
```
All 73 tests should pass and the build should be clean before continuing.
## Phase 3: Verify
### Rebuild and restart
```bash
pnpm run build
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
```
### Spot-check formatting
Send a message through any registered WhatsApp or Telegram chat that will trigger a
response from Claude. Ask something that will produce formatted output, such as:
> Summarise the three main advantages of TypeScript using bullet points and **bold** headings.
Confirm that the response arrives with native bold (`*text*`) rather than raw double
asterisks.
### Check logs if needed
```bash
tail -f logs/nanoclaw.log
```
## Signal Skill Integration
If you have the Signal skill installed, `src/channels/signal.ts` can import
`parseSignalStyles` from the newly present `src/text-styles.ts`:
```typescript
import { parseSignalStyles, SignalTextStyle } from '../text-styles.js';
```
`parseSignalStyles` returns `{ text: string, textStyle: SignalTextStyle[] }` where
`textStyle` is an array of `{ style, start, length }` objects suitable for the
`signal-cli` JSON-RPC `textStyles` parameter (format: `"start:length:STYLE"`).
## Removal
```bash
# Remove the new file
rm src/text-styles.ts
# Revert router.ts to remove the channel param
git diff upstream/main src/router.ts # review changes
git checkout upstream/main -- src/router.ts
# Revert the index.ts sendMessage call sites to plain formatOutbound(rawText)
# (edit manually or: git checkout upstream/main -- src/index.ts)
pnpm run build
```
@@ -58,7 +58,7 @@ git remote -v
If `upstream` is missing, add it:
```bash
git remote add upstream https://github.com/nanocoai/nanoclaw.git
git remote add upstream https://github.com/qwibitai/nanoclaw.git
```
### Merge the skill branch
@@ -171,12 +171,9 @@ Expected: Both operations succeed.
### Full integration test
Run from your NanoClaw project root:
```bash
pnpm run build
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label)
launchctl kickstart -k gui/$(id -u)/com.nanoclaw
```
Send a message via WhatsApp and verify the agent responds.
+44 -8
View File
@@ -54,6 +54,46 @@ Implementation:
1. Add MCP server config to the container settings (see `src/container-runner.ts` for how MCP servers are mounted)
2. Document available tools in `groups/CLAUDE.md`
### Changing Provider or Model (per agent group)
Each agent group picks its own provider (`claude` | `opencode` | `mock`) and its own model via `providers.<name>.model` in `groups/<folder>/container.json`. There are two paths depending on whether the operator is at the keyboard or wants the agent to change itself from chat.
Questions to ask:
- Which group? (look up by name or folder)
- Switch provider, change model, or both?
- New model id (provider-specific — e.g. `claude-sonnet-4-5`, `openrouter/anthropic/claude-sonnet-4`, `opencode/big-pickle`)
**From Claude Code (operator editing files):**
1. For provider switch: `sqlite3 data/v2.db "UPDATE agent_groups SET agent_provider = '<name>' WHERE folder = '<folder>'"`.
2. For model: edit `groups/<folder>/container.json` and merge into `providers.<provider>`:
```jsonc
{ "providers": { "claude": { "model": "claude-sonnet-4-5" } } }
```
3. Bounce the session's container (kill it or wait for idle) so the next wake picks up the new env.
**From chat (agent reconfigures itself):**
Tell the agent (or let it propose it): "use the `set_provider_config` tool to switch my model to X." The tool writes a system action that triggers an approval card to an admin; after approval, the host writes `container.json` and kills the container so the next message spawns with the new env. For provider switching, the DB column still needs a direct edit (no self-mod tool for `agent_groups.agent_provider` yet).
Shape of the per-group config (what the tool merges into):
```jsonc
// groups/<folder>/container.json
{
"providers": {
"claude": { "model": "claude-sonnet-4-5" },
"opencode": {
"innerProvider": "openrouter",
"model": "openrouter/anthropic/claude-sonnet-4",
"smallModel": "openrouter/anthropic/claude-haiku-4.5"
}
}
}
```
Fallback chain: per-group config → host `.env` (`ANTHROPIC_MODEL` / `OPENCODE_*`) → provider default.
### Changing Assistant Behavior
Questions to ask:
@@ -88,19 +128,15 @@ Implementation:
## After Changes
Always tell the user.
Run from your NanoClaw project root:
Always tell the user:
```bash
# Rebuild and restart
pnpm run build
source setup/lib/install-slug.sh
# macOS:
launchctl unload ~/Library/LaunchAgents/$(launchd_label).plist
launchctl load ~/Library/LaunchAgents/$(launchd_label).plist
launchctl unload ~/Library/LaunchAgents/com.nanoclaw.plist
launchctl load ~/Library/LaunchAgents/com.nanoclaw.plist
# Linux:
# systemctl --user restart $(systemd_unit)
# systemctl --user restart nanoclaw
```
## Example Interaction
+2 -45
View File
@@ -57,50 +57,7 @@ Debug level shows:
## Common Issues
### 1. "No adapter for channel type" / Messages silently lost (null platformMsgId)
**Symptom:** The bot stops replying. `logs/nanoclaw.error.log` shows repeated:
```
WARN No adapter for channel type channelType="telegram"
WARN No adapter for channel type channelType="signal"
```
The main log shows "Message delivered" entries with `platformMsgId=undefined` — meaning the delivery poll ran, found no adapter, and permanently marked the message as delivered without sending it.
**Root cause: two NanoClaw service instances running simultaneously.**
When a second service instance (often `nanoclaw-v2-<id>.service` running alongside `nanoclaw.service`) is active with a stale binary, it has no channel adapters registered. Its delivery poll races against the working instance and wins — permanently marking outbound messages as delivered without ever sending them.
**Diagnosis:**
```bash
# Check for duplicate running instances
ps aux | grep 'nanoclaw/dist/index.js' | grep -v grep
# Check which services are active
systemctl --user list-units 'nanoclaw*' --all
# Confirm channel adapters registered by the current process
grep "Channel adapter started" logs/nanoclaw.log | tail -10
```
**Fix:**
1. Identify which service has the correct binary and EnvironmentFile (the one showing `signal`, `telegram`, `cli` all started in the log).
2. Stop and disable the stale duplicate service:
```bash
systemctl --user stop nanoclaw.service # or whichever is the old one
systemctl --user disable nanoclaw.service
```
3. If the remaining service unit is missing `EnvironmentFile`, add it:
```bash
# Edit the service unit — add this line under [Service]:
# EnvironmentFile=/home/[user]/nanoclaw/.env
systemctl --user daemon-reload
systemctl --user restart nanoclaw-v2-<id>.service
```
4. Verify only one instance runs: `ps aux | grep nanoclaw/dist/index.js | grep -v grep`
**Note:** Messages that were marked delivered with a null `platform_message_id` cannot be automatically retried — they are permanently lost. The user must resend their message.
### 2. "Claude Code process exited with code 1"
### 1. "Claude Code process exited with code 1"
**Check the container log file** in `groups/{folder}/logs/container-*.log`
@@ -322,7 +279,7 @@ rm -rf data/sessions/
rm -rf data/sessions/{groupFolder}/.claude/
# Also clear the session ID from NanoClaw's tracking (stored in SQLite)
pnpm exec tsx scripts/q.ts store/messages.db "DELETE FROM sessions WHERE group_folder = '{groupFolder}'"
sqlite3 store/messages.db "DELETE FROM sessions WHERE group_folder = '{groupFolder}'"
```
To verify session resumption is working, check the logs for the same session ID across messages:
+23 -12
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@@ -1,16 +1,16 @@
---
name: init-first-agent
description: Walk the operator through creating the first NanoClaw agent for a DM channel — resolve the operator's channel identity, wire the DM messaging group to a new agent, and trigger a welcome DM via the normal delivery path. Use after channel credentials are configured and the service is running.
description: Walk the operator through creating the first NanoClaw v2 agent for a DM channel — resolve the operator's channel identity, wire the DM messaging group to a new agent, and trigger a welcome DM via the normal delivery path. Use after channel credentials are configured and the service is running.
---
# Init First Agent
Stand up the first NanoClaw agent for a channel and verify end-to-end delivery by having the agent DM the operator. Everything the skill does is idempotent — rerunning is safe.
Stand up the first NanoClaw v2 agent for a channel and verify end-to-end delivery by having the agent DM the operator. Everything the skill does is idempotent — rerunning is safe.
## Prerequisites
- **Service running.** Check: `launchctl list | grep "$(. setup/lib/install-slug.sh && launchd_label)"` (macOS) or `systemctl --user status "$(. setup/lib/install-slug.sh && systemd_unit)"` (Linux). If stopped, tell the user to run `/setup` first.
- **Target channel installed.** At least one `/add-<channel>` skill has run, credentials are in `.env`, and the adapter is uncommented in `src/channels/index.ts`.
- **Service running.** Check: `launchctl list | grep nanoclaw` (macOS) or `systemctl --user status nanoclaw` (Linux). If stopped, tell the user to run `/setup` first.
- **Target channel installed.** At least one `/add-<channel>-v2` skill has run, credentials are in `.env`, and the adapter is uncommented in `src/channels/index.ts`.
- **Adapter connected.** Tail `logs/nanoclaw.log` — look for a recent `channel setup` / `adapter connected` line for the target channel.
## 1. Pick the channel
@@ -23,7 +23,7 @@ Record the choice as `CHANNEL` (lowercase, e.g. `discord`).
## 2. Ask for the operator's identity
Read the channel's own skill for its `## Channel Info > how-to-find-id` section (e.g. `.claude/skills/add-discord/SKILL.md`, `.claude/skills/add-telegram/SKILL.md`). Show those instructions to the user in plain text.
Read the channel's own skill for its `## Channel Info > how-to-find-id` section (e.g. `.claude/skills/add-discord-v2/SKILL.md`, `.claude/skills/add-telegram-v2/SKILL.md`). Show those instructions to the user in plain text.
Then ask in plain text (NOT `AskUserQuestion` — these are free-form):
@@ -31,6 +31,14 @@ Then ask in plain text (NOT `AskUserQuestion` — these are free-form):
2. **Your display name** — human name, used to name the agent group (`dm-with-<normalized>`) and as the welcome-message addressee. Record as `DISPLAY_NAME`.
3. **Agent persona name** — the assistant's display name. Default: `DISPLAY_NAME`. Record as `AGENT_NAME`.
Then use `AskUserQuestion` for the agent backend:
4. **Provider** — "Which agent provider should this agent use?" with options `claude` (default, Anthropic Agent SDK) and `opencode` (OpenRouter / Anthropic / etc. via OpenCode — assumes `/add-opencode` has been run). Record as `PROVIDER`.
Then ask in plain text (free-form — model ids are provider-specific strings):
5. **Model** — "Which model id? (Leave blank for the provider default.)" For claude: values like `claude-sonnet-4-5`, `claude-opus-4-5`. For opencode: values like `openrouter/anthropic/claude-sonnet-4`, `opencode/big-pickle`. Record as `MODEL` (may be empty).
## 3. Resolve the DM platform id
This depends on whether the channel supports cold DM via `adapter.openDM`.
@@ -54,7 +62,7 @@ Tell the user:
Wait for the user's confirmation. Then look up the most recent DM messaging groups:
```bash
pnpm exec tsx scripts/q.ts data/v2.db "SELECT id, platform_id, name, created_at FROM messaging_groups WHERE channel_type='${CHANNEL}' AND is_group=0 ORDER BY created_at DESC LIMIT 5"
sqlite3 data/v2.db "SELECT id, platform_id, name, created_at FROM messaging_groups WHERE channel_type='${CHANNEL}' AND is_group=0 ORDER BY created_at DESC LIMIT 5"
```
Show the top rows to the user and confirm which `platform_id` is theirs (usually the most recent). Record as `PLATFORM_ID`. If none appeared, check `logs/nanoclaw.log` for `unknown_sender` drops — the adapter might be rejecting inbound due to connection or permission issues.
@@ -77,33 +85,36 @@ npx tsx scripts/init-first-agent.ts \
--user-id "${CHANNEL}:${USER_HANDLE}" \
--platform-id "${PLATFORM_ID}" \
--display-name "${DISPLAY_NAME}" \
--agent-name "${AGENT_NAME}"
--agent-name "${AGENT_NAME}" \
--provider "${PROVIDER}" \
${MODEL:+--model "${MODEL}"}
```
Add `--welcome "System instruction: ..."` to override the default welcome prompt.
Pass `--provider` even when the user picked the default `claude`, so the DB column is set explicitly rather than left null. Omit `--model` entirely if the user left it blank — the provider will fall back to the host env / SDK default. Add `--welcome "System instruction: ..."` to override the default welcome prompt.
The script:
1. Upserts the `users` row and grants `owner` role if no owner exists.
2. Creates the `agent_groups` row and calls `initGroupFilesystem` at `groups/dm-with-<name>/`.
3. Reuses or creates the DM `messaging_groups` row.
4. Wires them via `messaging_group_agents` (which auto-creates the companion `agent_destinations` row).
5. Hands the welcome message to the running service via its CLI socket (`data/cli.sock`), targeting the DM messaging group. The service routes it into the DM session, which wakes the container synchronously. If the socket isn't reachable (service down), falls back to a direct `inbound.db` write that the next host sweep picks up.
5. Resolves the session (creates `inbound.db` / `outbound.db`).
6. Writes a `kind: 'chat'`, `sender: 'system'` welcome message into `inbound.db`.
Show the script's output to the user.
## 5. Verify
The welcome DM is queued synchronously; the only wait is container cold-start (~60s on first launch) before the agent processes the message and the reply flows through `outbound.db` to the channel.
Host sweep runs every ~60s. Within one sweep window the container wakes, the agent processes the system message, and the reply flows through `outbound.db` to the channel.
Do not tail the log or poll in a sleep loop. Ask the user in plain text:
> The welcome DM should arrive shortly. Let me know when you've received it (or if it doesn't arrive within two minutes).
> The welcome DM should arrive within ~60 seconds. Let me know when you've received it (or if it doesn't arrive within two minutes).
Wait for the user's reply. If they confirm receipt, the skill is done.
If they say it didn't arrive, then diagnose using the DB directly (no waiting loops required — the message either delivered or it didn't):
- `pnpm exec tsx scripts/q.ts data/v2-sessions/<agent-group-id>/sessions/<session-id>/outbound.db "SELECT id, status, created_at FROM messages_out ORDER BY created_at DESC LIMIT 5"` — check for stuck `pending` rows. Replace `<agent-group-id>` and `<session-id>` with the values from the script's output.
- `sqlite3 data/v2-sessions/<agent-group-id>/sessions/<session-id>/outbound.db "SELECT id, status, created_at FROM messages_out ORDER BY created_at DESC LIMIT 5"` — check for stuck `pending` rows. Replace `<agent-group-id>` and `<session-id>` with the values from the script's output.
- `grep -E 'Unauthorized channel destination|container.*exited|error' logs/nanoclaw.log | tail -20` — look for ACL rejections or container crashes.
- `ls data/v2-sessions/<agent-group-id>/sessions/*/outbound.db` — confirm the session exists.
+3 -41
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@@ -236,12 +236,9 @@ pnpm run build
If build fails, diagnose and fix. Common issue: `@onecli-sh/sdk` not installed — run `pnpm install` first.
Restart the service.
Run from your NanoClaw project root:
- macOS (launchd): `launchctl kickstart -k gui/$(id -u)/"$(. setup/lib/install-slug.sh && launchd_label)"`
- Linux (systemd): `systemctl --user restart "$(. setup/lib/install-slug.sh && systemd_unit)"`
Restart the service:
- macOS (launchd): `launchctl kickstart -k gui/$(id -u)/com.nanoclaw`
- Linux (systemd): `systemctl --user restart nanoclaw`
- WSL/manual: stop and re-run `bash start-nanoclaw.sh`
## Phase 5: Verify
@@ -262,41 +259,6 @@ Tell the user:
- To manage secrets: `onecli secrets list`, or open ${ONECLI_URL}
- To add rate limits or policies: `onecli rules create --help`
## Granting secrets to agents (safe merge)
`set-secrets` **replaces** the agent's entire secret list — it never appends. Always read the current list first and merge before calling it. This pattern is canonical across all skills that assign secrets:
```bash
AGENT_ID=$(onecli agents list | jq -r '.data[] | select(.identifier=="<agentGroupId>") | .id')
CURRENT=$(onecli agents secrets --id "$AGENT_ID" | jq -r '[.data[]] | join(",")')
MERGED=$(printf '%s' "$CURRENT,<new-secret-id>" | tr ',' '\n' | sort -u | paste -sd ',' -)
onecli agents set-secrets --id "$AGENT_ID" --secret-ids "$MERGED"
onecli agents secrets --id "$AGENT_ID"
```
- `<agentGroupId>` — the `agentGroupId` field in `groups/<folder>/container.json`
- `<new-secret-id>` — the `id` from `onecli secrets list`
- Multiple new secrets: append them comma-separated before the `printf` step
### git over HTTPS
OneCLI's proxy injects credentials proactively — `injections_applied=1` appears in `docker logs onecli` even when git sends no auth header. However, OneCLI sets `SSL_CERT_FILE` for Node/Python/Deno but not `GIT_SSL_CAINFO`. Without it, git rejects the OneCLI MITM certificate.
**Auth format matters**: GitHub's git smart HTTP protocol (`github.com`) requires `Basic` auth, not `Bearer`. GitHub's REST API (`api.github.com`) accepts `Bearer`. These must be configured as separate secrets with different formats — see `/add-github` for the full setup.
If an agent uses `git` or `gh`, add to `data/v2-sessions/<agent-group-id>/.claude-shared/settings.json`:
```json
"GIT_SSL_CAINFO": "/tmp/onecli-combined-ca.pem",
"GIT_TERMINAL_PROMPT": "0",
"GIT_CONFIG_COUNT": "1",
"GIT_CONFIG_KEY_0": "credential.helper",
"GIT_CONFIG_VALUE_0": "",
"GH_TOKEN": "ghp_onecli_proxy_replaces_this"
```
**Debugging injection**: `docker logs onecli 2>&1 | grep "github.com"` shows every request with `injections_applied=N` and the HTTP status. If `injections_applied=1` but status is still 401, the injected credential value is wrong or uses the wrong auth format for that endpoint.
## Troubleshooting
**"OneCLI gateway not reachable" in logs:** The gateway isn't running. Check with `curl -sf ${ONECLI_URL}/health`. Start it with `onecli start` if needed.
+3 -18
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@@ -5,28 +5,13 @@ description: Wire channels to agent groups, manage isolation levels, add new cha
# Manage Channels
Wire messaging channels to agent groups. See `docs/isolation-model.md` for the full isolation model.
Wire messaging channels to agent groups. See `docs/v2-isolation-model.md` for the full isolation model.
Privilege is a **user-level** concept, not a channel-level one (see `src/db/user-roles.ts`, `src/access.ts`). There is no "main channel" / "main group" — any user can be granted `owner` or `admin` (global or scoped to an agent group) via `grantRole()`, and messages from unknown senders are gated per-messaging-group by `unknown_sender_policy` (`strict` | `request_approval` | `public`).
## Assess Current State
Read the central DB (`data/v2.db`) using these canonical queries (column names match the schema, not the CLI flags — the `register` command's `--assistant-name` is stored in `agent_groups.name`).
Run each via the in-tree wrapper — the host setup deliberately ships no `sqlite3` CLI:
```bash
pnpm exec tsx scripts/q.ts data/v2.db "<query>"
```
```sql
SELECT id, name AS assistant_name, folder, agent_provider FROM agent_groups;
SELECT id, channel_type, platform_id, name, unknown_sender_policy FROM messaging_groups;
SELECT messaging_group_id, agent_group_id, session_mode, priority FROM messaging_group_agents;
SELECT user_id, role, agent_group_id FROM user_roles ORDER BY role='owner' DESC;
```
Also check `.env` for channel tokens and `src/channels/index.ts` for uncommented imports.
Read the v2 central DB (`data/v2.db`) — query `agent_groups`, `messaging_groups`, `messaging_group_agents`, `users`, and `user_roles` tables. Also check `.env` for channel tokens and `src/channels/index.ts` for uncommented imports.
Categorize channels as: **wired** (has DB entities + messaging_group_agents row), **configured but unwired** (has credentials + barrel import, no DB entities), or **not configured**.
@@ -53,7 +38,7 @@ Present a multiple-choice with a contextual recommendation. The three options:
- **Same agent, separate conversations** (`--session-mode "shared"` + existing folder) — shared workspace/memory, independent threads. Recommend for same user across platforms.
- **Separate agent** (new `--folder`) — full isolation. Recommend when different people are involved.
Use the channel's `typical-use` and `default-isolation` fields to pick the recommendation. Offer to explain more if the user is unsure — reference `docs/isolation-model.md` for the detailed explanation.
Use the channel's `typical-use` and `default-isolation` fields to pick the recommendation. Offer to explain more if the user is unsure — reference `docs/v2-isolation-model.md` for the detailed explanation.
### Register Command
+3 -8
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@@ -41,12 +41,7 @@ npx tsx setup/index.ts --step mounts --force -- --empty
## After Changes
Restart the service so containers pick up the new config (the unit/label names are per-install — see `setup/lib/install-slug.sh`).
Restart the service so containers pick up the new config:
Run from your NanoClaw project root:
```bash
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
systemctl --user restart $(systemd_unit) # Linux
```
- macOS: `launchctl kickstart -k gui/$(id -u)/com.nanoclaw`
- Linux: `systemctl --user restart nanoclaw`
-232
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@@ -1,232 +0,0 @@
---
name: migrate-from-v1
description: Finish migrating a NanoClaw v1 install into v2. Run after `bash migrate-v2.sh` completes. Seeds the owner, cleans up CLAUDE.local.md files, reconciles container configs, and helps port custom v1 code. Triggers on "migrate from v1", "finish migration", "v1 migration".
---
# Finish v1 → v2 migration
`bash migrate-v2.sh` already ran the deterministic migration. It handled:
- .env keys merged
- v2 DB seeded (agent_groups, messaging_groups, wiring)
- Group folders copied (v1 CLAUDE.md → v2 CLAUDE.local.md)
- Session data copied with conversation continuity (incl. Claude Code memory + JSONL transcripts)
- Scheduled tasks ported
- Channel code installed and auth state copied (incl. WhatsApp Baileys keystore)
- WhatsApp LIDs resolved from `store/auth` and aliased into `messaging_groups`
- Container skills copied
- Container image built
Your job is the parts that need human judgment: triage any failed steps, seed the owner, clean up CLAUDE.local.md files, reconcile configs, and port any fork customizations.
Read `logs/setup-migration/handoff.json` first — it has `overall_status`, per-step results in `steps`, and a `followups` list.
## Preflight: was the script run?
Before anything else, check that `logs/setup-migration/handoff.json` exists. If it doesn't, the user is invoking this skill before `migrate-v2.sh` ran. Stop and tell them, verbatim:
> This skill finishes a migration that `migrate-v2.sh` started. Run that first, in your terminal — not from inside Claude:
>
> ```bash
> bash migrate-v2.sh
> ```
>
> It needs interactive prompts (channel selection, service switchover) and runs Node/pnpm bootstrap, Docker, OneCLI setup, and a container build that don't fit inside a Claude session. When it finishes, it'll hand control back to Claude automatically — at which point this skill picks up.
Do not attempt to run the script yourself, simulate its effects, or pick up the migration mid-stream. The deterministic side has dependencies on a real interactive shell.
Once `handoff.json` exists, proceed to Phase 0.
## Phase 0: Get v2 routing real messages
Before any deeper migration work, prove v2 actually answers messages on the user's real channels. v1 is paused, not touched — flipping back is a service restart.
### 0a — Fix blockers only
Walk `handoff.steps`. Fix only the failures that would stop the bot from routing one message; defer the rest to its later phase.
### 0b — Smoke test, then continue
Tell the user the switch is non-destructive (v1 is paused, not modified; reverting is one command). Help them stop v1's service unit and start v2's, tail the host log for a clean boot, and have them send a real test message. Use `AskUserQuestion` to confirm the bot responded.
If yes, continue to Phase 1. If no, diagnose from `logs/nanoclaw.log` and re-test — don't proceed to deeper work on a broken router.
### Deferred failures
Re-visit anything you skipped in 0a before declaring the migration done. Most surface naturally in later phases (`1c-groups` ↔ Phase 2, `1e-tasks` ↔ task verification).
## Phase 1: Owner and access
v2 auto-creates a `users` row for every sender it sees (via `extractAndUpsertUser` in `src/modules/permissions/index.ts`). By the time this skill runs, the owner's row likely already exists — it just needs the `owner` role granted.
**User ID format**: always `<channel_type>:<platform_handle>`. Each channel populates this differently:
- **Telegram**: `telegram:<numeric_user_id>` (e.g. `telegram:6037840640`)
- **Discord**: `discord:<snowflake_user_id>` (e.g. `discord:123456789012345678`)
- **WhatsApp**: `whatsapp:<phone>@s.whatsapp.net` (e.g. `whatsapp:14155551234@s.whatsapp.net`)
- **Slack**: `slack:<user_id>` (e.g. `slack:U04ABCDEF`)
- **Others**: `<channel_type>:<platform_id>`
**Steps:**
1. Query `users` table: `SELECT id, kind, display_name FROM users`.
2. If exactly one user exists, confirm: `AskUserQuestion`: "Is `<display_name>` (`<id>`) you?" — Yes / No, let me type it.
3. If multiple users exist, present them as options in `AskUserQuestion`.
4. If no users exist yet (service hasn't received a message), ask the user to send a test message first, then re-query.
5. Once confirmed, check `user_roles` — if the owner role already exists, skip. Otherwise insert:
```sql
INSERT INTO user_roles (user_id, role, agent_group_id, granted_by, granted_at)
VALUES ('<user_id>', 'owner', NULL, NULL, datetime('now'))
```
Use the DB helpers in `src/db/user-roles.ts` — they keep indexes correct. Init the DB first:
```ts
import { initDb } from '../src/db/connection.js';
import { runMigrations } from '../src/db/migrations/index.js';
import { DATA_DIR } from '../src/config.js';
import path from 'path';
const db = initDb(path.join(DATA_DIR, 'v2.db'));
runMigrations(db);
```
### Access policy
After seeding the owner, discuss the access policy. v2's `messaging_groups.unknown_sender_policy` controls who can interact with the bot. `migrate-v2.sh` set it to `public` so the bot would respond during the switchover test, but the user may want to tighten it.
Present the options via `AskUserQuestion`:
1. **Public** (current) — anyone can message the bot. Good for personal DM bots.
2. **Known users only** — only users in `agent_group_members` can trigger the bot. Others are silently dropped.
3. **Approval required** — unknown senders trigger an approval request to the owner. Good for group chats where you want to vet new members.
If the user picks option 2 or 3, seed the known users from v1's message history. The v1 database is at `<handoff.v1_path>/store/messages.db`. It has a `messages` table with `sender` and `sender_name` columns. For each group:
```sql
-- v1: unique senders per chat (excluding bot messages)
SELECT DISTINCT sender, sender_name
FROM messages
WHERE chat_jid = '<v1_jid>' AND is_from_me = 0 AND sender IS NOT NULL
```
The `sender` value is a platform handle (e.g. `6037840640` for Telegram). Build the v2 user ID by inferring the channel type from the chat JID prefix (use `parseJid` from `setup/migrate-v2/shared.ts`) and combining: `<channel_type>:<sender>`.
For each sender:
1. Upsert into `users(id, kind, display_name)` if not already present.
2. Insert into `agent_group_members(user_id, agent_group_id)` for each agent group wired to that messaging group.
Show the user the list of senders being imported and let them deselect any they don't want.
Then update the messaging groups:
```sql
UPDATE messaging_groups SET unknown_sender_policy = '<chosen_policy>'
WHERE id IN (SELECT id FROM messaging_groups WHERE channel_type IN (<migrated_channels>))
```
## Phase 2: Clean up CLAUDE.local.md
The migration copied v1's entire CLAUDE.md into CLAUDE.local.md for each group. This file now contains v1 boilerplate that v2 handles through its own composed fragments (`container/CLAUDE.md` + `.claude-fragments/module-*.md`). The user's customizations are buried inside.
For each group that has a `CLAUDE.local.md`:
1. Read the file.
2. Read the v1 template it was based on. Determine which template by checking the v1 install:
- If the group had `is_main=1` in v1's `registered_groups`, the template was `groups/main/CLAUDE.md`
- Otherwise, the template was `groups/global/CLAUDE.md`
- The v1 path is in `handoff.json``v1_path`
3. Diff the file against the template. Identify sections that are:
- **Stock boilerplate** (identical to template) — remove. v2's fragments cover this.
- **User customizations** (added sections, modified sections) — keep.
4. The following v1 sections are now handled by v2 fragments and should be removed even if slightly modified:
- "What You Can Do" → v2 runtime system prompt
- "Communication" / "Internal thoughts" / "Sub-agents" → `container/CLAUDE.md` + `module-core.md`
- "Your Workspace" / workspace path references → `container/CLAUDE.md`
- "Memory" (the stock version) → `container/CLAUDE.md`
- "Message Formatting" → `container/CLAUDE.md`
- "Admin Context" → v2 uses `user_roles`, not is_main
- "Authentication" → v2 uses OneCLI
- "Container Mounts" → v2 mounts are different
- "Managing Groups" / "Finding Available Groups" / "Registered Groups Config" → v2 entity model, no IPC
- "Global Memory" → v2 has `.claude-shared.md` symlink
- "Scheduling for Other Groups" → `module-scheduling.md`
- "Task Scripts" → `module-scheduling.md`
- "Sender Allowlist" → v2 uses `unknown_sender_policy` + `user_roles`
5. Fix path references in kept sections:
- `/workspace/group/``/workspace/agent/`
- `/workspace/project/` → these paths don't exist in v2; discuss with the user
- `/workspace/ipc/` → gone; remove references
- `/workspace/extra/` → v2 uses `container.json` `additionalMounts`; keep but note the path may change
6. Keep the `# Name` heading and first paragraph (identity) — this is the user's agent personality.
7. Show the user the proposed new CLAUDE.local.md before writing it. Use `AskUserQuestion`: "Here's what I'd keep — look right?" with options to approve, edit, or keep the original.
If a CLAUDE.local.md has no user customizations (pure template copy), write a minimal file with just the identity heading.
## Phase 3: Container config
`migrate-v2.sh` writes `container.json` directly from v1's `container_config` (the `additionalMounts` shape is identical). If the v1 config was unparseable, it falls back to a `.v1-container-config.json` sidecar.
For each group, check:
1. If `container.json` exists, read it and verify the `additionalMounts` host paths are still valid on this machine. Flag any that don't exist.
2. If `.v1-container-config.json` exists (parse failure fallback), read it, discuss with the user, and write a proper `container.json`. Then delete the sidecar.
3. Check for `env` or `packages` fields — `env` may overlap with OneCLI vault, `packages` (apt/npm) are portable.
## Phase 4: Fork customizations
Check whether the user's v1 install was a customized fork.
```bash
cd <v1_path>
git remote -v
git log --oneline <upstream>/main..HEAD 2>/dev/null
```
If no commits ahead of upstream: stock v1, skip this phase.
If there are commits:
1. Show the commit list to the user.
2. `AskUserQuestion`: "How do you want to handle your v1 customizations?"
- **Copy portable items** (recommended) — copy `container/skills/*`, `.claude/skills/*`, `docs/*`. Scan each with `scanForV1Patterns` from `setup/migrate-v2/shared.ts`.
- **Full walkthrough** — go commit by commit, decide together.
- **Reference only** — stash to `docs/v1-fork-reference/` for later.
3. Source code (`src/*`, `container/agent-runner/src/*`) is NOT portable — v2's architecture is fundamentally different. Stash to `docs/v1-fork-reference/` with a README explaining what each file did. Don't translate.
## Principles
- **v1 checkout is read-only.** Never modify files under `handoff.v1_path`.
- **Show before writing.** Show diffs/proposed content before modifying CLAUDE.local.md or container.json.
- **Mask credentials** when displaying (first 4 + `...` + last 4 characters).
- **`handoff.json` is the recovery point.** If context gets compacted, re-read it and `git status` to recover state.
## Setup steps you can run
The setup flow at `setup/index.ts` has individual steps you can invoke if something is missing or failed:
```bash
pnpm exec tsx setup/index.ts --step <name>
```
| Step | When to use |
|------|-------------|
| `onecli` | OneCLI not installed or not healthy |
| `auth` | No Anthropic credential in vault |
| `container` | Container image needs rebuild |
| `service` | Service not installed or not running |
| `mounts` | Mount allowlist missing |
| `verify` | End-to-end health check (run after everything else) |
| `environment` | System check (Node, dirs) |
## When done
1. Run the verify step to confirm everything works:
```bash
pnpm exec tsx setup/index.ts --step verify
```
2. Delete `logs/setup-migration/handoff.json` — offer to save as `docs/migration-<date>.md` first.
3. Restart the service if running so changes take effect:
```bash
# Linux
systemctl --user restart nanoclaw-v2-*
# macOS
launchctl kickstart -k gui/$(id -u)/com.nanoclaw-v2-*
```
+1 -1
View File
@@ -34,7 +34,7 @@ Two phases: **Extract** (build the migration guide) and **Upgrade** (use it). If
Run `git status --porcelain`. If non-empty, offer to stash or commit for them (AskUserQuestion: "Stash changes" / "Commit changes" / "I'll handle it"). If they want to commit, stage and commit with a descriptive message. If they want to stash, run `git stash push -m "pre-migration stash"`.
Check remotes with `git remote -v`. If `upstream` is missing, ask for the URL (default: `https://github.com/nanocoai/nanoclaw.git`), add it, then `git fetch upstream --prune`.
Check remotes with `git remote -v`. If `upstream` is missing, ask for the URL (default: `https://github.com/qwibitai/nanoclaw.git`), add it, then `git fetch upstream --prune`.
Detect upstream branch: check `git branch -r | grep upstream/` for `main` or `master`. Store as UPSTREAM_BRANCH.
@@ -45,7 +45,8 @@ rm /tmp/nanoclaw-diagnostics.json
**No**: `rm /tmp/nanoclaw-diagnostics.json`
**Never ask again**:
1. Replace contents of `.claude/skills/update-nanoclaw/diagnostics.md` with `# Diagnostics — opted out`
2. Replace contents of `.claude/skills/migrate-nanoclaw/diagnostics.md` with `# Diagnostics — opted out`
3. Remove the diagnostics sections from each corresponding SKILL.md
4. `rm /tmp/nanoclaw-diagnostics.json`
1. Replace contents of `.claude/skills/setup/diagnostics.md` with `# Diagnostics — opted out`
2. Replace contents of `.claude/skills/update-nanoclaw/diagnostics.md` with `# Diagnostics — opted out`
3. Replace contents of `.claude/skills/migrate-nanoclaw/diagnostics.md` with `# Diagnostics — opted out`
4. Remove the diagnostics sections from each corresponding SKILL.md
5. `rm /tmp/nanoclaw-diagnostics.json`
+342 -3
View File
@@ -1,10 +1,349 @@
---
name: setup
description: Run initial NanoClaw setup. Use when user wants to install NanoClaw, configure it, or go through first-time setup. Triggers on "setup", "install", "configure nanoclaw", or first-time setup requests.
description: Run initial NanoClaw setup. Use when user wants to install dependencies, authenticate messaging channels, register their main channel, or start the background services. Triggers on "setup", "install", "configure nanoclaw", or first-time setup requests.
---
# NanoClaw Setup
Tell the user to run `bash nanoclaw.sh` in their terminal. That script handles the full end-to-end setup — dependencies, container image, OneCLI vault, Anthropic credential, service, first agent, and optional channel wiring.
Welcome the user to NanoClaw. Introduce yourself — you'll be walking them through the entire setup process step by step, from installing dependencies to getting their first message through. Keep it warm and brief (2-3 sentences).
If they hit an error partway through, it will offer Claude-assisted recovery inline — no need to come back here.
Then explain that setup involves running many shell commands (installing packages, building containers, starting services), and recommend pre-approving the standard setup commands so they don't have to confirm each one individually.
Use `AskUserQuestion` with these options:
1. **Pre-approve (recommended)** — description: "Pre-approve standard setup commands so you don't have to confirm each one. You can review the list first if you'd like."
2. **No thanks** — description: "I'll approve each command individually as it comes up."
3. **Show me the list first** — description: "Show me exactly which commands will be pre-approved before I decide."
If they pick option 1: read `.claude/skills/setup/setup-permissions.json`, then read the project settings file at `.claude/settings.json` (create it if it doesn't exist with `{}`), and directly edit it to add/merge the permissions into the `permissions.allow` array. Do NOT use the `update-config` skill.
If they pick option 3: read and display `.claude/skills/setup/setup-permissions.json`, then re-ask with just options 1 and 2.
If they decline, continue — they'll approve commands individually.
---
**Internal guidance (do not show to user):**
- Run setup steps automatically. Only pause when user action is required (channel authentication, configuration choices).
- Setup uses `bash setup.sh` for bootstrap, then `npx tsx setup/index.ts --step <name>` for all other steps. Steps emit structured status blocks to stdout. Verbose logs go to `logs/setup.log`.
- **Principle:** When something is broken or missing, fix it. Don't tell the user to go fix it themselves unless it genuinely requires their manual action (e.g. authenticating a channel, pasting a secret token). If a dependency is missing, install it. If a service won't start, diagnose and repair.
- **UX Note:** Use `AskUserQuestion` for multiple-choice questions only (e.g. "which credential method?"). Do NOT use it when free-text input is needed (e.g. phone numbers, tokens, paths) — just ask the question in plain text and wait for the user's reply.
- **Timeouts:** Use 5m timeouts for install and build steps.
- **Waiting on user:** When the user needs to do something (change a setting, get a token, open a browser, etc.), stop and wait. Give clear instructions, then say "Let me know when done or if you need help." Do NOT continue to the next step. If they ask for help, give more detail, ask where they got stuck, and try to assist.
## 0. Git Upstream
Ensure `upstream` remote points to `qwibitai/nanoclaw`. If missing, add it silently:
```bash
git remote -v
git remote add upstream https://github.com/qwibitai/nanoclaw.git 2>/dev/null || true
```
## 1. Bootstrap (Node.js + Dependencies)
Run `bash setup.sh` and parse the status block.
- If NODE_OK=false → Node.js is missing or too old. Use `AskUserQuestion: Would you like me to install Node.js 22?` If confirmed:
- macOS: `brew install node@22` (if brew available) or install nvm then `nvm install 22`
- Linux: `curl -fsSL https://deb.nodesource.com/setup_22.x | sudo -E bash - && sudo apt-get install -y nodejs`, or nvm
- After installing Node, re-run `bash setup.sh`
- If DEPS_OK=false → Read `logs/setup.log`. Try: delete `node_modules`, re-run `bash setup.sh`. If native module build fails, install build tools (`xcode-select --install` on macOS, `build-essential` on Linux), then retry.
- If NATIVE_OK=false → better-sqlite3 failed to load. Install build tools and re-run.
- Record PLATFORM and IS_WSL for later steps.
## 2. Check Environment
Run `pnpm exec tsx setup/index.ts --step environment` and parse the status block.
- If HAS_AUTH=true → WhatsApp is already configured, note for step 5
- If HAS_REGISTERED_GROUPS=true → note existing config, offer to skip or reconfigure
- Record DOCKER value for step 3
### OpenClaw Migration Detection
If OPENCLAW_PATH is not `none` from the environment check above, AskUserQuestion:
1. **Migrate now** — "Import identity, credentials, and settings from OpenClaw before continuing setup."
2. **Fresh start** — "Skip migration and set up NanoClaw from scratch."
3. **Migrate later** — "Continue setup now, run `/migrate-from-openclaw` anytime later."
If "Migrate now": invoke `/migrate-from-openclaw`, then return here and continue at step 2a (Timezone).
## 2a. Timezone
Run `pnpm exec tsx setup/index.ts --step timezone` and parse the status block.
- If NEEDS_USER_INPUT=true → The system timezone could not be autodetected (e.g. POSIX-style TZ like `IST-2`). AskUserQuestion: "What is your timezone?" with common options (America/New_York, Europe/London, Asia/Jerusalem, Asia/Tokyo) and an "Other" escape. Then re-run: `pnpm exec tsx setup/index.ts --step timezone -- --tz <their-answer>`.
- If STATUS=success and RESOLVED_TZ is `UTC` or `Etc/UTC` → confirm with the user: "Your system timezone is UTC — is that correct, or are you on a remote server?" If wrong, ask for their actual timezone and re-run with `--tz`.
- If STATUS=success → Timezone is configured. Note RESOLVED_TZ for reference.
## 3. Container Runtime (Docker)
### 3a. Install Docker
- DOCKER=running → continue to step 4
- DOCKER=installed_not_running → start Docker: `open -a Docker` (macOS) or `sudo systemctl start docker` (Linux). Wait 15s, re-check with `docker info`.
- DOCKER=not_found → Use `AskUserQuestion: Docker is required for running agents. Would you like me to install it?` If confirmed:
- macOS: install via `brew install --cask docker`, then `open -a Docker` and wait for it to start. If brew not available, direct to Docker Desktop download at https://docker.com/products/docker-desktop
- Linux: install with `curl -fsSL https://get.docker.com | sh && sudo usermod -aG docker $USER`. Note: user may need to log out/in for group membership.
### 3b. CJK fonts
Agent containers skip CJK fonts by default (~200MB saved). Without them, Chromium-rendered screenshots and PDFs show tofu for Chinese/Japanese/Korean.
- **User writing to you in Chinese, Japanese, or Korean** → enable without asking. Mention it briefly.
- **Resolved timezone from step 2a is a CJK region** (`Asia/Tokyo`, `Asia/Shanghai`, `Asia/Hong_Kong`, `Asia/Taipei`, `Asia/Seoul`) or other signal short of active CJK use → ask: "Enable CJK fonts? Adds ~200MB, lets the agent render CJK in screenshots and PDFs."
- **Otherwise** → skip.
To enable, write `INSTALL_CJK_FONTS=true` to `.env`:
```bash
grep -q '^INSTALL_CJK_FONTS=' .env && sed -i.bak 's/^INSTALL_CJK_FONTS=.*/INSTALL_CJK_FONTS=true/' .env && rm -f .env.bak || echo 'INSTALL_CJK_FONTS=true' >> .env
```
The next step's build picks it up automatically.
### 3c. Build and test
Run `pnpm exec tsx setup/index.ts --step container -- --runtime docker` and parse the status block.
**If BUILD_OK=false:** Read `logs/setup.log` tail for the build error.
- Cache issue (stale layers): `docker builder prune -f`. Retry.
- Dockerfile syntax or missing files: diagnose from the log and fix, then retry.
**If TEST_OK=false but BUILD_OK=true:** The image built but won't run. Check logs — common cause is runtime not fully started. Wait a moment and retry the test.
## 4. Credential System
### 4a. OneCLI
Install OneCLI and its CLI tool:
```bash
curl -fsSL onecli.sh/install | sh
curl -fsSL onecli.sh/cli/install | sh
```
Verify both installed: `onecli version`. If the command is not found, the CLI was likely installed to `~/.local/bin/`. Add it to PATH for the current session and persist it:
```bash
export PATH="$HOME/.local/bin:$PATH"
# Persist for future sessions (append to shell profile if not already present)
grep -q '.local/bin' ~/.bashrc 2>/dev/null || echo 'export PATH="$HOME/.local/bin:$PATH"' >> ~/.bashrc
grep -q '.local/bin' ~/.zshrc 2>/dev/null || echo 'export PATH="$HOME/.local/bin:$PATH"' >> ~/.zshrc
```
Then re-verify with `onecli version`.
Point the CLI at the local OneCLI instance, the ONECLI_URL was output from the install script above:
```bash
onecli config set api-host ${ONECLI_URL}
```
Ensure `.env` has the OneCLI URL (create the file if it doesn't exist):
```bash
grep -q 'ONECLI_URL' .env 2>/dev/null || echo 'ONECLI_URL=${ONECLI_URL}' >> .env
```
Check if a secret already exists:
```bash
onecli secrets list
```
If an Anthropic secret is listed, confirm with user: keep or reconfigure? If keeping, skip to step 5.
AskUserQuestion: Do you want to use your **Claude subscription** (Pro/Max) or an **Anthropic API key**?
1. **Claude subscription (Pro/Max)** — description: "Uses your existing Claude Pro or Max subscription. You'll run `claude setup-token` in another terminal to get your token."
2. **Anthropic API key** — description: "Pay-per-use API key from console.anthropic.com."
#### Subscription path
Tell the user:
> Run `claude setup-token` in another terminal. It will output a token — copy it but don't paste it here.
Then stop and wait for the user to confirm they have the token. Do NOT proceed until they respond.
Once they confirm, they register it with OneCLI. AskUserQuestion with two options:
1. **Dashboard** — description: "Best if you have a browser on this machine. Open ${ONECLI_URL} and add the secret in the UI. Use type 'anthropic' and paste your token as the value."
2. **CLI** — description: "Best for remote/headless servers. Run: `onecli secrets create --name Anthropic --type anthropic --value YOUR_TOKEN --host-pattern api.anthropic.com`"
#### API key path
Tell the user to get an API key from https://console.anthropic.com/settings/keys if they don't have one.
Then AskUserQuestion with two options:
1. **Dashboard** — description: "Best if you have a browser on this machine. Open ${ONECLI_URL} and add the secret in the UI."
2. **CLI** — description: "Best for remote/headless servers. Run: `onecli secrets create --name Anthropic --type anthropic --value YOUR_KEY --host-pattern api.anthropic.com`"
#### After either path
Ask them to let you know when done.
**If the user's response happens to contain a token or key** (starts with `sk-ant-`): handle it gracefully — run the `onecli secrets create` command with that value on their behalf.
**After user confirms:** verify with `onecli secrets list` that an Anthropic secret exists. If not, ask again.
## 5. Set Up Channels
Show the full list of available channels in plain text (do NOT use AskUserQuestion — it limits to 4 options). Ask which one they want to start with. They can add more later with `/customize`.
Channels where the agent gets its own identity (name and avatar) are marked as recommended.
1. Discord *(recommended — agent gets own identity)*
2. Slack *(recommended — agent gets own identity)*
3. Telegram *(recommended — agent gets own identity)*
4. Microsoft Teams *(recommended — agent gets own identity)*
5. Webex *(recommended — agent gets own identity)*
6. WhatsApp
7. WhatsApp Cloud API
8. iMessage
9. GitHub
10. Linear
11. Google Chat
12. Resend (email)
13. Matrix
**Delegate to the selected channel's skill.** Each channel skill handles its own package installation, authentication, registration, and configuration.
Invoke the matching skill:
- **Discord:** Invoke `/add-discord-v2`
- **Slack:** Invoke `/add-slack-v2`
- **Telegram:** Invoke `/add-telegram-v2`
- **GitHub:** Invoke `/add-github-v2`
- **Linear:** Invoke `/add-linear-v2`
- **Microsoft Teams:** Invoke `/add-teams-v2`
- **Google Chat:** Invoke `/add-gchat-v2`
- **WhatsApp Cloud API:** Invoke `/add-whatsapp-cloud-v2`
- **WhatsApp Baileys:** Invoke `/add-whatsapp`
- **Resend:** Invoke `/add-resend-v2`
- **Matrix:** Invoke `/add-matrix-v2`
- **Webex:** Invoke `/add-webex-v2`
- **iMessage:** Invoke `/add-imessage-v2`
The skill will:
1. Install the Chat SDK adapter package
2. Uncomment the channel import in `src/channels/index.ts`
3. Collect credentials/tokens and write to `.env`
4. Build and verify
**After the channel skill completes**, install dependencies and rebuild — channel merges may introduce new packages:
```bash
pnpm install && pnpm run build
```
If the build fails, read the error output and fix it (usually a missing dependency). Then continue to step 5a.
## 6. Mount Allowlist
Set empty mount allowlist (agents only access their own workspace). Users can configure mounts later with `/manage-mounts`.
```bash
pnpm exec tsx setup/index.ts --step mounts -- --empty
```
## 7. Start Service
If service already running: unload first.
- macOS: `launchctl unload ~/Library/LaunchAgents/com.nanoclaw.plist`
- Linux: `systemctl --user stop nanoclaw` (or `systemctl stop nanoclaw` if root)
Run `pnpm exec tsx setup/index.ts --step service` and parse the status block.
**If FALLBACK=wsl_no_systemd:** WSL without systemd detected. Tell user they can either enable systemd in WSL (`echo -e "[boot]\nsystemd=true" | sudo tee /etc/wsl.conf` then restart WSL) or use the generated `start-nanoclaw.sh` wrapper.
**If DOCKER_GROUP_STALE=true:** The user was added to the docker group after their session started — the systemd service can't reach the Docker socket. Ask user to run these two commands:
1. Immediate fix: `sudo setfacl -m u:$(whoami):rw /var/run/docker.sock`
2. Persistent fix (re-applies after every Docker restart):
```bash
sudo mkdir -p /etc/systemd/system/docker.service.d
sudo tee /etc/systemd/system/docker.service.d/socket-acl.conf << 'EOF'
[Service]
ExecStartPost=/usr/bin/setfacl -m u:USERNAME:rw /var/run/docker.sock
EOF
sudo systemctl daemon-reload
```
Replace `USERNAME` with the actual username (from `whoami`). Run the two `sudo` commands separately — the `tee` heredoc first, then `daemon-reload`. After user confirms setfacl ran, re-run the service step.
**If SERVICE_LOADED=false:**
- Read `logs/setup.log` for the error.
- macOS: check `launchctl list | grep nanoclaw`. If PID=`-` and status non-zero, read `logs/nanoclaw.error.log`.
- Linux: check `systemctl --user status nanoclaw`.
- Re-run the service step after fixing.
## 7a. Wire Channels to Agent Groups
The service is now running, so polling-based adapters (Telegram) can observe inbound messages — required for pairing.
Invoke `/manage-channels` to wire the installed channels to agent groups. This step:
1. Creates the agent group(s) and assigns a name to the assistant
2. Resolves each channel's platform-specific ID (Telegram via pairing code; other channels via the platform's own ID lookup)
3. Decides the isolation level — whether channels share an agent, session, or are fully separate
The `/manage-channels` skill reads each channel's `## Channel Info` section from its SKILL.md for platform-specific guidance (terminology, how to find IDs, recommended isolation).
**This step is required.** Without it, channels are installed but not wired — messages will be silently dropped because the router has no agent group to route to.
## 7b. Dashboard & Web Applications
AskUserQuestion: Do you want to create a dashboard and build web applications?
1. **Yes (recommended)** — description: "Get a NanoClaw dashboard to monitor your agents and build custom websites however you want. Deploys to Vercel."
2. **Not now** — description: "You can add this later with `/add-vercel`."
If yes: invoke `/add-vercel`.
## 8. Verify
Run `pnpm exec tsx setup/index.ts --step verify` and parse the status block.
**If STATUS=failed, fix each:**
- SERVICE=stopped → `pnpm run build`, then restart: `launchctl kickstart -k gui/$(id -u)/com.nanoclaw` (macOS) or `systemctl --user restart nanoclaw` (Linux) or `bash start-nanoclaw.sh` (WSL nohup)
- SERVICE=not_found → re-run step 7
- CREDENTIALS=missing → re-run step 4 (check `onecli secrets list`)
- CHANNEL_AUTH shows `not_found` for any channel → re-invoke that channel's skill (e.g. `/add-telegram`)
- REGISTERED_GROUPS=0 → re-invoke `/manage-channels` from step 7a
Tell user to test: send a message in their registered chat. Show: `tail -f logs/nanoclaw.log`
## Troubleshooting
**Service not starting:** Check `logs/nanoclaw.error.log`. Common: wrong Node path (re-run step 7), credential system not running (check `curl ${ONECLI_URL}/api/health`), missing channel credentials (re-invoke channel skill).
**Container agent fails ("Claude Code process exited with code 1"):** Ensure Docker is running — `open -a Docker` (macOS) or `sudo systemctl start docker` (Linux). Check container logs in `groups/main/logs/container-*.log`.
**No response to messages:** Check trigger pattern. Main channel doesn't need prefix. Check DB: `pnpm exec tsx setup/index.ts --step verify`. Check `logs/nanoclaw.log`.
**Channel not connecting:** Verify the channel's credentials are set in `.env`. Channels auto-enable when their credentials are present. For WhatsApp: check `store/auth/creds.json` exists. For token-based channels: check token values in `.env`. Restart the service after any `.env` change.
**Unload service:** macOS: `launchctl unload ~/Library/LaunchAgents/com.nanoclaw.plist` | Linux: `systemctl --user stop nanoclaw`
## 9. Diagnostics
1. Use the Read tool to read `.claude/skills/setup/diagnostics.md`.
2. Follow every step in that file before completing setup.
## 10. Fork Setup
Only run this after the user has confirmed 2-way messaging works.
Check `git remote -v`. If `origin` points to `qwibitai/nanoclaw` (not a fork), ask in plain text:
> We recommend forking NanoClaw so you can push your customizations and pull updates easily. Would you like to set up a fork now?
If yes: instruct the user to fork `qwibitai/nanoclaw` on GitHub (they need to do this in their browser), then ask for their GitHub username. Run:
```bash
git remote rename origin upstream
git remote add origin https://github.com/<their-username>/nanoclaw.git
git push --force origin main
```
If no: skip — upstream is already configured from step 0.
+49
View File
@@ -0,0 +1,49 @@
# Diagnostics
Gather system info:
```bash
node -p "require('./package.json').version"
uname -s
uname -m
node -p "process.versions.node.split('.')[0]"
```
Check if the user migrated from OpenClaw during this setup session (i.e. `/migrate-from-openclaw` was invoked). If you're unsure (e.g. after context compaction), check for `migration-state.md` in the project root — it exists during and sometimes after migration.
Write `/tmp/nanoclaw-diagnostics.json`. No paths, usernames, hostnames, or IP addresses.
```json
{
"api_key": "phc_fx1Hhx9ucz8GuaJC8LVZWO8u03yXZZJJ6ObS4yplnaP",
"event": "setup_complete",
"distinct_id": "<uuid>",
"properties": {
"success": true,
"nanoclaw_version": "1.2.21",
"os_platform": "darwin",
"arch": "arm64",
"node_major_version": 22,
"channels_selected": ["telegram", "whatsapp"],
"migrated_from_openclaw": false,
"error_count": 0,
"failed_step": null
}
}
```
Show the entire JSON to the user and ask via AskUserQuestion: **Yes** / **No** / **Never ask again**
**Yes**:
```bash
curl -s -X POST https://us.i.posthog.com/capture/ -H 'Content-Type: application/json' -d @/tmp/nanoclaw-diagnostics.json
rm /tmp/nanoclaw-diagnostics.json
```
**No**: `rm /tmp/nanoclaw-diagnostics.json`
**Never ask again**:
1. Replace contents of `.claude/skills/setup/diagnostics.md` with `# Diagnostics — opted out`
2. Replace contents of `.claude/skills/update-nanoclaw/diagnostics.md` with `# Diagnostics — opted out`
3. Remove the `## 9. Diagnostics` section from `.claude/skills/setup/SKILL.md` and the `## Diagnostics` section from `.claude/skills/update-nanoclaw/SKILL.md`
4. `rm /tmp/nanoclaw-diagnostics.json`
@@ -0,0 +1,34 @@
[
"Bash(bash setup.sh*)",
"Bash(git remote *)",
"Bash(npx tsx setup/index.ts*)",
"Bash(npx tsx scripts/init-first-agent.ts*)",
"Bash(npm install @chat-adapter/*)",
"Bash(npm install chat-adapter-imessage*)",
"Bash(npm install @bitbasti/chat-adapter-webex*)",
"Bash(npm install @resend/chat-sdk-adapter*)",
"Bash(npm install @whiskeysockets/baileys*)",
"Bash(npm install @beeper/chat-adapter-matrix*)",
"Bash(npm install @nanoco/nanoclaw-dashboard*)",
"Bash(npm ci*)",
"Bash(npm run build*)",
"Bash(curl -fsSL onecli.sh*)",
"Bash(onecli *)",
"Bash(grep -q *)",
"Bash(echo *>> .env)",
"Bash(ls *)",
"Bash(cat ~/.config/nanoclaw/*)",
"Bash(tail *logs/*)",
"Bash(launchctl *nanoclaw*)",
"Bash(sqlite3 data/*)",
"Bash(docker info*)",
"Bash(docker logs *)",
"Bash(mkdir -p *)",
"Bash(cp .env *)",
"Bash(rsync -a .claude/skills/*)",
"Bash(head *)",
"Bash(xattr *)",
"Bash(find ~/.npm *)",
"Bash(which onecli*)",
"Bash(./container/build.sh*)"
]
+15 -54
View File
@@ -11,15 +11,14 @@ Run `/update-nanoclaw` in Claude Code.
## How it works
**Preflight**: checks for clean working tree (`git status --porcelain`). If `upstream` remote is missing, asks you for the URL (defaults to `https://github.com/nanocoai/nanoclaw.git`) and adds it. Detects the upstream branch name (`main` or `master`).
**Preflight**: checks for clean working tree (`git status --porcelain`). If `upstream` remote is missing, asks you for the URL (defaults to `https://github.com/qwibitai/nanoclaw.git`) and adds it. Detects the upstream branch name (`main` or `master`).
**Backup**: creates a timestamped backup branch and tag (`backup/pre-update-<hash>-<timestamp>`, `pre-update-<hash>-<timestamp>`) before touching anything. Safe to run multiple times.
**Preview**: runs `git log` and `git diff` against the merge base to show upstream changes since your last sync. Groups changed files into categories:
- **Skills** (`.claude/skills/`): unlikely to conflict unless you edited an upstream skill
- **Host source** (`src/`): may conflict if you modified the same files
- **Container** (`container/`): triggers container rebuild
- **Build/config** (`package.json`, `pnpm-lock.yaml`, `tsconfig*.json`): lockfile changes trigger dep install
- **Source** (`src/`): may conflict if you modified the same files
- **Build/config** (`package.json`, `tsconfig*.json`, `container/`): review needed
**Update paths** (you pick one):
- `merge` (default): `git merge upstream/<branch>`. Resolves all conflicts in one pass.
@@ -31,7 +30,7 @@ Run `/update-nanoclaw` in Claude Code.
**Conflict resolution**: opens only conflicted files, resolves the conflict markers, keeps your local customizations intact.
**Validation**: runs `pnpm run build` and `pnpm test`. If container files changed, also runs the container typecheck and `./container/build.sh`.
**Validation**: runs `pnpm run build` and `pnpm test`.
**Breaking changes check**: after validation, reads CHANGELOG.md for any `[BREAKING]` entries introduced by the update. If found, shows each breaking change and offers to run the recommended skill to migrate.
@@ -69,7 +68,7 @@ If output is non-empty:
Confirm remotes:
- `git remote -v`
If `upstream` is missing:
- Ask the user for the upstream repo URL (default: `https://github.com/nanocoai/nanoclaw.git`).
- Ask the user for the upstream repo URL (default: `https://github.com/qwibitai/nanoclaw.git`).
- Add it: `git remote add upstream <user-provided-url>`
- Then: `git fetch upstream --prune`
@@ -109,10 +108,9 @@ Show file-level impact from upstream:
Bucket the upstream changed files:
- **Skills** (`.claude/skills/`): unlikely to conflict unless the user edited an upstream skill
- **Host source** (`src/`): may conflict if user modified the same files
- **Container** (`container/`): triggers container rebuild (+ typecheck if `agent-runner/src/` changed)
- **Build/config** (`package.json`, `pnpm-lock.yaml`, `tsconfig*.json`): lockfile changes trigger dep install
- **Other**: docs, tests, setup scripts, misc
- **Source** (`src/`): may conflict if user modified the same files
- **Build/config** (`package.json`, `pnpm-lock.yaml`, `tsconfig*.json`, `container/`, `launchd/`): review needed
- **Other**: docs, tests, misc
**Large drift check:** If the upstream commit count and age suggest the user has a lot of catching up to do, mention that `/migrate-nanoclaw` might be a better fit — it extracts customizations and reapplies them on clean upstream instead of merging. Offer it as an option but don't push.
@@ -175,31 +173,11 @@ If it gets messy (more than 3 rounds of conflicts):
- `git rebase --abort`
- Recommend merge instead.
# Step 4.5: Install dependencies (if lockfiles changed)
Check if the merge changed any lockfiles or package manifests:
- `git diff <backup-tag-from-step-1>..HEAD --name-only | grep -E '^(pnpm-lock\.yaml|package\.json)$'`
- If matched: `pnpm install`
- `git diff <backup-tag-from-step-1>..HEAD --name-only | grep -E '^container/agent-runner/(bun\.lock|package\.json)$'`
- If matched AND `command -v bun` succeeds: `cd container/agent-runner && bun install`
- If bun is not installed on the host, skip — container deps will be installed during `./container/build.sh`
Skip this step if neither lockfile changed.
# Step 5: Validation
Check which areas changed to determine what to validate:
- `CHANGED_FILES=$(git diff --name-only <backup-tag-from-step-1>..HEAD)`
**Host build** (always):
Run:
- `pnpm run build`
- `pnpm test` (do not fail the flow if tests are not configured)
**Container typecheck** (only if `container/agent-runner/src/` files are in CHANGED_FILES AND bun types are available):
- Check: `pnpm exec tsc -p container/agent-runner/tsconfig.json --noEmit`
- If this fails because bun types are missing (`Cannot find type definition file for 'bun'`), skip with a note — type errors will surface at container runtime instead
**Container image rebuild** (only if any `container/` files are in CHANGED_FILES):
- `./container/build.sh`
If build fails:
- Show the error.
- Only fix issues clearly caused by the merge (missing imports, type mismatches from merged code).
@@ -231,10 +209,8 @@ If one or more `[BREAKING]` lines are found:
- For each skill the user selects, invoke it using the Skill tool.
- After all selected skills complete (or if user chose Skip), proceed to Step 7 (skill updates check).
# Step 7: Check for skill and channel/provider updates
## 7a: Skill branches
Check if skills are distributed as branches in this repo:
# Step 7: Check for skill updates
After the summary, check if skills are distributed as branches in this repo:
- `git branch -r --list 'upstream/skill/*'`
If any `upstream/skill/*` branches exist:
@@ -242,21 +218,7 @@ If any `upstream/skill/*` branches exist:
- Option 1: "Yes, check for updates" (description: "Runs /update-skills to check for and apply skill branch updates")
- Option 2: "No, skip" (description: "You can run /update-skills later any time")
- If user selects yes, invoke `/update-skills` using the Skill tool.
## 7b: Channel and provider updates
Detect installed channels by reading `src/channels/index.ts` and collecting all `import './<name>.js';` lines (excluding `cli`). For providers, check `src/providers/index.ts` the same way.
If any channels/providers are installed AND `upstream/channels` or `upstream/providers` branches exist:
- List the installed channels/providers.
- Use AskUserQuestion to ask: "Would you like to update your installed channels/providers? Re-running `/add-<name>` is safe — it only updates code files, credentials and wiring are untouched."
- One option per installed channel/provider (e.g., "Update Slack (/add-slack)")
- "Skip — I'll update them later"
- Set `multiSelect: true`
- For each selected option, invoke the corresponding `/add-<channel>` or `/add-<provider>` skill.
If no channels/providers are installed, skip silently.
Proceed to Step 8.
- After the skill completes (or if user selected no), proceed to Step 8.
# Step 8: Summary + rollback instructions
Show:
@@ -270,10 +232,9 @@ Show:
Tell the user:
- To rollback: `git reset --hard <backup-tag-from-step-1>`
- Backup branch also exists: `backup/pre-update-<HASH>-<TIMESTAMP>`
- Restart the service to apply changes. The unit/label names are per-install — derive them with `setup/lib/install-slug.sh`. Run from your NanoClaw project root:
- **macOS (Darwin)**: `source setup/lib/install-slug.sh && launchctl kickstart -k gui/$(id -u)/$(launchd_label)`
- **Linux**: `source setup/lib/install-slug.sh && systemctl --user restart $(systemd_unit)` (or, if you want to confirm the unit name first: `systemctl --user list-units --type=service | grep "$(. setup/lib/install-slug.sh && systemd_unit)"`)
- **Manual** (no service found): restart `pnpm run dev`
- Restart the service to apply changes:
- If using launchd: `launchctl unload ~/Library/LaunchAgents/com.nanoclaw.plist && launchctl load ~/Library/LaunchAgents/com.nanoclaw.plist`
- If running manually: restart `pnpm run dev`
## Diagnostics
@@ -43,6 +43,7 @@ rm /tmp/nanoclaw-diagnostics.json
**No**: `rm /tmp/nanoclaw-diagnostics.json`
**Never ask again**:
1. Replace contents of `.claude/skills/update-nanoclaw/diagnostics.md` with `# Diagnostics — opted out`
2. Remove the `## Diagnostics` section from `.claude/skills/update-nanoclaw/SKILL.md`
3. `rm /tmp/nanoclaw-diagnostics.json`
1. Replace contents of `.claude/skills/setup/diagnostics.md` with `# Diagnostics — opted out`
2. Replace contents of `.claude/skills/update-nanoclaw/diagnostics.md` with `# Diagnostics — opted out`
3. Remove the `## 9. Diagnostics` section from `.claude/skills/setup/SKILL.md` and the `## Diagnostics` section from `.claude/skills/update-nanoclaw/SKILL.md`
4. `rm /tmp/nanoclaw-diagnostics.json`
+1 -1
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@@ -42,7 +42,7 @@ Check remotes:
- `git remote -v`
If `upstream` is missing:
- Ask the user for the upstream repo URL (default: `https://github.com/nanocoai/nanoclaw.git`).
- Ask the user for the upstream repo URL (default: `https://github.com/qwibitai/nanoclaw.git`).
- `git remote add upstream <url>`
Fetch:
+152
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@@ -0,0 +1,152 @@
---
name: use-local-whisper
description: Use when the user wants local voice transcription instead of OpenAI Whisper API. Switches to whisper.cpp running on Apple Silicon. WhatsApp only for now. Requires voice-transcription skill to be applied first.
---
# Use Local Whisper
Switches voice transcription from OpenAI's Whisper API to local whisper.cpp. Runs entirely on-device — no API key, no network, no cost.
**Channel support:** Currently WhatsApp only. The transcription module (`src/transcription.ts`) uses Baileys types for audio download. Other channels (Telegram, Discord, etc.) would need their own audio-download logic before this skill can serve them.
**Note:** The Homebrew package is `whisper-cpp`, but the CLI binary it installs is `whisper-cli`.
## Prerequisites
- `voice-transcription` skill must be applied first (WhatsApp channel)
- macOS with Apple Silicon (M1+) recommended
- `whisper-cpp` installed: `brew install whisper-cpp` (provides the `whisper-cli` binary)
- `ffmpeg` installed: `brew install ffmpeg`
- A GGML model file downloaded to `data/models/`
## Phase 1: Pre-flight
### Check if already applied
Check if `src/transcription.ts` already uses `whisper-cli`:
```bash
grep 'whisper-cli' src/transcription.ts && echo "Already applied" || echo "Not applied"
```
If already applied, skip to Phase 3 (Verify).
### Check dependencies are installed
```bash
whisper-cli --help >/dev/null 2>&1 && echo "WHISPER_OK" || echo "WHISPER_MISSING"
ffmpeg -version >/dev/null 2>&1 && echo "FFMPEG_OK" || echo "FFMPEG_MISSING"
```
If missing, install via Homebrew:
```bash
brew install whisper-cpp ffmpeg
```
### Check for model file
```bash
ls data/models/ggml-*.bin 2>/dev/null || echo "NO_MODEL"
```
If no model exists, download the base model (148MB, good balance of speed and accuracy):
```bash
mkdir -p data/models
curl -L -o data/models/ggml-base.bin "https://huggingface.co/ggerganov/whisper.cpp/resolve/main/ggml-base.bin"
```
For better accuracy at the cost of speed, use `ggml-small.bin` (466MB) or `ggml-medium.bin` (1.5GB).
## Phase 2: Apply Code Changes
### Ensure WhatsApp fork remote
```bash
git remote -v
```
If `whatsapp` is missing, add it:
```bash
git remote add whatsapp https://github.com/qwibitai/nanoclaw-whatsapp.git
```
### Merge the skill branch
```bash
git fetch whatsapp skill/local-whisper
git merge whatsapp/skill/local-whisper || {
git checkout --theirs pnpm-lock.yaml
git add pnpm-lock.yaml
git merge --continue
}
```
This modifies `src/transcription.ts` to use the `whisper-cli` binary instead of the OpenAI API.
### Validate
```bash
pnpm run build
```
## Phase 3: Verify
### Ensure launchd PATH includes Homebrew
The NanoClaw launchd service runs with a restricted PATH. `whisper-cli` and `ffmpeg` are in `/opt/homebrew/bin/` (Apple Silicon) or `/usr/local/bin/` (Intel), which may not be in the plist's PATH.
Check the current PATH:
```bash
grep -A1 'PATH' ~/Library/LaunchAgents/com.nanoclaw.plist
```
If `/opt/homebrew/bin` is missing, add it to the `<string>` value inside the `PATH` key in the plist. Then reload:
```bash
launchctl unload ~/Library/LaunchAgents/com.nanoclaw.plist
launchctl load ~/Library/LaunchAgents/com.nanoclaw.plist
```
### Build and restart
```bash
pnpm run build
launchctl kickstart -k gui/$(id -u)/com.nanoclaw
```
### Test
Send a voice note in any registered group. The agent should receive it as `[Voice: <transcript>]`.
### Check logs
```bash
tail -f logs/nanoclaw.log | grep -i -E "voice|transcri|whisper"
```
Look for:
- `Transcribed voice message` — successful transcription
- `whisper.cpp transcription failed` — check model path, ffmpeg, or PATH
## Configuration
Environment variables (optional, set in `.env`):
| Variable | Default | Description |
|----------|---------|-------------|
| `WHISPER_BIN` | `whisper-cli` | Path to whisper.cpp binary |
| `WHISPER_MODEL` | `data/models/ggml-base.bin` | Path to GGML model file |
## Troubleshooting
**"whisper.cpp transcription failed"**: Ensure both `whisper-cli` and `ffmpeg` are in PATH. The launchd service uses a restricted PATH — see Phase 3 above. Test manually:
```bash
ffmpeg -f lavfi -i anullsrc=r=16000:cl=mono -t 1 -f wav /tmp/test.wav -y
whisper-cli -m data/models/ggml-base.bin -f /tmp/test.wav --no-timestamps -nt
```
**Transcription works in dev but not as service**: The launchd plist PATH likely doesn't include `/opt/homebrew/bin`. See "Ensure launchd PATH includes Homebrew" in Phase 3.
**Slow transcription**: The base model processes ~30s of audio in <1s on M1+. If slower, check CPU usage — another process may be competing.
**Wrong language**: whisper.cpp auto-detects language. To force a language, you can set `WHISPER_LANG` and modify `src/transcription.ts` to pass `-l $WHISPER_LANG`.
@@ -40,7 +40,7 @@ git remote -v
If `upstream` is missing, add it:
```bash
git remote add upstream https://github.com/nanocoai/nanoclaw.git
git remote add upstream https://github.com/qwibitai/nanoclaw.git
```
### Merge the skill branch
@@ -128,12 +128,9 @@ echo 'ANTHROPIC_API_KEY=<key>' >> .env
pnpm run build
```
Then restart the service.
Run from your NanoClaw project root:
- macOS: `launchctl kickstart -k gui/$(id -u)/"$(. setup/lib/install-slug.sh && launchd_label)"`
- Linux: `systemctl --user restart "$(. setup/lib/install-slug.sh && systemd_unit)"`
Then restart the service:
- macOS: `launchctl kickstart -k gui/$(id -u)/com.nanoclaw`
- Linux: `systemctl --user restart nanoclaw`
- WSL/manual: stop and re-run `bash start-nanoclaw.sh`
2. Check logs for successful proxy startup:
+10 -23
View File
@@ -38,8 +38,6 @@ Before using this skill, ensure:
## Quick Start
Run from your NanoClaw project root:
```bash
# 1. Setup authentication (interactive)
pnpm exec dotenv -e .env -- pnpm exec tsx .claude/skills/x-integration/scripts/setup.ts
@@ -51,10 +49,9 @@ pnpm exec dotenv -e .env -- pnpm exec tsx .claude/skills/x-integration/scripts/s
# 3. Rebuild host and restart service
pnpm run build
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
# Linux: systemctl --user restart $(systemd_unit)
# Verify: launchctl list | grep "$(launchd_label)" (macOS) or systemctl --user status $(systemd_unit) (Linux)
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
# Verify: launchctl list | grep nanoclaw (macOS) or systemctl --user status nanoclaw (Linux)
```
## Configuration
@@ -273,23 +270,16 @@ cat data/x-auth.json # Should show {"authenticated": true, ...}
### 4. Restart Service
Run from your NanoClaw project root:
```bash
pnpm run build
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
# Linux: systemctl --user restart $(systemd_unit)
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
```
**Verify success.**
Run from your NanoClaw project root:
**Verify success:**
```bash
source setup/lib/install-slug.sh
launchctl list | grep "$(launchd_label)" # macOS — should show PID and exit code 0 or -
# Linux: systemctl --user status $(systemd_unit)
launchctl list | grep nanoclaw # macOS — should show PID and exit code 0 or -
# Linux: systemctl --user status nanoclaw
```
## Usage via WhatsApp
@@ -353,13 +343,10 @@ echo '{"content":"Test"}' | pnpm exec tsx .claude/skills/x-integration/scripts/p
### Authentication Expired
Run from your NanoClaw project root:
```bash
pnpm exec dotenv -e .env -- pnpm exec tsx .claude/skills/x-integration/scripts/setup.ts
source setup/lib/install-slug.sh
launchctl kickstart -k gui/$(id -u)/$(launchd_label) # macOS
# Linux: systemctl --user restart $(systemd_unit)
launchctl kickstart -k gui/$(id -u)/com.nanoclaw # macOS
# Linux: systemctl --user restart nanoclaw
```
### Browser Lock Files
+1 -1
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@@ -7,7 +7,7 @@ on:
jobs:
bump-version:
if: github.repository == 'nanocoai/nanoclaw'
if: github.repository == 'qwibitai/nanoclaw'
runs-on: ubuntu-latest
steps:
- uses: actions/create-github-app-token@v1
+1 -6
View File
@@ -1,12 +1,7 @@
name: Label PR
# SECURITY: this workflow runs with write access to the base repo on fork PRs,
# because `pull_request_target` executes in the context of the base branch.
# Keep it metadata-only — do NOT add actions/checkout or any step that
# executes PR-supplied content (install scripts, build commands, etc.).
# See https://securitylab.github.com/resources/github-actions-preventing-pwn-requests/
on:
pull_request_target:
pull_request:
types: [opened, edited]
jobs:
+1 -1
View File
@@ -8,7 +8,7 @@ on:
jobs:
update-tokens:
if: github.repository == 'nanocoai/nanoclaw'
if: github.repository == 'qwibitai/nanoclaw'
runs-on: ubuntu-latest
steps:
- uses: actions/create-github-app-token@v1

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