Ably Chat is a set of purpose-built APIs for a host of chat features enabling you to create 1:1, 1:Many, Many:1 and Many:Many chat rooms for any scale. It is designed to meet a wide range of chat use cases, such as livestreams, in-game communication, customer support, or social interactions in SaaS products. Built on Ably's core service, it abstracts complex details to enable efficient chat architectures.
Important
This SDK is currently under development. If you are interested in being an early adopter and providing feedback then you can sign up to the private beta and are welcome to provide us with feedback. Coming soon: chat moderation, editing and deleting messages.
Get started using the 📚 documentation and 🚀check out the live demo, or 📘 browse the API reference.
This SDK supports the following platforms:
Browsers: All major desktop and mobile browsers, including (but not limited to) Chrome, Firefox, Edge, Safari on iOS and macOS, Opera, and Android browsers. Internet Explorer is not supported.
Node.js: Version 20.x or newer.
Typescript: This library is written in TypeScript and has full TypeScript support.
React: The library ships with a number of providers and hooks for React, which provide a closer integration with that ecosystem. For more information on using Ably Chat in React, see the React readme.
React Native We aim to support all platforms supported by React Native. If you find any issues please raise an issue or contact us.
This project is under development so we will be incrementally adding new features. At this stage, you'll find APIs for the following chat features:
- Chat rooms for 1:1, 1:many, many:1 and many:many participation.
- Sending and receiving chat messages.
- Online status aka presence of chat participants.
- Chat room occupancy, i.e total number of connections and presence members.
- Typing indicators
- Room-level reactions (ephemeral at this stage)
If there are other features you'd like us to prioritize, please let us know.
You will need the following prerequisites:
- An Ably account
- You can sign up to the generous free tier.
- An Ably API key
- Use the default or create a new API key in an app within your Ably account dashboard.
- Make sure your API key has the
following capabilities:
publish
,subscribe
,presence
,history
andchannel-metadata
.
Install the Chat SDK:
npm install @ably/chat
For browsers, you can also include the Chat SDK directly into your HTML:
<!-- Ably Chat also requires the core Ably SDK to be available -->
<script src="https://cdn.ably.com/lib/ably.min-2.js"></script>
<script src="https://cdn.ably.com/lib/ably-chat.umd.cjs-0.js"></script>
<script>
const realtime = new Ably.Realtime({ key: 'your-ably-key' });
const chatClient = new AblyChat.ChatClient(realtime);
</script>
Important
If you're using Chat in React Native, please see the additional setup step here.
The Ably client library follows Semantic Versioning. To lock into a major or minor version of the client library, you can specify a specific version number such as https://cdn.ably.com/lib/ably-chat-0.js for all v0._ versions, or https://cdn.ably.com/lib/ably-chat-0.1.js for all v0.1._ versions, or you can lock into a single release with https://cdn.ably.com/lib/ably-chat-0.1.0.js. See https://github.com/ably/ably-chat-js/tags for a list of tagged releases.
To instantiate the Chat SDK, create an Ably client and pass it into the Chat constructor:
import { ChatClient } from '@ably/chat';
import * as Ably from 'ably';
const ably = new Ably.Realtime({ key: '<API-key>', clientId: '<client-ID>' });
const chat = new ChatClient(ably);
You can use basic authentication i.e. the API Key directly for testing purposes, however it is strongly recommended that you use token authentication in production environments.
To use Chat you must also set a clientId
so that clients are
identifiable. If you are prototyping, you can use a package like nanoid to
generate an ID.
The Chat SDK uses a single connection to Ably, which is exposed via the ChatClient.connection
property. You can use this
property to observe the connection state and take action accordingly.
You can view the current connection status at any time:
const connectionStatus = chat.connection.status;
const connectionError = chat.connection.error;
You can subscribe to connection status changes by registering a listener, like so:
const { off } = chat.connection.onStatusChange((change) => console.log(change));
To stop listening to changes, call the provided off
method:
off();
To remove all listeners at the same time, you can call offAllStatusChange
:
chat.connection.offAllStatusChange();
You can create or retrieve a chat room with name "basketball-stream"
this way:
const room = await chat.rooms.get('basketball-stream', { reactions: RoomOptionsDefaults.reactions });
The second argument to rooms.get
is a RoomOptions
argument, which tells the Chat SDK what features you would like your room to use and how they should be configured.
For example, you can set the timeout between keystrokes for typing events as part of the room options. Sensible defaults for each of the features are provided for your convenience:
- A typing timeout (time of inactivity before typing stops) of 5 seconds.
- Entry into, and subscription to, presence.
The defaults options for each feature may be viewed here.
In order to use the same room but with different options, you must first release
the room before requesting an instance with the changed options (see below for more information on releasing rooms).
Note that:
- If a
release
call is currently in progress for the room (see below), then a call toget
will wait for that to resolve before resolving itself. - If a
get
call is currently in progress for the room andrelease
is called, theget
call will reject.
To start receiving events on a room, it must first be attached. This can be done using the attach
method.
// Add a listener so it's ready at attach time (see below for more information on listeners)
room.messages.subscribe((msg) => console.log(msg));
await room.attach();
To stop receiving events on a room, it must be detached, which can be achieved by using the detach
method.
await room.detach();
Note: This does not remove any event listeners you have registered and they will begin to receive events again in the event that the room is re-attached.
Depending on your application, you may have multiple rooms that come and go over time (e.g. if you are running 1:1 support chat). When you are completely finished with a room, you may release
it which allows the underlying resources to be collected.
await rooms.release('basketball-stream');
Once release
is called, the room will become unusable and you will need to get a new instance using rooms.get
should you wish to re-start the room.
Note that releasing a room may be optional for many applications.
Monitoring the status of the room is key to a number of common chat features. For example, you might want to display a warning when the room has become detached.
To get the current status, you can use the status
property:
const roomStatus = room.status;
const roomError = room.error;
You can also subscribe to changes in the room status and be notified whenever they happen by registering a listener:
const { off } = room.onStatusChange((change) => console.log(change));
To stop listening to changes, you can call the provided off
function:
off();
Or you can remove all listeners at once:
room.offAllStatusChange();
There may be instances where the connection to Ably is lost for a period of time, for example, when the user enters a tunnel. In many circumstances, the connection will recover and operation will continue with no discontinuity of messages. However, during extended periods of disconnection, continuity cannot be guaranteed and you'll need to take steps to recover messages you might have missed.
Each feature of the Chat SDK provides an onDiscontinuity
handler. Here you can register a listener that will be notified whenever a discontinuity in that feature has been observed.
Taking messages as an example, you can listen for discontinuities like so:
const { off } = room.messages.onDiscontinuity((reason?: ErrorInfo) => {
// Recover from the discontinuity
});
You can then stop listening for discontinuities by calling the provided off
function.
To send a message, simply call send
on the room.messages
property, with the message you want to send.
const message = await room.messages.send({ text: 'This was a great shot!' });
Metadata is a map of extra information that can be attached to chat messages. metadata
is not used by Ably and is sent as part of the realtime message payload. Example use cases are setting custom styling (like background or text color or fonts), adding links to external images, emojis, etc.
Headers are a flat key-value map and are sent as part of the realtime message's extras
inside the headers
property. They can serve similar purposes as metadata
but they are read by Ably and can be used for things such as subscription filters.
To pass headers and/or metadata when sending a chat message:
const message = await room.messages.send({
text: 'This was a great shot!',
metadata: {
effect: {
name: 'fireworks',
fullScreen: true,
duration: 500,
},
},
headers: {
hasEffects: true,
},
});
To update an existing message, call update
on the room.messages
property, with the original message you want to update,
the updated fields, and optional operation details to provide extra context for the update.
The optional operation details are:
description
: a string that can be used to inform others as to why the message was updated.metadata
: a map of extra information that can be attached to the update operation.
Example
const updatedMessage = await room.messages.update(
message,
{
text: 'hello, this is edited',
},
{
description: 'edit example',
},
);
updatedMessage
is a Message object with all updates applied. As with sending and deleting, the promise may resolve after the updated message is received via the messages subscription.
A Message
that was updated will have values for updatedAt
and updatedBy
, and isUpdated()
will return true
.
Note that if you delete an updated message, it is no longer considered updated. Only the last operation takes effect.
Updated messages received from realtime have the action
parameter set to ChatMessageActions.MessageUpdate
, and the event received has the type
set to MessageEvents.Updated
. Updated messages are full copies of the message, meaning that all that is needed to keep a state or UI up to date is to replace the old message with the received one.
In rare occasions updates might arrive over realtime out of order. To keep a correct state, compare the version
lexicographically (string compare). Alternatively, the Message
interface provides convenience methods to compare two instances of the same base message to determine which version is newer: versionBefore()
, versionAfter()
, and versionEqual()
.
The same out-of-order situation can happen between updates received over realtime and HTTP responses. In the situation where two concurrent updates happen, both might be received via realtime before the HTTP response of the first one arrives. Always compare the message version
to determine which instance of a Message
is newer.
Example for handling updates:
const messages: Message[] = []; // assuming this is where state is kept
room.messages.subscribe((event) => {
switch (event.type) {
case MessageEvents.Updated: {
const serial = event.message.serial;
const index = messages.findIndex((m) => m.serial === serial);
if (index !== -1 && messages[index].version < event.message.version) {
messages[index] = event.message;
}
break;
}
// other event types (ie. created and updated) omitted
}
});
To delete a message, call delete
on the room.messages
property, with the original message you want to delete.
You can supply optional parameters to the delete
method to provide additional context for the deletion.
These additional parameters are:
description
: a string that can be used to inform others as to why the message was deleted.metadata
: a map of extra information that can be attached to the deletion message.
The return of this call will be the deleted message, as it would appear to other subscribers of the room. This is a soft delete and the message will still be available in the history.
Example
const deletedMessage = await room.messages.delete(message, {
description: 'This message was deleted for ...',
});
deletedMessage
is a Message object with the deletion applied. As with sending, the promise may resolve after the deletion message is received via the messages subscription.
A Message
that was deleted will have deletedAt
and deletedBy
fields set, and isDeleted()
will return true
.
Note that you can update deleted messages, which will effectively undo the deletion. Only the last operation on a message takes effect.
const { unsubscribe } = room.messages.subscribe((msg) => console.log(msg));
Deletion messages received from realtime have the action
parameter set to ChatMessageActions.MessageDelete
, and the event received has the type
set to MessageEvents.Deleted
.
Just like updates
, deletion
messages are also full copies of the message, meaning that all that is needed to keep a state or UI up to date is to replace the old message with the received one.
On rare occasions, deletes and updates might arrive over realtime out of order.
That is to say, should two concurrent actions happen in disparate regions, you will likely receive the action processed in the region closest to you first.
When the second action arrives, you will need to determine the order of these actions;
this is done by comparing their respective global orders, determined by the version
field of the message.
To keep a correct state, the Message
interface provides methods to compare two instances of the same base message to determine which action is newer:actionBefore()
, actionAfter()
, and actionEqual()
.
The same out-of-order situation can happen between deletions received over realtime and HTTP responses.
In the situation where two concurrent deletes happen, both might be received via realtime before the HTTP response of the first one arrives.
In short, always use actionAfter()
,
actionBefore()
, or actionEqual()
to determine the global ordering of two Message
actions.
Example for handling deletes:
const messages: Message[] = []; // assuming this is where state is kept
room.messages.subscribe((event) => {
switch (event.type) {
case MessageEvents.Deleted: {
const serial = event.message.serial;
const index = messages.findIndex((m) => m.serial === serial);
if (index !== -1 && messages[index].actionBefore(event.message)) {
messages[index] = event.message;
}
break;
}
// other event types (ie. created and updated) omitted
}
});
To subscribe to incoming messages, call subscribe
with your listener.
When you're done with the listener, call unsubscribe
to remove that listeners subscription and prevent it from receiving
any more events.
const { unsubscribe } = room.messages.subscribe((msg) => console.log(msg));
// Time passes...
unsubscribe();
You can remove all of your listeners in one go like so:
room.messages.unsubscribeAll();
The messages object also exposes the get
method which can be used to request historical messages in the chat room according
to the given criteria. It returns a paginated response that can be used to request more messages.
const historicalMessages = await room.messages.get({ orderBy: OrderBy.NewestFirst, limit: 50 });
console.log(historicalMessages.items);
if (historicalMessages.hasNext()) {
const next = await historicalMessages.next();
console.log(next);
} else {
console.log('End of messages');
}
In addition to being able to unsubscribe from messages, the return value from messages.subscribe
also includes the getPreviousMessages
method. It can be used to request
historical messages in the chat room that were sent up to the point a that particular listener was subscribed. It returns a
paginated response that can be used to request for more messages.
const { getPreviousMessages } = room.messages.subscribe(() => {
console.log('New message received');
});
const historicalMessages = await getPreviousMessages({ limit: 50 });
console.log(historicalMessages.items);
if (historicalMessages.hasNext()) {
const next = await historicalMessages.next();
console.log(next);
} else {
console.log('End of messages');
}
You can get the complete list of currently online or present members, their state and data, by calling the presence.get
method.
// Retrieve the entire list of present members
const presentMembers = await room.presence.get();
// You can supply a clientId to retrieve the presence of a specific member with the given clientId
const presentMember = await room.presence.get({ clientId: 'client-id' });
// You can call this to get a simple boolean value of whether a member is present or not
const isPresent = await room.presence.isUserPresent('client-id');
Calls to presence.get()
will return an array of the presence messages, where each message contains the most recent
data for a member.
To appear online for other users, you can enter the presence set of a chat room. While entering presence, you can provide optional data that will be associated with the presence message.
await room.presence.enter({ status: 'available' });
Updates allow you to make changes to the custom data associated with a present user. Common use-cases include updating the users' status or profile picture.
await room.presence.update({ status: 'busy' });
Ably automatically triggers a presence leave if a client goes offline. But you can also manually leave the presence set as a result of a UI action. While leaving presence, you can provide optional data that will be associated with the presence message.
await room.presence.leave({ status: 'Be back later!' });
You can provide a single listener, if so, the listener will be subscribed to receive all presence event types.
const { unsubscribe } = room.presence.subscribe((event: PresenceEvent) => {
switch (event.action) {
case 'enter':
console.log(`${event.clientId} entered with data: ${event.data}`);
break;
case 'leave':
console.log(`${event.clientId} left`);
break;
case 'update':
console.log(`${event.clientId} updated with data: ${event.data}`);
break;
}
});
You can also provide a specific event type or types to subscribe to along with a listener.
const { unsubscribe } = room.presence.subscribe('enter', (event: PresenceEvent) => {
console.log(`${event.clientId} entered with data: ${event.data}`);
});
const { unsubscribe } = room.presence.subscribe(['update', 'leave'], (event: PresenceEvent) => {
console.log(`${event.clientId} updated with data: ${event.data}`);
});
To unsubscribe a specific listener from presence events, you can call the unsubscribe
method provided in the response to the subscribe
call.
const { unsubscribe } = room.presence.subscribe((event: PresenceEvent) => {
// Handle events
});
// Unsubscribe
unsubscribe();
Similarly to messages, you can call presence.unsubscribeAll
to remove all listeners at once.
Typing events allow you to inform others that a client is typing and also subscribe to others' typing status.
You can get the complete set of the current typing clientId
s, by calling the typing.get
method.
// Retrieve the entire list of currently typing clients
const currentlyTypingClientIds = await room.typing.get();
To inform other users that you are typing, you can call the start method. This will begin a timer that will automatically stop typing after a set amount of time.
await room.typing.start();
Repeated calls to start will reset the timer, so the clients typing status will remain active.
await room.typing.start();
// Some short delay - still typing
await room.typing.start();
// Some short delay - still typing
await room.typing.start();
// Some long delay - timer expires, stopped typing event emitted and listeners are notified
You can immediately stop typing without waiting for the timer to expire.
await room.typing.start();
// Some short delay - timer not yet expired
await room.typing.stop();
// Timer cleared and stopped typing event emitted and listeners are notified
To subscribe to typing events, provide a listener to the subscribe
method.
const { unsubscribe } = room.typing.subscribe((event) => {
console.log('currently typing:', event.currentlyTyping);
});
To unsubscribe the listener, you can call the corresponding unsubscribe
method returned by the subscribe
call:
const { unsubscribe } = room.typing.subscribe((event) => {
console.log(event);
});
// Time passes
unsubscribe();
You can remove all listeners at once by calling typing.unsubscribeAll()
.
Occupancy tells you how many users are connected to the chat room.
To subscribe to occupancy updates, subscribe a listener to the chat rooms occupancy
member:
const { unsubscribe } = room.occupancy.subscribe((event) => {
console.log(event);
});
To unsubscribe, call the corresponding unsubscribe
method:
const { unsubscribe } = room.occupancy.subscribe((event) => {
console.log(event);
});
// Time passes...
unsubscribe();
You can remove all listeners at once by calling occupancy.unsubscribeAll()
.
Occupancy updates are delivered in near-real-time, with updates in quick succession batched together for performance.
You can request the current occupancy of a chat room using the occupancy.get
method:
const occupancy = await room.occupancy.get();
You can subscribe to and send ephemeral room-level reactions by using the room.reactions
objects.
To send room-level reactions, you must be attached to the room.
To send a reaction such as "like"
:
await room.reactions.send({ type: 'like' });
You can also add any metadata and headers to reactions:
await room.reactions.send({
type: 'like',
metadata: { effect: 'fireworks' },
headers: { streamId: 'basketball-stream' },
});
Subscribe to receive room-level reactions:
const { unsubscribe } = room.reactions.subscribe((reaction) => {
console.log('received a', reaction.type, 'with metadata', reaction.metadata);
});
To unsubscribe, call the corresponding unsubscribe
method:
const { unsubscribe } = room.reactions.subscribe((reaction) => {
console.log('received a', reaction.type, 'with metadata', reaction.metadata);
});
// Time passes...
unsubscribe();
You can remove all listeners at once by calling reactions.unsubscribeAll()
.
If you have set up an Ably integration to receive events from your chat room, depending on your configuration, you may receive these as encoded objects. See here for more information. Should you wish to convert this object to a chat type, you can use the functions below to help you.
For example, if you have the following item reach your integration:
{
"items": [
{
"webhookId": "Ja-tsg",
"source": "channel.message",
"serial": "108iZpUxQBe4Vv35120919@1720954404104-0",
"timestamp": 1720954404104,
"name": "channel.message",
"data": {
"channelId": "some-room::$chat::$chatMessages",
"site": "eu-west-1-A",
"messages": [
{
"id": "chat:6TP2sA:some-room:a4534b0ab37bdd5:0",
"clientId": "user1",
"timestamp": 1720954404104,
"serial": "108iZpUxQBe4Vv35120919@1720954404104-0",
"action": 1,
"encoding": "json",
"extras": {
"headers": {}
},
"data": "{\"text\":\"some text data\",\"metadata\":{}}",
"name": "chat.message"
}
]
}
}
]
}
You should use getEntityTypeFromEncoded
to first retrieve the chat entity type of the encoded message,
then call either chatMessageFromEncoded
or reactionFromEncoded
depending on the entity type.
import { getEntityTypeFromEncoded, chatMessageFromEncoded, reactionFromEncoded, ChatEntityType } from '@ably/chat';
integrationMessage.items.forEach((item) => {
item.data.messages.forEach(async (encodedMessage) => {
const entityType = getEntityTypeFromEncoded(encodedMessage);
switch (entityType) {
case ChatEntityType.ChatMessage:
const chatMessage = await chatMessageFromEncoded(encodedMessage);
console.log(chatMessage);
break;
case ChatEntityType.Reaction:
const reaction = await reactionFromEncoded(encodedMessage);
console.log(reaction);
break;
default:
console.log('Unknown entity type');
}
});
});
If you are working with the underlying channels directly and not using the Chat SDK, you can use these functions to
convert an inbound Ably message to a chat type.
You can use getEntityTypeFromAblyMessage
to retrieve the chat entity type of the message,
then call either chatMessageFromAblyMessage
or reactionFromAblyMessage
depending on the entity type.
import * as Ably from 'ably';
import {
getEntityTypeFromAblyMessage,
chatMessageFromAblyMessage,
reactionFromAblyMessage,
ChatEntityType,
} from '@ably/chat';
const entityType = getEntityTypeFromAblyMessage(inboundMessage as Ably.InboundMessage);
switch (entityType) {
case ChatEntityType.ChatMessage:
const chatMessage = chatMessageFromAblyMessage(inboundMessage as Ably.InboundMessage);
console.log(chatMessage);
break;
case ChatEntityType.Reaction:
const reaction = reactionFromAblyMessage(inboundMessage as Ably.InboundMessage);
console.log(reaction);
break;
default:
console.log('Unknown entity type');
}
It might be useful to know that each feature is backed by an underlying Pub/Sub channel. You can use this information to enable interoperability with other platforms by subscribing to the channels directly using the Ably Pub/Sub SDKs for those platforms.
The channel for each feature can be obtained via the channel
property
on that feature.
const messagesChannel = room.messages.channel;
Warning: You should not attempt to change the state of a channel directly. Doing so may cause unintended side-effects in the Chat SDK.
For a given chat room, the channels used for features are as follows:
Feature | Channel |
---|---|
Messages | <roomId>::$chat::$chatMessages |
Presence | <roomId>::$chat::$chatMessages |
Occupancy | <roomId>::$chat::$chatMessages |
Reactions | <roomId>::$chat::$reactions |
Typing | <roomId>::$chat::$typingIndicators |
For guidance on how to contribute to this project, see the contributing guidelines.
Please visit http://support.ably.com/ for access to our knowledge base and to ask for any assistance. You can also view the community reported Github issues or raise one yourself.
To see what has changed in recent versions, see the changelog.
- See a simple chat example in this repo.
- Play with the livestream chat demo.
- Sign up to the private beta and get started.
- Share feedback or request a new feature.