6f02ee530b
* feat: streaming container mode, IPC messaging, agent teams support
Major architectural shift from single-shot container runs to long-lived
streaming containers with IPC-based message injection.
- Agent runner: query loop with AsyncIterable prompt to keep stdin open
for agent teams (fixes isSingleUserTurn premature shutdown)
- New standalone stdio MCP server (ipc-mcp-stdio.ts) inheritable by
subagents, with send_message and schedule_task tools
- Streaming output: parse OUTPUT_START/END markers in real-time, send
results to WhatsApp as they arrive
- IPC file-based messaging: host writes to ipc/{group}/input/, agent
polls for follow-up messages without respawning containers
- Per-group settings.json with CLAUDE_CODE_EXPERIMENTAL_AGENT_TEAMS=1
- SDK bumped to 0.2.34 for TeamCreate tool support
- Container idle timeout (30min) with _close sentinel for shutdown
- Orphaned container cleanup on startup
- alwaysRespond flag for groups that skip trigger pattern check
- Uncaught exception/rejection handlers with timestamps in logger
- Combined SDK documentation into single deep dive reference
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* chore: remove unused ipc-mcp.ts (replaced by ipc-mcp-stdio.ts)
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* fix: clarify agent communication model in docs and tool descriptions
- CLAUDE.md (main + global): split communication instructions into
"responding to messages" vs "scheduled tasks" sections
- send_message tool: note that scheduled task output is not sent to user
- Remove structured output (outputFormat) — not needed with current flow
- Regular output is sent to WhatsApp; scheduled task output is only logged
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* chore: ignore dynamic group data while preserving base structure
Only track groups/main/CLAUDE.md and groups/global/CLAUDE.md. All other
group directories and files are ignored to prevent tracking user-specific
session data.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* fix: resolve critical bugs in streaming container mode
Bug 1 (scheduled task hang): Task scheduler now passes onOutput callback
with idle timer that writes _close sentinel after IDLE_TIMEOUT, so
containers exit cleanly instead of blocking queue slots for 30 minutes.
Scheduled tasks stay alive for interactive follow-up via IPC.
Bug 2 (timeout disabled): Remove resetTimeout() from stderr handler.
SDK writes debug logs continuously, resetting the timer on every line.
Timeout now only resets on actual output markers in stdout.
Bug 3 (trigger bypass): Piped messages in startMessageLoop now check
trigger pattern for non-main groups. Non-trigger messages accumulate in
DB and are pulled as context via getMessagesSince when a trigger arrives.
Bug 7 (non-atomic IPC writes): GroupQueue.sendMessage uses temp file +
rename for atomic writes, matching ipc-mcp-stdio.ts pattern.
Also: flip isVerbose back to false (debug leftover), add isScheduledTask
to host-side ContainerInput interface.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* fix: idle timer not starting + scheduled task groupFolder missing
Two bugs that prevented the scheduled task idle timeout fix from working:
1. onOutput was only called when parsed.result !== null, but session
update markers have result: null. The idle timer never started for
"silent" query completions, leaving containers parked at
waitForIpcMessage until hard timeout.
2. Scheduler's onProcess callback didn't pass groupFolder to
queue.registerProcess, so closeStdin no-oped (groupFolder was null).
The _close sentinel was never written even when the idle timer fired.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* fix: duplicate messages and timestamp rollback in piping path
Two bugs introduced by the trigger context accumulation change:
1. processGroupMessages didn't advance lastAgentTimestamp until after
the container finished. The piping path's getMessagesSince(lastAgent
Timestamp) re-fetched messages already sent as the initial prompt,
causing duplicates.
2. processGroupMessages overwrote lastAgentTimestamp with the original
batch timestamp on completion, rolling back any advancement made by
the piping path while the container was running.
Fix: advance lastAgentTimestamp immediately after building the prompt,
before starting the container. This matches the piping path behavior
and eliminates both the overlap and the rollback.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* fix: container idles 30 extra minutes after _close during query
When _close was detected during pollIpcDuringQuery, it was consumed
(deleted) and stream.end() was called. But after runQuery returned,
main() still emitted a session-update marker (resetting the host's idle
timer) and called waitForIpcMessage (which polled forever since _close
was already gone). The container had to wait for a second _close.
Fix: runQuery now returns closedDuringQuery. When true, main() skips
the session-update marker and waitForIpcMessage, exiting immediately.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* fix: resume branching, internal tags, and output forwarding
- Fix resume branching: pass resumeSessionAt with last assistant UUID
to anchor each query loop resume to the correct conversation tree
position. Prevents agent responses landing on invisible branches
when agent teams subagents create parallel JSONL entries.
- Add <internal> tag stripping: agent can wrap internal reasoning in
<internal> tags which are logged but not sent to WhatsApp. Prevents
duplicate messages and internal monologue reaching users.
- Forward scheduled task output: scheduled tasks now send result text
to WhatsApp (with <internal> stripping), matching regular message
behavior. No more special-case instructions.
- Update Communication guidance in CLAUDE.md: simplified to "your
output is sent to the user or group" with soft guidance on
<internal> tags and send_message usage.
- Add messaging behavior docs to schedule_task tool: prompts the
scheduling agent to include guidance on whether the task should
always/conditionally/never message the user.
- Mount security: containerPath now optional, defaults to basename
of hostPath.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* fix: cursor rollback on error, flush guard, verbose logging
- Roll back lastAgentTimestamp on container error so retries can
re-process the messages instead of silently losing them.
- Add guard flag to flushOutgoingQueue to prevent duplicate sends
from concurrent flushes during rapid WA reconnects.
- Revert isVerbose from hardcoded false back to env-based check
(LOG_LEVEL=debug|trace).
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* fix: orphan container cleanup was silently failing
The startup cleanup used `container ls --format {{.Names}}` which is
Docker Go-template syntax. Apple Container only supports `--format json`
or `--format table`. The command errored with exit code 64, but the
catch block silently swallowed it — orphan containers were never cleaned
up on restart.
Fixed to use `--format json` and parse `configuration.id` from the
JSON output. Also filters by `status: running` and logs a warning on
failure instead of silently catching.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* docs: add Discord badge and community section
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* fix: idle timer reset on null results and flush queue message loss
- Only reset idle timer on actual results (non-null), not session-update
markers. Prevents containers staying alive 30 extra minutes after the
agent finishes work.
- flushOutgoingQueue now uses shift() instead of splice(0) so unattempted
messages stay in the queue if an unexpected error bails the loop.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* docs: add Agent Swarms to README
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* fix: update Telegram skill for current architecture
Rewrite integration instructions to match the per-group queue/SQLite
architecture: remove onMessage callback pattern (store to DB, let
message loop pick up), fix startSchedulerLoop signature, add
TELEGRAM_ONLY service startup, SQLite registration, data/env/env sync,
@mention-to-trigger translation, and BotFather group privacy docs.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* fix: Telegram skill message chunking, media placeholders, chat discovery
- Split long messages at Telegram's 4096 char limit to prevent silent
send failures
- Store placeholder text for non-text messages (photos, voice, stickers,
etc.) so the agent knows media was sent
- Update getAvailableGroups filter to include tg: chats so the agent can
discover and register Telegram chats via IPC
- Fix removal step numbering
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* docs: update REQUIREMENTS.md and SPEC.md for SQLite architecture
- Replace all registered_groups.json / sessions.json / router_state.json
references with SQLite equivalents
- Fix CONTAINER_TIMEOUT default (300000 → 1800000)
- Add missing config exports (IDLE_TIMEOUT, MAX_CONCURRENT_CONTAINERS)
- Update folder structure: add missing src files (logger, group-queue,
mount-security), remove non-existent utils.ts, list all skills
- Fix agent-runner entry (ipc-mcp.ts → ipc-mcp-stdio.ts)
- Update startup sequence to reflect per-group queue architecture
- Fix env mounting description (data/env/env, not extracted vars)
- Update troubleshooting to use sqlite3 commands
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
* docs: fix README architecture description, revert SPEC.md env error
- README: update architecture blurb to mention per-group queue, add
group-queue.ts to key files, update file descriptions
- SPEC.md: restore correct credential filtering description (only auth
vars are extracted from .env, not the full file)
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
---------
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
20 KiB
20 KiB
name, description
| name | description |
|---|---|
| add-telegram | 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
This skill adds Telegram support to NanoClaw. Users can choose to:
- Replace WhatsApp - Use Telegram as the only messaging channel
- Add alongside WhatsApp - Both channels active
- Control channel - Telegram triggers agent but doesn't receive all outputs
- Notification channel - Receives outputs but limited triggering
Prerequisites
1. Install Grammy
npm install grammy
Grammy is a modern, TypeScript-first Telegram bot framework.
2. Create Telegram Bot
Tell the user:
I need you to create a Telegram bot:
- Open Telegram and search for
@BotFather- Send
/newbotand follow prompts:
- Bot name: Something friendly (e.g., "Andy Assistant")
- Bot username: Must end with "bot" (e.g., "andy_ai_bot")
- Copy the bot token (looks like
123456:ABC-DEF1234ghIkl-zyx57W2v1u123ew11)
Wait for user to provide the token.
3. Get Chat ID
Tell the user:
To register a chat, you need its Chat ID. Here's how:
For Private Chat (DM with bot):
- Search for your bot in Telegram
- Start a chat and send any message
- I'll add a
/chatidcommand to help you get the IDFor Group Chat:
- Add your bot to the group
- Send any message
- Use the
/chatidcommand in the group
4. Disable Group Privacy (for group chats)
Tell the user:
Important for group chats: By default, Telegram bots in groups only receive messages that @mention the bot or are commands. To let the bot see all messages (needed for
requiresTrigger: falseor trigger-word detection):
- Open Telegram and search for
@BotFather- Send
/mybotsand select your bot- Go to Bot Settings > Group Privacy
- Select Turn off
Without this, the bot will only see messages that directly @mention it.
This step is optional if the user only wants trigger-based responses via @mentioning the bot.
Questions to Ask
Before making changes, ask:
-
Mode: Replace WhatsApp or add alongside it?
- If replace: Set
TELEGRAM_ONLY=true - If alongside: Both will run
- If replace: Set
-
Chat behavior: Should this chat respond to all messages or only when @mentioned?
- Main chat: Responds to all (set
requiresTrigger: false) - Other chats: Default requires trigger (
requiresTrigger: true)
- Main chat: Responds to all (set
Implementation
Step 1: Update Configuration
Read src/config.ts and add Telegram config exports:
export const TELEGRAM_BOT_TOKEN = process.env.TELEGRAM_BOT_TOKEN || "";
export const TELEGRAM_ONLY = process.env.TELEGRAM_ONLY === "true";
These should be added near the top with other configuration exports.
Step 2: Add storeMessageDirect to Database
Read src/db.ts and add this function (place it near the storeMessage function):
/**
* Store a message directly (for non-WhatsApp channels that don't use Baileys proto).
*/
export function storeMessageDirect(msg: {
id: string;
chat_jid: string;
sender: string;
sender_name: string;
content: string;
timestamp: string;
is_from_me: boolean;
}): void {
db.prepare(
`INSERT OR REPLACE INTO messages (id, chat_jid, sender, sender_name, content, timestamp, is_from_me) VALUES (?, ?, ?, ?, ?, ?, ?)`,
).run(
msg.id,
msg.chat_jid,
msg.sender,
msg.sender_name,
msg.content,
msg.timestamp,
msg.is_from_me ? 1 : 0,
);
}
This uses the existing db instance from db.ts. No additional imports needed.
Step 3: Create Telegram Module
Create src/telegram.ts. The Telegram module is a thin layer that stores incoming messages to the database. It does NOT call the agent directly — the existing startMessageLoop() in src/index.ts polls all registered group JIDs and picks up Telegram messages automatically.
import { Bot } from "grammy";
import {
ASSISTANT_NAME,
TRIGGER_PATTERN,
} from "./config.js";
import {
getAllRegisteredGroups,
storeChatMetadata,
storeMessageDirect,
} from "./db.js";
import { logger } from "./logger.js";
let bot: Bot | null = null;
/** Store a placeholder message for non-text content (photos, voice, etc.) */
function storeNonTextMessage(ctx: any, placeholder: string): void {
const chatId = `tg:${ctx.chat.id}`;
const registeredGroups = getAllRegisteredGroups();
if (!registeredGroups[chatId]) return;
const timestamp = new Date(ctx.message.date * 1000).toISOString();
const senderName =
ctx.from?.first_name || ctx.from?.username || ctx.from?.id?.toString() || "Unknown";
const caption = ctx.message.caption ? ` ${ctx.message.caption}` : "";
storeChatMetadata(chatId, timestamp);
storeMessageDirect({
id: ctx.message.message_id.toString(),
chat_jid: chatId,
sender: ctx.from?.id?.toString() || "",
sender_name: senderName,
content: `${placeholder}${caption}`,
timestamp,
is_from_me: false,
});
}
export async function connectTelegram(botToken: string): Promise<void> {
bot = new Bot(botToken);
// Command to get chat ID (useful for registration)
bot.command("chatid", (ctx) => {
const chatId = ctx.chat.id;
const chatType = ctx.chat.type;
const chatName =
chatType === "private"
? ctx.from?.first_name || "Private"
: (ctx.chat as any).title || "Unknown";
ctx.reply(
`Chat ID: \`tg:${chatId}\`\nName: ${chatName}\nType: ${chatType}`,
{ parse_mode: "Markdown" },
);
});
// Command to check bot status
bot.command("ping", (ctx) => {
ctx.reply(`${ASSISTANT_NAME} is online.`);
});
bot.on("message:text", async (ctx) => {
// Skip commands
if (ctx.message.text.startsWith("/")) return;
const chatId = `tg:${ctx.chat.id}`;
let content = ctx.message.text;
const timestamp = new Date(ctx.message.date * 1000).toISOString();
const senderName =
ctx.from?.first_name ||
ctx.from?.username ||
ctx.from?.id.toString() ||
"Unknown";
const sender = ctx.from?.id.toString() || "";
const msgId = ctx.message.message_id.toString();
// Determine chat name
const chatName =
ctx.chat.type === "private"
? senderName
: (ctx.chat as any).title || chatId;
// Translate Telegram @bot_username mentions into TRIGGER_PATTERN format.
// Telegram @mentions (e.g., @andy_ai_bot) won't match TRIGGER_PATTERN
// (e.g., ^@Andy\b), so we prepend the trigger when the bot is @mentioned.
const botUsername = ctx.me?.username?.toLowerCase();
if (botUsername) {
const entities = ctx.message.entities || [];
const isBotMentioned = entities.some((entity) => {
if (entity.type === "mention") {
const mentionText = content
.substring(entity.offset, entity.offset + entity.length)
.toLowerCase();
return mentionText === `@${botUsername}`;
}
return false;
});
if (isBotMentioned && !TRIGGER_PATTERN.test(content)) {
content = `@${ASSISTANT_NAME} ${content}`;
}
}
// Store chat metadata for discovery
storeChatMetadata(chatId, timestamp, chatName);
// Check if this chat is registered
const registeredGroups = getAllRegisteredGroups();
const group = registeredGroups[chatId];
if (!group) {
logger.debug(
{ chatId, chatName },
"Message from unregistered Telegram chat",
);
return;
}
// Store message — startMessageLoop() will pick it up
storeMessageDirect({
id: msgId,
chat_jid: chatId,
sender,
sender_name: senderName,
content,
timestamp,
is_from_me: false,
});
logger.info(
{ chatId, chatName, sender: senderName },
"Telegram message stored",
);
});
// Handle non-text messages with placeholders so the agent knows something was sent
bot.on("message:photo", (ctx) => storeNonTextMessage(ctx, "[Photo]"));
bot.on("message:video", (ctx) => storeNonTextMessage(ctx, "[Video]"));
bot.on("message:voice", (ctx) => storeNonTextMessage(ctx, "[Voice message]"));
bot.on("message:audio", (ctx) => storeNonTextMessage(ctx, "[Audio]"));
bot.on("message:document", (ctx) => {
const name = ctx.message.document?.file_name || "file";
storeNonTextMessage(ctx, `[Document: ${name}]`);
});
bot.on("message:sticker", (ctx) => {
const emoji = ctx.message.sticker?.emoji || "";
storeNonTextMessage(ctx, `[Sticker ${emoji}]`);
});
bot.on("message:location", (ctx) => storeNonTextMessage(ctx, "[Location]"));
bot.on("message:contact", (ctx) => storeNonTextMessage(ctx, "[Contact]"));
// Handle errors gracefully
bot.catch((err) => {
logger.error({ err: err.message }, "Telegram bot error");
});
// Start polling
bot.start({
onStart: (botInfo) => {
logger.info(
{ username: botInfo.username, id: botInfo.id },
"Telegram bot connected",
);
console.log(`\n Telegram bot: @${botInfo.username}`);
console.log(
` Send /chatid to the bot to get a chat's registration ID\n`,
);
},
});
}
export async function sendTelegramMessage(
chatId: string,
text: string,
): Promise<void> {
if (!bot) {
logger.warn("Telegram bot not initialized");
return;
}
try {
const numericId = chatId.replace(/^tg:/, "");
// Telegram has a 4096 character limit per message — split if needed
const MAX_LENGTH = 4096;
if (text.length <= MAX_LENGTH) {
await bot.api.sendMessage(numericId, text);
} else {
for (let i = 0; i < text.length; i += MAX_LENGTH) {
await bot.api.sendMessage(numericId, text.slice(i, i + MAX_LENGTH));
}
}
logger.info({ chatId, length: text.length }, "Telegram message sent");
} catch (err) {
logger.error({ chatId, err }, "Failed to send Telegram message");
}
}
export async function setTelegramTyping(chatId: string): Promise<void> {
if (!bot) return;
try {
const numericId = chatId.replace(/^tg:/, "");
await bot.api.sendChatAction(numericId, "typing");
} catch (err) {
logger.debug({ chatId, err }, "Failed to send Telegram typing indicator");
}
}
export function isTelegramConnected(): boolean {
return bot !== null;
}
export function stopTelegram(): void {
if (bot) {
bot.stop();
bot = null;
logger.info("Telegram bot stopped");
}
}
Key differences from WhatsApp message handling:
- No
onMessagecallback — messages are stored to DB and the existing message loop picks them up - Registration check uses
getAllRegisteredGroups()fromdb.tsdirectly - Trigger matching is handled by
startMessageLoop()/processGroupMessages(), not the Telegram module
Step 4: Update Main Application
Modify src/index.ts:
- Add imports at the top:
import {
connectTelegram,
sendTelegramMessage,
setTelegramTyping,
stopTelegram,
} from "./telegram.js";
import { TELEGRAM_BOT_TOKEN, TELEGRAM_ONLY } from "./config.js";
- Update
sendMessagefunction to route Telegram messages. Find thesendMessagefunction and add atg:prefix check before the WhatsApp path:
async function sendMessage(jid: string, text: string): Promise<void> {
// Route Telegram messages directly (no outgoing queue needed)
if (jid.startsWith("tg:")) {
await sendTelegramMessage(jid, text);
return;
}
// WhatsApp path (with outgoing queue for reconnection)
if (!waConnected) {
outgoingQueue.push({ jid, text });
logger.info({ jid, length: text.length, queueSize: outgoingQueue.length }, 'WA disconnected, message queued');
return;
}
try {
await sock.sendMessage(jid, { text });
logger.info({ jid, length: text.length }, 'Message sent');
} catch (err) {
outgoingQueue.push({ jid, text });
logger.warn({ jid, err, queueSize: outgoingQueue.length }, 'Failed to send, message queued');
}
}
- Update
setTypingfunction to route Telegram typing indicators:
async function setTyping(jid: string, isTyping: boolean): Promise<void> {
if (jid.startsWith("tg:")) {
if (isTyping) await setTelegramTyping(jid);
return;
}
try {
await sock.sendPresenceUpdate(isTyping ? 'composing' : 'paused', jid);
} catch (err) {
logger.debug({ jid, err }, 'Failed to update typing status');
}
}
- Update
main()function. Add Telegram startup beforeconnectWhatsApp()and wrap WhatsApp in aTELEGRAM_ONLYcheck:
async function main(): Promise<void> {
ensureContainerSystemRunning();
initDatabase();
logger.info('Database initialized');
loadState();
// Graceful shutdown handlers
const shutdown = async (signal: string) => {
logger.info({ signal }, 'Shutdown signal received');
stopTelegram();
await queue.shutdown(10000);
process.exit(0);
};
process.on('SIGTERM', () => shutdown('SIGTERM'));
process.on('SIGINT', () => shutdown('SIGINT'));
// Start Telegram bot if configured (independent of WhatsApp)
const hasTelegram = !!TELEGRAM_BOT_TOKEN;
if (hasTelegram) {
await connectTelegram(TELEGRAM_BOT_TOKEN);
}
if (!TELEGRAM_ONLY) {
await connectWhatsApp();
} else {
// Telegram-only mode: start all services that WhatsApp's connection.open normally starts
startSchedulerLoop({
registeredGroups: () => registeredGroups,
getSessions: () => sessions,
queue,
onProcess: (groupJid, proc, containerName, groupFolder) =>
queue.registerProcess(groupJid, proc, containerName, groupFolder),
sendMessage,
assistantName: ASSISTANT_NAME,
});
startIpcWatcher();
queue.setProcessMessagesFn(processGroupMessages);
recoverPendingMessages();
startMessageLoop();
logger.info(
`NanoClaw running (Telegram-only, trigger: @${ASSISTANT_NAME})`,
);
}
}
Note: When running alongside WhatsApp, the connection.open handler in connectWhatsApp() already starts the scheduler, IPC watcher, queue, and message loop — no duplication needed.
- Update
getAvailableGroupsfunction to include Telegram chats. The current filter only shows WhatsApp groups (@g.us). Update it to also includetg:chats so the agent can discover and register Telegram chats via IPC:
function getAvailableGroups(): AvailableGroup[] {
const chats = getAllChats();
const registeredJids = new Set(Object.keys(registeredGroups));
return chats
.filter((c) => c.jid !== '__group_sync__' && (c.jid.endsWith('@g.us') || c.jid.startsWith('tg:')))
.map((c) => ({
jid: c.jid,
name: c.name,
lastActivity: c.last_message_time,
isRegistered: registeredJids.has(c.jid),
}));
}
Step 5: Update Environment
Add to .env:
TELEGRAM_BOT_TOKEN=YOUR_BOT_TOKEN_HERE
# Optional: Set to "true" to disable WhatsApp entirely
# TELEGRAM_ONLY=true
Important: After modifying .env, sync to the container environment:
cp .env data/env/env
The container reads environment from data/env/env, not .env directly.
Step 6: Register a Telegram Chat
After installing and starting the bot, tell the user:
- Send
/chatidto your bot (in private chat or in a group)- Copy the chat ID (e.g.,
tg:123456789ortg:-1001234567890)- I'll register it for you
Registration uses the registerGroup() function in src/index.ts, which writes to SQLite and creates the group folder structure. Call it like this (or add a one-time script):
// For private chat (main group):
registerGroup("tg:123456789", {
name: "Personal",
folder: "main",
trigger: `@${ASSISTANT_NAME}`,
added_at: new Date().toISOString(),
requiresTrigger: false, // main group responds to all messages
});
// For group chat (note negative ID for Telegram groups):
registerGroup("tg:-1001234567890", {
name: "My Telegram Group",
folder: "telegram-group",
trigger: `@${ASSISTANT_NAME}`,
added_at: new Date().toISOString(),
requiresTrigger: true, // only respond when triggered
});
The RegisteredGroup type requires a trigger string field and has an optional requiresTrigger boolean (defaults to true). Set requiresTrigger: false for chats that should respond to all messages.
Alternatively, if the agent is already running in the main group, it can register new groups via IPC using the register_group task type.
Step 7: Build and Restart
npm run build
launchctl kickstart -k gui/$(id -u)/com.nanoclaw
Or for systemd:
npm run build
systemctl --user restart nanoclaw
Step 8: Test
Tell the user:
Send a message to your registered Telegram chat:
- For main chat: Any message works
- For non-main:
@Andy helloor @mention the botCheck logs:
tail -f logs/nanoclaw.log
Replace WhatsApp Entirely
If user wants Telegram-only:
- Set
TELEGRAM_ONLY=truein.env - Run
cp .env data/env/envto sync to container - The WhatsApp connection code is automatically skipped
- All services (scheduler, IPC watcher, queue, message loop) start independently
- Optionally remove
@whiskeysockets/baileysdependency (but it's harmless to keep)
Features
Chat ID Formats
- WhatsApp:
120363336345536173@g.us(groups) or1234567890@s.whatsapp.net(DM) - Telegram:
tg:123456789(positive for private) ortg:-1001234567890(negative for groups)
Trigger Options
The bot responds when:
- Chat has
requiresTrigger: falsein its registration (e.g., main group) - Bot is @mentioned in Telegram (translated to TRIGGER_PATTERN automatically)
- Message matches TRIGGER_PATTERN directly (e.g., starts with @Andy)
Telegram @mentions (e.g., @andy_ai_bot) are automatically translated: if the bot is @mentioned and the message doesn't already match TRIGGER_PATTERN, the trigger prefix is prepended before storing. This ensures @mentioning the bot always triggers a response.
Group Privacy: The bot must have Group Privacy disabled in BotFather to see non-mention messages in groups. See Prerequisites step 4.
Commands
/chatid- Get chat ID for registration/ping- Check if bot is online
Troubleshooting
Bot not responding
Check:
TELEGRAM_BOT_TOKENis set in.envAND synced todata/env/env- Chat is registered in SQLite (check with:
sqlite3 store/messages.db "SELECT * FROM registered_groups WHERE jid LIKE 'tg:%'") - For non-main chats: message includes trigger pattern
- Service is running:
launchctl list | grep nanoclaw
Bot only responds to @mentions in groups
The bot has Group Privacy enabled (default). It can only see messages that @mention it or are commands. To fix:
- Open
@BotFatherin Telegram /mybots> select bot > Bot Settings > Group Privacy > Turn off- 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 bot token is valid:
curl -s "https://api.telegram.org/bot${TELEGRAM_BOT_TOKEN}/getMe" - Check bot is started:
tail -f logs/nanoclaw.log
Service conflicts
If running npm run dev while launchd service is active:
launchctl unload ~/Library/LaunchAgents/com.nanoclaw.plist
npm run dev
# When done testing:
launchctl load ~/Library/LaunchAgents/com.nanoclaw.plist
Removal
To remove Telegram integration:
- Delete
src/telegram.ts - Remove Telegram imports from
src/index.ts - Remove
sendTelegramMessage/setTelegramTypingrouting fromsendMessage()andsetTyping()functions - Remove
connectTelegram()/stopTelegram()calls frommain() - Remove
TELEGRAM_ONLYconditional inmain() - Revert
getAvailableGroups()filter to only include@g.uschats - Remove
storeMessageDirectfromsrc/db.ts - Remove Telegram config (
TELEGRAM_BOT_TOKEN,TELEGRAM_ONLY) fromsrc/config.ts - Remove Telegram registrations from SQLite:
sqlite3 store/messages.db "DELETE FROM registered_groups WHERE jid LIKE 'tg:%'" - Uninstall:
npm uninstall grammy - Rebuild:
npm run build && launchctl kickstart -k gui/$(id -u)/com.nanoclaw