Matrix-CRDT enables you to use Matrix as a backend for distributed, real-time collaborative web applications that sync automatically.
The MatrixProvider is a sync provider for Yjs, a proven, high performance CRDT implementation.
Create apps like this:
And connect Matrix as transport + backend storage. Instead of chat messages (primary use-case of Matrix), we send an event stream of data model updates (for the rich-text demo, these are document edits) to Matrix.
In the examples directory, you'll find some live examples:
CRDTs (Conflict-free Replicated Data Types) make it easy to build decentralized, fast, collaborative local-first applications.
Read more about the benefits of Local-first software in this essay
When building local-first software on top of CRDTs, you probably still need a backend so users can access their data across devices and collaborate with each other.
While Matrix is primarily designed for messaging (chat), it's versatile enough to use as a backend for collaborative applications (see Architecture). The idea is that by building on top of Matrix, developers can focus on building clients and get the following benefits from the Matrix ecosystem out-of-the-box:
- An open standard and active community
- Multiple server implementations (including hosted servers)
- Authentication (including support for SSO and 3rd party providers)
- Access control via Rooms and Spaces
- E2EE
- A decentralized architecture with support for federation
Matrix-CRDT currently works with Yjs or SyncedStore.
To setup Matrix-CRDT, 3 steps are needed:
- Create a Yjs
Y.Doc
- Create and authenticate a client from matrix-js-sdk
- Create and initialize your Matrix-CRDT
MatrixProvider
import { MatrixProvider } from "matrix-crdt";
import * as Y from "yjs";
import sdk from "matrix-js-sdk";
// See https://matrix.org/docs/guides/usage-of-the-matrix-js-sdk
// for login methods
const matrixClient = sdk.createClient({
baseUrl: "https://matrix.org",
accessToken: "....MDAxM2lkZW50aWZpZXIga2V5CjAwMTBjaWQgZ2Vu....",
userId: "@USERID:matrix.org",
});
// Extra configuration needed for certain matrix-js-sdk
// calls to work without calling sync start functions
matrixClient.canSupportVoip = false;
matrixClient.clientOpts = {
lazyLoadMembers: true,
};
// Create a new Y.Doc and connect the MatrixProvider
const ydoc = new Y.Doc();
const provider = new MatrixProvider(ydoc, matrixClient, {
type: "alias",
alias: "#matrix-room-alias:matrix.org",
});
provider.initialize();
// array of numbers which produce a sum
const yarray = ydoc.getArray("count");
// observe changes of the sum
yarray.observe((event) => {
// print updates when the data changes
console.log("new sum: " + yarray.toArray().reduce((a, b) => a + b));
});
// add 1 to the sum
yarray.push([1]); // => "new sum: 1"
Note for Vite / non-webpack If you're using Vite, or other non-webpack builds, note that matrix-js-sdk depends on certain polyfills available. See the Vite example and this issue on matrix-js-sdk.
You can also use SyncedStore and use Matrix-CRDT as SyncProvider.
new MatrixProvider (doc
, matrixClient
, room
, awareness?
, opts?
): MatrixProvider
The MatrixProvider
syncs a Matrix room with a Yjs document.
Name | Type | Description |
---|---|---|
doc |
Y.Doc |
The Y.Doc to sync over the Matrix room. |
matrixClient |
MatrixClient |
A matrix-js-sdk client with permissions to read (and/or write) from the room. |
room |
{ type: "id"; id: string; } or { type: "alias"; alias: string } |
The room ID or Alias to sync with. |
awareness (optional) |
awarenessProtocol.Awareness |
A y-protocols Awareness instance that can be used to sync "awareness" data over the experimental webrtc bridge. |
opts (optional) |
MatrixProviderOptions (see below) |
Configure advanced properties, see below. |
MatrixProviderOptions
Additional configuration options that can be passed to the MatrixProvider
constructor.
Defaults to:
{
// Options for `ThrottledMatrixWriter`
writer: {
// throttle flushing write events to matrix by 500ms
flushInterval: number = 500,
// if writing to the room fails, wait 30 seconds before retrying
retryIfForbiddenInterval: number = 30000
},
// Options for `MatrixCRDTEventTranslator`
translator: {
// set to true to send everything encapsulated in a m.room.message,
// so you can view and debug messages easily in element or other matrix clients
updatesAsRegularMessages: false,
// The event type to use for updates
updateEventType: "matrix-crdt.doc_update",
// The event type to use for snapshots
snapshotEventType: "matrix-crdt.doc_snapshot",
}
// Experimental; we can use WebRTC to sync updates instantly over WebRTC.
// See SignedWebrtcProvider.ts for more details + motivation
enableExperimentalWebrtcSync: boolean = false
// Options for MatrixReader
reader: {
// How often to send a summary snapshot (defaults to once every 30 events)
snapshotInterval: number = 30,
},
}
CRDT updates (in our case, Yjs document updates) are very similar to (chat) Messages, that Matrix has been optimized for.
Matrix-CRDT bridges Yjs documents
to Matrix Rooms
. and Yjs updates
to Matrix events
(regular chat messages are also a specific event type in Matrix). Yjs document updates are sent as base64-encoded events to the Matrix room.
When registering a MatrixProvider
, we:
- Listen to new
matrix-crdt.doc_update
events in the Matrix Room, and apply updates to the Yjs document. - Listen to Yjs document updates and send these to the Matrix room as
matrix-crdt.doc_update
events.
CRDTs are specifically designed to be eventually consistent. This means that the state of your data is eventually reconciled, regardless of the order of update events that reach each client or server (as long as you eventually get all updates).
This makes it possible to work offline, or for servers / clients to be out of sync for a while.
To reconstruct your application state (that is, the Yjs document), we eventually need to access all previous events. When there have been a lot of updates, it would be inefficient to read the entire document / room history from Matrix.
Matrix-CRDT sends periodic snapshots that contain a summary of all previous events. When retrieving a snapshot (stored as a Matrix event with type matrix-crdt.doc_snapshot
), clients can reconstruct application state from that snapshot and don't need to fetch events occuring before that snapshots last_event_id
(stored on the event).
Matrix-CRDT by default throttles sent events every 500ms (for example, to prevent sending an event every keystroke when building a rich text editor). It also does not support Yjs Awareness
updates (for presence information, etc) over Matrix.
You can use the (experimental) WebRTC
provider to connect to peers over WebRTC and send updates (regular and Awareness updates) instantly.
Ideally, we'd replace this with Matrix Custom Ephemeral events when that Spec has landed.
See CONTRIBUTING.md for instructions how to work with this repo (e.g.: installing and building using lerna).
Matrix-CRDT is built as part of TypeCell. TypeCell is proudly sponsored by the renowned NLNet foundation who are on a mission to support an open internet, and protect the privacy and security of internet users. Check them out!