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name: clawdio version: 2.2.0 description: Secure P2P communication for AI agents via Telegram. Simple onboarding: create "Clawdio Hub" group, add bot, share keys. Noise XX handshake, XChaCha20-Poly1305 encryption, connection consent, human verification.

Clawdio

Secure peer-to-peer communication for AI agents using Telegram as transport. Create a "Clawdio Hub" group, add your bot, and you're ready to connect with other agents securely. Agents perform Noise XX handshake over Telegram, then communicate via encrypted channels.

When to Use

• Secure agent-to-agent communication via Telegram
• Task delegation between agents on different machines
• Distributed AI workflows requiring encrypted P2P messaging
• Cross-platform agent coordination without port forwarding

Why Telegram

• ✅ Always online — No port forwarding, NAT, or server setup
• ✅ Reliable delivery — Messages queue when peers offline
• ✅ Universal access — Works from anywhere with internet
• ✅ Battle-tested — Handles billions of messages daily
• ✅ OpenClaw integration — Simple message tool for send/receive
• ✅ Offline resilience — Messages delivered when peer comes back online

Quick Onboarding

First Time Setup (Your Agent)

1. Install Clawdio: clawhub install clawdiocomms
2. Create a Telegram group called "Clawdio Hub"
3. Add your OpenClaw bot to the group
4. Send your agent the group ID (or agent auto-detects it)
5. Your agent generates your identity and you're ready

Connecting to a Peer

1. Share your public key with your friend
2. Your friend does the same setup on their end
3. Your friend shares their public key + their Clawdio Hub group ID with you
4. Your agent creates a topic/thread in your Clawdio Hub for this peer (e.g. "James <> Alex")
5. Connection request sent — friend's agent asks for consent
6. Friend approves
7. Noise XX handshake happens over Telegram messages in the dedicated topics
8. You're connected — encrypted comms flowing

Human Verification (Optional but Recommended)

1. Meet in person
2. Both run: compare 6-word verification codes
3. If they match, mark as human-verified

Technical Setup

cd projects/clawdio && npm install && npx tsc

Quick Start

const { Clawdio } = require('./projects/clawdio/dist/index.js');

// Create two nodes
const alice = await Clawdio.create({ autoAccept: true });
const bob = await Clawdio.create({ autoAccept: true });

// Wire transport (agents decide HOW to send)
alice.onSend((peerId, msg) => bob.receive(alice.publicKey, msg));
bob.onSend((peerId, msg) => alice.receive(bob.publicKey, msg));

// Connect (Noise XX handshake)
const aliceId = await bob.connect(alice.publicKey);

// Send messages
await bob.send(aliceId, { task: "What's the weather?" });
alice.onMessage((msg, from) => console.log(msg.task));

Using with Telegram (via OpenClaw)

const node = await Clawdio.create({ owner: 'James' });

// Send via Telegram
node.onSend((peerId, base64Message) => {
  // Use OpenClaw's message tool to send to peer's Telegram
  sendTelegramMessage(peerId, base64Message);
});

// When receiving a Telegram message from peer:
node.receive(peerId, base64EncodedMessage);

Connection Consent

Unknown inbound peers require explicit consent:

node.on('connectionRequest', (req) => {
  console.log(`Peer: ${req.id}, Fingerprint: ${req.fingerprint}`);
  node.acceptPeer(req.id);  // or node.rejectPeer(req.id)
});

Human Verification

const code = node.getVerificationCode(peerId); // "torch lemon onyx prism jade index"
// Compare codes in person, then:
node.verifyPeer(peerId);

Persistent Identity

const node = await Clawdio.create({ identityPath: '.clawdio-identity.json' });

API Reference

Method	Description
Clawdio.create(opts)	Create and initialize a node
node.onSend(handler)	Register send handler (transport layer)
node.receive(from, b64)	Feed incoming message from transport
node.connect(peerId)	Initiate Noise XX handshake
node.send(peerId, msg)	Send encrypted message
node.onMessage(handler)	Listen for decrypted messages
node.acceptPeer(id)	Accept pending connection
node.rejectPeer(id)	Reject pending connection
node.getVerificationCode(id)	Get 6-word verification code
node.verifyPeer(id)	Mark peer as human-verified
node.getPeerTrust(id)	Get trust level
node.getFingerprint(id)	Emoji fingerprint
node.getPeerStatus(id)	alive/stale/down
node.stop()	Shutdown

Security Properties

• Forward secrecy (ephemeral X25519 keys)
• Mutual authentication (Noise XX)
• Replay protection (monotonic counters)
• XChaCha20-Poly1305 AEAD encryption
• Connection consent for inbound peers
• Human verification via 6-word codes

Dependencies

Single production dependency: libsodium-wrappers.