@labelbox/message-bus
v3.0.1
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Distributed messaging in Typescript
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ts-event-bus
Distributed messaging in Typescript
ts-event-bus
is a lightweight distributed messaging system. It allows several modules, potentially distributed over different runtime spaces to communicate through typed messages.
Getting started
Declare your events
Using ts-event-bus
starts with the declaration of the interface that your components share:
// MyEvents.ts
import { slot, Slot } from 'ts-event-bus'
const MyEvents = {
sayHello: slot<string>(),
getTime: slot<null, string>(),
multiply: slot<{a: number, b: number}, number>(),
ping: slot<void>(),
}
export default MyEvents
Create EventBus
Your components will then instantiate an event bus based on this declaration, using whatever channel they may want to communicate on.
If you specify no Channel
, it means that you will exchange events in the same memory space.
For instance, one could connect two node processes over WebSocket:
// firstModule.EventBus.ts
import { createEventBus } from 'ts-event-bus'
import MyEvents from './MyEvents.ts'
import MyBasicWebSocketClientChannel from './MyBasicWebSocketClientChannel.ts'
const EventBus = createEventBus({
events: MyEvents,
channels: [ new MyBasicWebSocketClientChannel('ws://your_host') ]
})
export default EventBus
// secondModule.EventBus.ts
import { createEventBus } from 'ts-event-bus'
import MyEvents from './MyEvents.ts'
import MyBasicWebSocketServerChannel from './MyBasicWebSocketServerChannel.ts'
const EventBus = createEventBus({
events: MyEvents,
channels: [ new MyBasicWebSocketServerChannel('ws://your_host') ]
})
Usage
Once connected, the clients can start by using the slots on the event bus
// firstModule.ts
import EventBus from './firstModule.EventBus.ts'
// Slots can be called with a parameter, here 'michel'
EventBus.say('michel', 'Hello')
// Or one can rely on the default parameter: here DEFAULT_PARAMETER
// is implicitely used.
EventBus.say('Hello')
// Triggering an event always returns a promise
EventBus.say('michel', 'Hello').then(() => {
...
})
EventBus.getTime().then((time) => {
...
})
EventBus.multiply({a: 2, b: 5 }).then((result) => {
...
})
EventBus.ping()
// secondModule.ts
import EventBus from './secondModule.EventBus.ts'
// Add a listener on the default parameter
EventBus.ping.on(() => {
console.log('pong')
})
// Or listen to a specific parameter
EventBus.say.on('michel', (words) => {
console.log('michel said', words)
})
// Event subscribers can respond to the event synchronously (by returning a value)
EventBus.getTime.on(() => new Date().toString)
// Or asynchronously (by returning a Promise that resolves with the value).
EventBus.multiply.on(({ a, b }) => new Promise((resolve, reject) => {
AsynchronousMultiplier(a, b, (err, result) => {
if (err) {
return reject(err)
}
resolve(result)
})
}))
Calls and subscriptions on slots are typechecked
EventBus.multiply({a: 1, c: 2}) // Compile error: property 'c' does not exist on type {a: number, b: number}
EventBus.multiply.on(({a, b}) => {
if (a.length > 2) { // Compile error: property 'length' does not exist on type 'number'
...
}
})
Lazy callbacks
Slots expose a lazy
method that will allow you to call a "connect" callback when a first
client connects to the slot, and a "disconnect" callback when the last client disconnect.
Remote or local clients are considered equally. If a client was already connected to the slot
at the time when lazy
is called, the "connect" callback is called immediately.
const connect = (param) => {
console.log(`Someone somewhere has begun listening to the slot with .on on ${param}.`)
}
const disconnect = (param) => {
console.log(`No one is listening to the slot anymore on ${param}.`)
}
const disconnectLazy = EventBus.ping.lazy(connect, disconnect)
const unsubscribe = EventBus.ping().on(() => { })
// console output: 'Someone somewhere has begun listening to the slot with .on on $_DEFAULT_$.'
unsubscribe()
// console output: 'No one is listening to the slot anymore on $_DEFAULT_$.'
const unsubscribe = EventBus.ping().on('parameter', () => { })
// console output: 'Someone somewhere has begun listening to the slot with .on on parameter.'
unsubscribe()
// console output: 'No one is listening to the slot anymore on parameter.'
// Remove the callbacks.
// "disconnect" is called one last time if there were subscribers left on the slot.
disconnectLazy()
Buffering
When the eventBus is created with channels, slots will wait for all transports to have registered callbacks before triggering.
This buffering mechanism can be disabled at the slot level with the noBuffer
config option:
const MyEvents = {
willWait: slot<string>(),
wontWait: slot<string>({ noBuffer: true }),
}
Syntactic sugar
You can combine events from different sources.
import { combineEvents } from 'ts-event-bus'
import MyEvents from './MyEvents.ts'
import MyOtherEvents from './MyOtherEvents.ts'
const MyCombinedEvents = combineEvents(
MyEvents,
MyOtherEvents,
)
export default MyCombinedEvents
Using and Implementing Channels
ts-event-bus
comes with an abstract class GenericChannel.
To implement your own channel create a new class extending GenericChannel
, and call the method given by the abstract class: _connected()
, _disconnected()
, _error(e: Error)
and _messageReceived(data: any)
.
Basic WebSocket Channel example:
import { GenericChannel } from 'ts-event-bus'
export class MyBasicWebSocketChannel extends GenericChannel {
private _ws: WebSocket | null = null
private _host: string
constructor(host: string) {
super()
this._host = host
this._init()
}
private _init(): void {
const ws = new WebSocket(this._host)
ws.onopen = (e: Event) => {
this._connected()
this._ws = ws
}
ws.onerror = (e: Event) => {
this._ws = null
this._error(e)
this._disconnected()
setTimeout(() => {
this._init()
}, 2000)
}
ws.onclose = (e: CloseEvent) => {
if (ws === this._ws) {
this._ws = null
this._disconnected()
this._init()
}
}
ws.onmessage = (e: MessageEvent) => {
this._messageReceived(e.data)
}
}
}