This package provides modules to implement AnyCable backend APIs to be executed in serverless Node.js environments. (Works with serverful apps, too, of course.)
See our demo application for a working example.
This package provides functionality to work with AnyCable server from a JS/TS backend applications and includes support for the following features:
The package also comes with HTTP handlers to handle AnyCable RPC-over-HTTP requests and provides channels and application abstractions to describe real-time features of your application.
Install the @anycable/serverless-js
package using your tool of choice, e.g.:
npm install @anycable/serverless-js
AnyCable JWT is a recommended way to authenticate your clients. To get started, you can use the identificator object and generate auth tokens with it:
import { identificator } from "@anycable/serverless-js";
const jwtSecret = "very-secret";
const jwtTTL = "1h";
export const identifier = identificator(jwtSecret, jwtTTL);
// Then, somewhere in your code, generate a token and provide it to the client
const userId = authenticatedUser.id;
const token = await identifier.generateToken({ userId });
const cableURL = `${CABLE_URL}?jid=${token}`
You can pass any identification information to the token. It can be later used in channels (see below).
You can create a signer instance to generate signed streams names and use them with AnyCable pub/sub:
import { signer } from "@anycable/serverless-js";
const streamsSecret = process.env.ANYCABLE_STREAMS_SECRET;
const sign = signer(secret);
const signedStreamName = sign("room/13");
Then, you can use the generated stream name with your client (using AnyCable JS client SDK):
import { createCable } from "@anycable/web";
const cable = createCable(WEBSOCKET_URL);
const stream = await fetchStreamForRoom("13");
const channel = cable.streamFromSigned(stream);
channel.on("message", (msg) => {
// handle notification
})
To broadcast messages to connected clients, you must use a broadcaster instance:
import { broadcaster } from "@anycable/serverless-js";
// Broadcasting configuration
const broadcastURL =
process.env.ANYCABLE_BROADCAST_URL || "http://127.0.0.1:8090/_broadcast";
const broadcastToken = process.env.ANYCABLE_HTTP_BROADCAST_SECRET || "";
// Create a broadcasting function to send broadcast messages via HTTP API
export const broadcastTo = broadcaster(broadcastURL, broadcastToken);
Currently, this package only supports broadcasting over HTTP. However, AnyCable provides different broadcasting adapters (e.g., Redis, NATS, etc.) that you can integrate yourself.
An application instance is responsible for handling the connection lifecycle and dispatching messages to the appropriate channels.
// api/cable.ts
import {
Application,
ConnectionHandle,
broadcaster,
} from "@anycable/serverless-js";
// Some custom authentication logic
import { verifyToken } from "./auth";
// The identifiers type describe connection identifiers—e.g., user ID, username, etc.
export type CableIdentifiers = {
userId: string;
};
// Application instance handles connection lifecycle events
class CableApplication extends Application<CableIdentifiers> {
// IMPORTANT: When using AnyCable JWT, you don't need to define
// the connect() callback, authentication doesn't hit your server
async connect(handle: ConnectionHandle<CableIdentifiers>) {
const url = handle.env.url;
const params = new URL(url).searchParams;
if (params.has("token")) {
const payload = await verifyToken(params.get("token")!);
if (payload) {
const { userId } = payload;
handle.identifiedBy({ userId });
}
return;
}
// Reject connection if not authenticated
handle.reject();
}
async disconnect(handle: ConnectionHandle<CableIdentifiers>) {
// Here you can perform any cleanup work
console.log(`User ${handle.identifiers!.userId} disconnected`);
}
}
// Create and instance of the class to use in HTTP handlers (see the next section)
const app = new CableApplication();
// Register channels (see below)
export default app;
Channels instances reflect particular features (e.g, chat room, notifications, etc.) and are responsible for handling incoming commands and subscription lifecycle events:
import { Channel, ChannelHandle } from "@anycable/serverless-js";
// We re-using the identifiers type from the cable application
import type { CableIdentifiers } from "../cable";
// Define the channel params (used by the client according to Action Cable protocol)
type ChatChannelParams = {
roomId: string;
};
export type ChatMessage = {
id: string;
username: string;
body: string;
createdAt: string;
};
export default class ChatChannel
extends Channel<CableIdentifiers, ChatChannelParams, ChatMessage>
{
// The `subscribed` method is called when the client subscribes to the channel
// You can use it to authorize the subscription and setup streaming
async subscribed(
handle: ChannelHandle<CableIdentifiers>,
params: ChatChannelParams | null,
) {
if (!params) {
handle.reject();
return;
}
if (!params.roomId) {
handle.reject();
return;
}
handle.streamFrom(`room:${params.roomId}`);
}
// This method is called by the client
async sendMessage(
handle: ChannelHandle<CableIdentifiers>,
params: ChatChannelParams,
data: SentMessage,
) {
const { body } = data;
if (!body) {
throw new Error("Body is required");
}
console.log(
`User ${handle.identifiers!.username} sent message: ${data.body}`,
);
const message: ChatMessage = {
id: Math.random().toString(36).substr(2, 9),
username: handle.identifiers!.username,
body,
createdAt: new Date().toISOString(),
};
// Broadcast the message to all subscribers (see below)
await broadcastTo(`room:${params.roomId}`, message);
}
}
// You MUST register a channel instance within the application
// The client MUST use the provided identifier to subscribe to the channel.
app.registerChannel("chat", new ChatChannel());
To glue our HTTP layer with the channels, we need to configure HTTP handlers. Below you can find an examples for popular serverless platforms.
Define Vercel serverless functions as follows:
// api/anycable/connect/route.ts
import { NextResponse } from "next/server";
import { connectHandler, Status } from "@anycable/serverless-js";
import app from "../../cable";
export async function POST(request: Request) {
try {
const response = await connectHandler(request, app);
return NextResponse.json(response, {
status: 200,
});
} catch (e) {
console.error(e);
return NextResponse.json({
status: Status.ERROR,
error_msg: "Server error",
});
}
}
// api/anycable/command/route.ts
import { NextResponse } from "next/server";
import { commandHandler, Status } from "@anycable/serverless-js";
import app from "../../cable";
export async function POST(request: Request) {
try {
const response = await commandHandler(request, app);
return NextResponse.json(response, {
status: 200,
});
} catch (e) {
console.error(e);
return NextResponse.json({
status: Status.ERROR,
error_msg: "Server error",
});
}
}
// api/anycable/disconnect/route.ts
import { NextResponse } from "next/server";
import { disconnectHandler, Status } from "@anycable/serverless-js";
import app from "../../cable";
export async function POST(request: Request) {
try {
const response = await disconnectHandler(request, app);
return NextResponse.json(response, {
status: 200,
});
} catch (e) {
console.error(e);
return NextResponse.json({
status: Status.ERROR,
error_msg: "Server error",
});
}
}
You can also avoid repeatition by using a universal handler and a bit of configuration:
// next.config.js
const nextConfig = {
// ...
rewrites: async () => {
return [
{
source: "/api/anycable/:path*",
destination: "/api/anycable",
},
];
},
};
// ...
And then you can use the following handler:
// api/anycable/route.ts
import { NextResponse } from "next/server";
import { handler, Status } from "@anycable/serverless-js";
import app from "../../cable";
export async function POST(request: Request) {
try {
const response = await handler(request, app);
return NextResponse.json(response, {
status: 200,
});
} catch (e) {
console.error(e);
return NextResponse.json({
status: Status.ERROR,
error_msg: "Server error",
});
}
}