TypeBox

TypeBox is a TypeScript-first schema library. We use it to define the Gateway WebSocket protocol (handshake, request/response, server events). Those schemas drive runtime validation, JSON Schema export, and Swift codegen for the macOS app. One source of truth; everything else is generated.

If you want the higher-level protocol context, start with Gateway architecture.

Mental model (30 seconds)

Every Gateway WS message is one of three frames:

• Request: { type: "req", id, method, params }
• Response: { type: "res", id, ok, payload | error }
• Event: { type: "event", event, payload, seq?, stateVersion? }

The first frame must be a connect request. After that, clients can call methods (e.g. health, send, chat.send) and subscribe to events (e.g. presence, tick, agent).

Connection flow (minimal):

Client                    Gateway  |---- req:connect -------->|  |<---- res:hello-ok --------|  |<---- event:tick ----------|  |---- req:health ---------->|  |<---- res:health ----------|

Common methods + events:

Authoritative advertised discovery inventory lives in src/gateway/server-methods-list.ts (listGatewayMethods, GATEWAY_EVENTS).

Where the schemas live

• Source: src/gateway/protocol/schema.ts
• Runtime validators (AJV): src/gateway/protocol/index.ts
• Advertised feature/discovery registry: src/gateway/server-methods-list.ts
• Server handshake + method dispatch: src/gateway/server.impl.ts
• Node client: src/gateway/client.ts
• Generated JSON Schema: dist/protocol.schema.json
• Generated Swift models: apps/macos/Sources/OpenClawProtocol/GatewayModels.swift

Current pipeline

• pnpm protocol:gen
  • writes JSON Schema (draft-07) to dist/protocol.schema.json
• pnpm protocol:gen:swift
  • generates Swift gateway models
• pnpm protocol:check
  • runs both generators and verifies the output is committed

How the schemas are used at runtime

• Server side: every inbound frame is validated with AJV. The handshake only accepts a connect request whose params match ConnectParams.
• Client side: the JS client validates event and response frames before using them.
• Feature discovery: the Gateway sends a conservative features.methods and features.events list in hello-ok from listGatewayMethods() and GATEWAY_EVENTS.
• That discovery list is not a generated dump of every callable helper in coreGatewayHandlers; some helper RPCs are implemented in src/gateway/server-methods/*.ts without being enumerated in the advertised feature list.

Example frames

Connect (first message):

{  "type": "req",  "id": "c1",  "method": "connect",  "params": {    "minProtocol": 3,    "maxProtocol": 4,    "client": {      "id": "openclaw-macos",      "displayName": "macos",      "version": "1.0.0",      "platform": "macos 15.1",      "mode": "ui",      "instanceId": "A1B2"    }  }}

Hello-ok response:

{  "type": "res",  "id": "c1",  "ok": true,  "payload": {    "type": "hello-ok",    "protocol": 4,    "server": { "version": "dev", "connId": "ws-1" },    "features": { "methods": ["health"], "events": ["tick"] },    "snapshot": {      "presence": [],      "health": {},      "stateVersion": { "presence": 0, "health": 0 },      "uptimeMs": 0    },    "policy": { "maxPayload": 1048576, "maxBufferedBytes": 1048576, "tickIntervalMs": 30000 }  }}

Request + response:

{ "type": "req", "id": "r1", "method": "health" }

{ "type": "res", "id": "r1", "ok": true, "payload": { "ok": true } }

Event:

{ "type": "event", "event": "tick", "payload": { "ts": 1730000000 }, "seq": 12 }

Minimal client (Node.js)

Smallest useful flow: connect + health.

 const ws = new WebSocket("ws://127.0.0.1:18789"); ws.on("open", () => {  ws.send(    JSON.stringify({      type: "req",      id: "c1",      method: "connect",      params: {        minProtocol: 4,        maxProtocol: 4,        client: {          id: "cli",          displayName: "example",          version: "dev",          platform: "node",          mode: "cli",        },      },    }),  );}); ws.on("message", (data) => {  const msg = JSON.parse(String(data));  if (msg.type === "res" && msg.id === "c1" && msg.ok) {    ws.send(JSON.stringify({ type: "req", id: "h1", method: "health" }));  }  if (msg.type === "res" && msg.id === "h1") {    console.log("health:", msg.payload);    ws.close();  }});

Worked example: add a method end-to-end

Example: add a new system.echo request that returns { ok: true, text }.

1. Schema (source of truth)

Add to src/gateway/protocol/schema.ts:

export const SystemEchoParamsSchema = Type.Object(  { text: NonEmptyString },  { additionalProperties: false },); export const SystemEchoResultSchema = Type.Object(  { ok: Type.Boolean(), text: NonEmptyString },  { additionalProperties: false },);

Add both to ProtocolSchemas and export types:

  SystemEchoParams: SystemEchoParamsSchema,  SystemEchoResult: SystemEchoResultSchema,

export type SystemEchoParams = Static<typeof SystemEchoParamsSchema>;export type SystemEchoResult = Static<typeof SystemEchoResultSchema>;

2. Validation

In src/gateway/protocol/index.ts, export an AJV validator:

export const validateSystemEchoParams = ajv.compile<SystemEchoParams>(SystemEchoParamsSchema);

3. Server behavior

Add a handler in src/gateway/server-methods/system.ts:

export const systemHandlers: GatewayRequestHandlers = {  "system.echo": ({ params, respond }) => {    const text = String(params.text ?? "");    respond(true, { ok: true, text });  },};

Register it in src/gateway/server-methods.ts (already merges systemHandlers), then add "system.echo" to listGatewayMethods input in src/gateway/server-methods-list.ts.

If the method is callable by operator or node clients, also classify it in src/gateway/method-scopes.ts so scope enforcement and hello-ok feature advertising stay aligned.

4. Regenerate

pnpm protocol:check

5. Tests + docs

Add a server test in src/gateway/server.*.test.ts and note the method in docs.

Swift codegen behavior

The Swift generator emits:

• GatewayFrame enum with req, res, event, and unknown cases
• Strongly typed payload structs/enums
• ErrorCode values, GATEWAY_PROTOCOL_VERSION, and GATEWAY_MIN_PROTOCOL_VERSION

Unknown frame types are preserved as raw payloads for forward compatibility.

Versioning + compatibility

• PROTOCOL_VERSION lives in src/gateway/protocol/version.ts.
• Clients send minProtocol + maxProtocol; the server rejects ranges that do not include its current protocol.
• The Swift models keep unknown frame types to avoid breaking older clients.

Schema patterns and conventions

• Most objects use additionalProperties: false for strict payloads.
• NonEmptyString is the default for IDs and method/event names.
• The top-level GatewayFrame uses a discriminator on type.
• Methods with side effects usually require an idempotencyKey in params (example: send, poll, agent, chat.send).
• agent accepts optional internalEvents for runtime-generated orchestration context (for example subagent/cron task completion handoff); treat this as internal API surface.

Live schema JSON

Generated JSON Schema is in the repo at dist/protocol.schema.json. The published raw file is typically available at:

• https://raw.githubusercontent.com/openclaw/openclaw/main/dist/protocol.schema.json

When you change schemas

1. Update the TypeBox schemas.
2. Register the method/event in src/gateway/server-methods-list.ts.
3. Update src/gateway/method-scopes.ts when the new RPC needs operator or node scope classification.
4. Run pnpm protocol:check.
5. Commit the regenerated schema + Swift models.

Related

• Rich output protocol
• RPC adapters