* feat(gateway): add device.pair.setupCode RPC for connect QR
The OpenClaw mobile/companion app scans a pairing setup code to connect to the gateway, but that code + QR could only be produced by the openclaw qr CLI (ASCII to stdout). Non-terminal clients driving onboarding had no way to display the connect QR.
Add a device.pair.setupCode gateway method that reuses resolvePairingSetupFromConfig + encodePairingSetupCode + renderQrPngDataUrl to return { setupCode, qrDataUrl?, gatewayUrl, auth, urlSource }. The embedded setup code mints a short-lived bootstrap token that hands off broad operator scopes (read/write/approvals/talk.secrets), so the method requires operator.admin (matching the wizard methods a companion already uses) and is not advertised. auth is a label only; the gateway credential is never returned, and an oversized QR is omitted so the response always satisfies the result schema.
Refs #94661.
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
* feat(ui): pair mobile devices from Control UI
* docs: refresh generated docs map
* docs: clarify mobile QR auto-connect
* docs: clarify mobile QR auto-connect
* docs: clarify mobile QR auto-connect
---------
Co-authored-by: Barbara Kudiess <76582160+bkudiess@users.noreply.github.com>
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
Co-authored-by: Peter Steinberger <steipete@gmail.com>
9.1 KiB
summary, read_when, title
| summary | read_when | title | |||
|---|---|---|---|---|---|
| Pairing overview: approve who can DM you + which nodes can join |
|
Pairing |
"Pairing" is OpenClaw's explicit access approval step. It is used in two places:
- DM pairing (who is allowed to talk to the bot)
- Node pairing (which devices/nodes are allowed to join the gateway network)
Security context: Security
1) DM pairing (inbound chat access)
When a channel is configured with DM policy pairing, unknown senders get a short code and their message is not processed until you approve.
Default DM policies are documented in: Security
dmPolicy: "open" is public only when the effective DM allowlist includes "*".
Setup and validation require that wildcard for public-open configs. If existing
state contains open with concrete allowFrom entries, runtime still admits
only those senders, and pairing-store approvals do not widen open access.
Pairing codes:
- 8 characters, uppercase, no ambiguous chars (
0O1I). - Expire after 1 hour. The bot only sends the pairing message when a new request is created (roughly once per hour per sender).
- Pending DM pairing requests are capped at 3 per channel by default; additional requests are ignored until one expires or is approved.
Approve a sender
openclaw pairing list telegram
openclaw pairing approve telegram <CODE>
If no command owner is configured yet, approving a DM pairing code also bootstraps
commands.ownerAllowFrom to the approved sender, such as telegram:123456789.
That gives first-time setups an explicit owner for privileged commands and exec
approval prompts. After an owner exists, later pairing approvals only grant DM
access; they do not add more owners.
Supported channels: discord, feishu, googlechat, imessage, irc, line, matrix, mattermost, msteams, nextcloud-talk, nostr, openclaw-weixin, signal, slack, synology-chat, telegram, twitch, whatsapp, zalo, zalouser.
Reusable sender groups
Use top-level accessGroups when the same trusted sender set should apply to
multiple message channels or to both DM and group allowlists.
Static groups use type: "message.senders" and are referenced with
accessGroup:<name> from channel allowlists:
{
accessGroups: {
operators: {
type: "message.senders",
members: {
discord: ["discord:123456789012345678"],
telegram: ["987654321"],
whatsapp: ["+15551234567"],
},
},
},
channels: {
telegram: { dmPolicy: "allowlist", allowFrom: ["accessGroup:operators"] },
whatsapp: { groupPolicy: "allowlist", groupAllowFrom: ["accessGroup:operators"] },
},
}
Access groups are documented in detail here: Access groups
Where the state lives
Stored under ~/.openclaw/credentials/:
- Pending requests:
<channel>-pairing.json - Approved allowlist store:
- Default account:
<channel>-allowFrom.json - Non-default account:
<channel>-<accountId>-allowFrom.json
- Default account:
Account scoping behavior:
- Non-default accounts read/write only their scoped allowlist file.
- Default account uses the channel-scoped unscoped allowlist file.
Treat these as sensitive (they gate access to your assistant).
The pairing allowlist store is for DM access. Group authorization is separate. Approving a DM pairing code does not automatically allow that sender to run group commands or control the bot in groups. First-owner bootstrap is separate config state in `commands.ownerAllowFrom`, and group chat delivery still follows the channel's group allowlists (for example `groupAllowFrom`, `groups`, or per-group or per-topic overrides depending on the channel).2) Node device pairing (iOS/Android/macOS/headless nodes)
Nodes connect to the Gateway as devices with role: node. The Gateway
creates a device pairing request that must be approved.
Pair from the Control UI (recommended)
Use an already connected Control UI session with operator.admin access:
- Open the Control UI and select Nodes.
- In Devices, click Pair mobile device.
- On your phone, open the OpenClaw app → Settings → Gateway.
- Scan the QR code or paste the setup code, then connect.
Official OpenClaw iOS and Android apps are approved automatically when their setup-code metadata matches. If Devices shows a pending request (for example, for a non-official client or mismatched metadata), review its role and scopes before approving it.
The button is disabled when the current Control UI session does not have administrator access. Use the CLI approval flow below from the Gateway host in that case.
Pair via Telegram
If you use the device-pair plugin, you can do first-time device pairing entirely from Telegram:
- In Telegram, message your bot:
/pair - The bot replies with two messages: an instruction message and a separate setup code message (easy to copy/paste in Telegram).
- On your phone, open the OpenClaw iOS app → Settings → Gateway.
- Scan the QR code or paste the setup code and connect.
- The official mobile app connects automatically. If
/pair pendingshows a request, review its role and scopes before approving it.
The setup code is a base64-encoded JSON payload that contains:
url: the Gateway WebSocket URL (ws://...orwss://...)bootstrapToken: a short-lived single-device bootstrap token used for the initial pairing handshake
That bootstrap token carries the built-in pairing bootstrap profile:
- the built-in setup profile allows the fresh QR/setup-code baseline only:
nodeplus a boundedoperatorhandoff - the handed-off
nodetoken staysscopes: [] - the handed-off
operatortoken is limited tooperator.approvals,operator.read,operator.talk.secrets, andoperator.write operator.adminis not granted by QR/setup-code bootstrap; it requires a separate approved operator pairing or token flow- later token rotation/revocation remains bounded by both the device's approved role contract and the caller session's operator scopes
Treat the setup code like a password while it is valid.
For Tailscale, public, or other remote mobile pairing, use Tailscale Serve/Funnel
or another wss:// Gateway URL. Plaintext ws:// setup codes are accepted only
for loopback, private LAN addresses, .local Bonjour hosts, and the Android
emulator host. Tailnet CGNAT addresses, .ts.net names, and public hosts still
fail closed before QR/setup-code issuance.
Approve a node device
openclaw devices list
openclaw devices approve <requestId>
openclaw devices reject <requestId>
When an explicit approval is denied because the approving paired-device session
was opened with pairing-only scope, the CLI retries the same request with
operator.admin. This lets an existing admin-capable paired device recover a new
Control UI/browser pairing without editing devices/paired.json by hand. The
Gateway still validates the retried connection; tokens that cannot authenticate
with operator.admin remain blocked.
If the same device retries with different auth details (for example different
role/scopes/public key), the previous pending request is superseded and a new
requestId is created.
Optional trusted-CIDR node auto-approve
Device pairing remains manual by default. For tightly controlled node networks, you can opt in to first-time node auto-approval with explicit CIDRs or exact IPs:
{
gateway: {
nodes: {
pairing: {
autoApproveCidrs: ["192.168.1.0/24"],
},
},
},
}
This only applies to fresh role: node pairing requests with no requested
scopes. Operator, browser, Control UI, and WebChat clients still require manual
approval. Role, scope, metadata, and public-key changes still require manual
approval.
Node pairing state storage
Stored under ~/.openclaw/devices/:
pending.json(short-lived; pending requests expire)paired.json(paired devices + tokens)
Notes
- The legacy
node.pair.*API (CLI:openclaw nodes pending|approve|reject|remove|rename) is a separate gateway-owned pairing store. WS nodes still require device pairing. - The pairing record is the durable source of truth for approved roles. Active device tokens stay bounded to that approved role set; a stray token entry outside the approved roles does not create new access.