This is the Matrix Client-Server SDK for JavaScript and TypeScript. This SDK can be run in a browser or in Node.js.
The Matrix specification is constantly evolving - while this SDK aims for maximum backwards compatibility, it only guarantees that a feature will be supported for at least 4 spec releases. For example, if a feature the js-sdk supports is removed in v1.4 then the feature is eligible for removal from the SDK when v1.8 is released. This SDK has no guarantee on implementing all features of any particular spec release, currently. This can mean that the SDK will call endpoints from before Matrix 1.1, for example.
Download the browser version from
https://github.com/matrix-org/matrix-js-sdk/releases/latest and add that as a
<script>
to your page. There will be a global variable matrixcs
attached to window
through which you can access the SDK. See below for how to
include libolm to enable end-to-end-encryption.
The browser bundle supports recent versions of browsers. Typically this is ES2015
or > 0.5%, last 2 versions, Firefox ESR, not dead
if using
browserlists.
Please check the working browser example for more information.
Ensure you have the latest LTS version of Node.js installed.
This library relies on fetch
which is available in Node from v18.0.0 - it should work fine also with polyfills.
If you wish to use a ponyfill or adapter of some sort then pass it as fetchFn
to the MatrixClient constructor options.
Using yarn
instead of npm
is recommended. Please see the Yarn install guide
if you do not have it already.
yarn add matrix-js-sdk
import * as sdk from "matrix-js-sdk";
const client = sdk.createClient({ baseUrl: "https://matrix.org" });
client.publicRooms(function (err, data) {
console.log("Public Rooms: %s", JSON.stringify(data));
});
See below for how to include libolm to enable end-to-end-encryption. Please check the Node.js terminal app for a more complex example.
You can also use the sdk with Deno (import npm:matrix-js-sdk
) but its not officialy supported.
To start the client:
await client.startClient({ initialSyncLimit: 10 });
You can perform a call to /sync
to get the current state of the client:
client.once("sync", function (state, prevState, res) {
if (state === "PREPARED") {
console.log("prepared");
} else {
console.log(state);
process.exit(1);
}
});
To send a message:
const content = {
body: "message text",
msgtype: "m.text",
};
client.sendEvent("roomId", "m.room.message", content, "", (err, res) => {
console.log(err);
});
To listen for message events:
client.on("Room.timeline", function (event, room, toStartOfTimeline) {
if (event.getType() !== "m.room.message") {
return; // only use messages
}
console.log(event.event.content.body);
});
By default, the matrix-js-sdk
client uses the MemoryStore
to store events as they are received. For example to iterate through the currently stored timeline for a room:
Object.keys(client.store.rooms).forEach((roomId) => {
client.getRoom(roomId).timeline.forEach((t) => {
console.log(t.event);
});
});
This SDK provides a full object model around the Matrix Client-Server API and emits events for incoming data and state changes. Aside from wrapping the HTTP API, it:
- Handles syncing (via
/initialSync
and/events
) - Handles the generation of "friendly" room and member names.
- Handles historical
RoomMember
information (e.g. display names). - Manages room member state across multiple events (e.g. it handles typing, power levels and membership changes).
- Exposes high-level objects like
Rooms
,RoomState
,RoomMembers
andUsers
which can be listened to for things like name changes, new messages, membership changes, presence changes, and more. - Handle "local echo" of messages sent using the SDK. This means that messages that have just been sent will appear in the timeline as 'sending', until it completes. This is beneficial because it prevents there being a gap between hitting the send button and having the "remote echo" arrive.
- Mark messages which failed to send as not sent.
- Automatically retry requests to send messages due to network errors.
- Automatically retry requests to send messages due to rate limiting errors.
- Handle queueing of messages.
- Handles pagination.
- Handle assigning push actions for events.
- Handles room initial sync on accepting invites.
- Handles WebRTC calling.
Later versions of the SDK will:
- Expose a
RoomSummary
which would be suitable for a recents page. - Provide different pluggable storage layers (e.g. local storage, database-backed)
The SDK will emit events using an EventEmitter
. It also
emits object models (e.g. Rooms
, RoomMembers
) when they
are updated.
// Listen for low-level MatrixEvents
client.on("event", function (event) {
console.log(event.getType());
});
// Listen for typing changes
client.on("RoomMember.typing", function (event, member) {
if (member.typing) {
console.log(member.name + " is typing...");
} else {
console.log(member.name + " stopped typing.");
}
});
// start the client to setup the connection to the server
client.startClient();
Most of the methods in the SDK are asynchronous: they do not directly return a result, but instead return a Promise which will be fulfilled in the future.
The typical usage is something like:
matrixClient.someMethod(arg1, arg2).then(function(result) {
...
});
Alternatively, if you have a Node.js-style callback(err, result)
function,
you can pass the result of the promise into it with something like:
matrixClient.someMethod(arg1, arg2).nodeify(callback);
The main thing to note is that it is problematic to discard the result of a promise-returning function, as that will cause exceptions to go unobserved.
Methods which return a promise show this in their documentation.
Many methods in the SDK support both Node.js-style callbacks and Promises,
via an optional callback
argument. The callback support is now deprecated:
new methods do not include a callback
argument, and in the future it may be
removed from existing methods.
This section provides some useful code snippets which demonstrate the core functionality of the SDK. These examples assume the SDK is setup like this:
import * as sdk from "matrix-js-sdk";
const myUserId = "@example:localhost";
const myAccessToken = "QGV4YW1wbGU6bG9jYWxob3N0.qPEvLuYfNBjxikiCjP";
const matrixClient = sdk.createClient({
baseUrl: "http://localhost:8008",
accessToken: myAccessToken,
userId: myUserId,
});
matrixClient.on("RoomMember.membership", function (event, member) {
if (member.membership === "invite" && member.userId === myUserId) {
matrixClient.joinRoom(member.roomId).then(function () {
console.log("Auto-joined %s", member.roomId);
});
}
});
matrixClient.startClient();
matrixClient.on("Room.timeline", function (event, room, toStartOfTimeline) {
if (toStartOfTimeline) {
return; // don't print paginated results
}
if (event.getType() !== "m.room.message") {
return; // only print messages
}
console.log(
// the room name will update with m.room.name events automatically
"(%s) %s :: %s",
room.name,
event.getSender(),
event.getContent().body,
);
});
matrixClient.startClient();
Output:
(My Room) @megan:localhost :: Hello world
(My Room) @megan:localhost :: how are you?
(My Room) @example:localhost :: I am good
(My Room) @example:localhost :: change the room name
(My New Room) @megan:localhost :: done
matrixClient.on("RoomState.members", function (event, state, member) {
const room = matrixClient.getRoom(state.roomId);
if (!room) {
return;
}
const memberList = state.getMembers();
console.log(room.name);
console.log(Array(room.name.length + 1).join("=")); // underline
for (var i = 0; i < memberList.length; i++) {
console.log("(%s) %s", memberList[i].membership, memberList[i].name);
}
});
matrixClient.startClient();
Output:
My Room
=======
(join) @example:localhost
(leave) @alice:localhost
(join) Bob
(invite) @charlie:localhost
A hosted reference can be found at http://matrix-org.github.io/matrix-js-sdk/index.html
This SDK uses Typedoc doc comments. You can manually build and host the API reference from the source files like this:
$ yarn gendoc
$ cd _docs
$ python -m http.server 8005
Then visit http://localhost:8005
to see the API docs.
The SDK supports end-to-end encryption via the Olm and Megolm protocols, using
libolm. It is left up to the
application to make libolm available, via the Olm
global.
It is also necessary to call await matrixClient.initCrypto()
after creating a new
MatrixClient
(but before calling matrixClient.startClient()
) to
initialise the crypto layer.
If the Olm
global is not available, the SDK will show a warning, as shown
below; initCrypto()
will also fail.
Unable to load crypto module: crypto will be disabled: Error: global.Olm is not defined
If the crypto layer is not (successfully) initialised, the SDK will continue to work for unencrypted rooms, but it will not support the E2E parts of the Matrix specification.
To provide the Olm library in a browser application:
- download the transpiled libolm (from https://packages.matrix.org/npm/olm/).
- load
olm.js
as a<script>
beforebrowser-matrix.js
.
To provide the Olm library in a node.js application:
yarn add https://packages.matrix.org/npm/olm/olm-3.1.4.tgz
(replace the URL with the latest version you want to use from https://packages.matrix.org/npm/olm/)global.Olm = require('olm');
before loadingmatrix-js-sdk
.
If you want to package Olm as dependency for your node.js application, you can
use yarn add https://packages.matrix.org/npm/olm/olm-3.1.4.tgz
. If your
application also works without e2e crypto enabled, add --optional
to mark it
as an optional dependency.
This section is for people who want to modify the SDK. If you just want to use this SDK, skip this section.
First, you need to pull in the right build tools:
$ yarn install
To build a browser version from scratch when developing::
$ yarn build
To run tests (Jest):
$ yarn test
Note The
sync-browserify.spec.ts
requires a browser build (yarn build
) in order to pass
To run linting:
$ yarn lint