431 lines
12 KiB
Markdown
431 lines
12 KiB
Markdown
# Chat Protocol
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The primary communication channel for the chat is WebSockets between the ChatServer and ChatClient (the front-end web page).
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The protocol was made up as it went and here is some (hopefully current) documentation of what the different message types and contents look like.
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Messages are delivered as JSON objects in both directions.
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# WebRTC Workflow
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WebRTC only kicks in when a user wants to see the webcam stream shared by a broadcaster. Simply turning on your webcam doesn't start any WebRTC stuff - it's when somebody clicks to see your cam, or you click to see somebody else's.
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Since the WebRTC workflow is always triggered by _somebody_ clicking on the video icon to open a broadcaster's camera we will start there.
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The one who initiates the connection is called the **offerer** (they send the first offer to connect) and the one sharing video is the **answerer** in WebRTC parlance.
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1. The offerer clicks the video button to begin the process. This sends an [open](#open) message to the server.
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2. The server echoes the [open](#open) back to the offerer and sends a [ring](#ring) to the answerer, to let them know that the offerer wants to connect.
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* For the answerer, the `ring` message triggers the "has opened your camera" notice in chat.
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3. Both the offerer and answerer will use the server to negotiate a WebRTC peer connection.
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* WebRTC is a built-in browser standard and the two browsers will negotiate "ICE candidates" and "session description protocol" (SDP) messages.
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* The [candidate](#candidate) and [sdp](#sdp) actions on the chat server allow simple relaying of these messages between browsers.
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* The answerer adds their video stream to the RTC PeerConnection so that once they are established, the offerer receives the video.
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4. When connectivity is established, the offerer sends a [watch](#watch) message which the server passes to the answerer, so that their username apprars in the Watching list.
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The video stream can be interrupted and closed via various methods:
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* When the answerer turns off their camera, they close all RTC PeerConnections with the offerers.
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* When the PeerConnection is closed, the offerer deletes the `<video>` widget from the page (turning off the camera feed).
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* Also, a `who` update that says a person's videoActive went false will instruct all clients who had the video open, to close it (in case the PeerConnection closure didn't already do this).
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* If a user exits the room, e.g. exited their browser abruptly without gracefully closing PeerConnections, any client who had their video open will close it immediately.
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# Video Flags
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The various video settings sent on Who List updates are now consolidated
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to a bit flag field:
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```javascript
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VideoFlag: {
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Active: 1 << 0, // or 00000001 in binary
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NSFW: 1 << 1, // or 00000010
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Muted: 1 << 2, // or 00000100, etc.
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IsTalking: 1 << 3,
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MutualRequired: 1 << 4,
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MutualOpen: 1 << 5,
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}
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```
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# WebSocket Message Actions
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Every message has an "action" and may have other fields depending on the action type.
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## Login
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Sent by: Client.
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Log in to the chat room. Looks like:
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```javascript
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// Client login
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{
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"action": "login",
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"username": "soandso",
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"jwt": "jwt token string (if used)"
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}
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```
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If JWT authentication is enabled on the server, the ChatClient sends the JWT token to the server for validation.
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## Disconnect
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Sent by: Server.
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The server tells the client to disconnect and not come back, e.g.: they have been kicked or banned by an operator.
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```javascript
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// Server disconnect
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{
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"action": "disconnect"
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}
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```
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## Ping
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Sent by: Server, Client.
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Just a keep-alive message to prevent the WebSocket connection from closing.
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```javascript
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{
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"action": "ping"
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}
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```
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## Error
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Sent by: Server.
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Send an error message which will appear as a ChatServer error in chat.
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```javascript
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{
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"action": "error",
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"message": "Something went wrong!",
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"username": "ChatServer",
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"channel": "lobby"
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}
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```
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## Message
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Sent by: Client, Server.
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The client sends this to post a text message to a chat channel:
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```javascript
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// Client message to public channel
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{
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"action": "message",
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"channel": "lobby",
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"message": "Hello everyone!"
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}
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// Client message to DM
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{
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"action": "message",
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"channel": "@target",
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"message": "Hi"
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}
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```
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If this is a DM, the channel will begin with an `@` symbol followed by the username, like `"channel": "@target"`
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The server sends a similar message to push chats to the client:
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```javascript
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// Server message
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{
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"action": "message",
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"channel": "lobby",
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"username": "senderName",
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"message": "Hello!",
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"msgID": 123
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}
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```
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If the message is a DM, the channel will be the username prepended by an @ symbol and the ChatClient will add it to the appropriate DM thread (creating a new DM thread if needed).
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Every message or file share originated from a user has a "msgID" attached
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which is useful for [takebacks](#takeback).
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## File
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Sent by: Client.
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The client is posting an image to share in chat.
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```javascript
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// Client file.
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{
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"action": "file",
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"channel": "lobby",
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"bytes": new Uint8Array()
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}
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```
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The server will massage and validate the image data and then send it to others in the chat via a normal `message` containing an `<img>` tag with a data: URL - directly passing the image data to other chatters without needing to store it somewhere with a public URL.
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## Takeback
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Sent by: Client, Server.
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The takeback message is how a user can delete their previous message from
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everybody else's display. Operators may also take back messages sent by
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other users.
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```javascript
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{
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"action": "takeback",
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"msgID": 123
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}
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```
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Every message or file share initiated by a real user (not ChatClient or
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ChatServer) is assigned an auto-incrementing message ID, and the chat
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server records which message IDs "belong" to which user (so that a
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modded chat client or bot can't takeback other peoples' messages without
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operator rights).
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When the front-end receives a takeback, it searches all channels to
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delete the message with that ID.
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## Presence
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Sent by: Server.
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The `presence` message is just like a `message` but is designed for join/exit chat events.
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```javascript
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// Server message
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{
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"action": "presence",
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"username": "soandso",
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"message": "has joined the room!"
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}
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```
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## Me
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Sent by: Client, Server.
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The "me" action communicates the user's current state and settings to the server. It will usually also trigger a "who" action to refresh the Who List for all chatters.
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The client sends "me" messages to send their webcam broadcast status and NSFW flag:
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```javascript
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// Client Me
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{
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"action": "me",
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"video": 1,
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}
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```
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The server may also push "me" messages to the user: for example if there is a conflict in username and the server has changed your username:
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```javascript
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// Server Me
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{
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"action": "me",
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"username": "soandso 12345",
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"video": 1,
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}
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```
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## Who
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Sent by: Server.
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The `who` action sends the Who Is Online list to all connected chatters.
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```javascript
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// Server Who
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{
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"action": "who",
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"whoList": [
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{
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"username": "soandso",
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"op": false, // operator status
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"avatar": "/picture/soandso.png",
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"profileURL": "/u/soandso",
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"video": 0,
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}
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]
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}
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```
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## Open
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Sent by: Client, Server.
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This command is sent when a viewer wants to **open** the webcam of a broadcaster and see their video.
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```javascript
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// Client Open
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{
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"action": "open",
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"username": "target"
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}
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```
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The server echos the `open` command back at the person who initiated it:
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```javascript
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// Server Open
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{
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"action": "open",
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"username": "target",
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"openSecret": "random string (not actually used)"
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}
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```
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And for the one sharing their webcam, sends a `ring` message.
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## Ring
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Sent by: Server.
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This is sent to the user who is sharing their webcam, to notify them that a viewer wants to connect.
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```javascript
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// Server Ring
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{
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"action": "ring",
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"username": "viewer",
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"openSecret": "random string (not actually used)"
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}
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```
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The user will then initiate a WebRTC peer-to-peer connection with the viewer to share their video to them.
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## Watch, Unwatch
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Sent by: Client, Server.
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When a viewing client successfully receives video frames from the sender, they send a `watch` command to update the sender's Watching list, and will send an `unwatch` command when they close the video.
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The server passes the watch/unwatch message to the broadcaster.
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```javascript
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{
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"action": "watch",
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"username": "viewer"
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}
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```
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## Mute, Unmute
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Sent by: Client.
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The mute command tells the server that you are muting the user.
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```javascript
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// Client Mute
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{
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"action": "mute",
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"username": "target"
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}
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```
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When the user is muted:
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* The server will lie about your camera status on `who` messages to that user, always showing your camera as not active.
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* If they were already watching your camera, they see that you have turned your camera off and they disconnect.
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* The server will not send you any `message` from that user.
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The `unmute` action does the opposite and removes the mute status:
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```javascript
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// Client Unmute
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{
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"action": "unmute",
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"username": "target"
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}
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```
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## Block
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Sent by: Client.
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The block command places a hard block between the current user and the target.
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When either user blocks the other:
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* They do not see each other in the Who's Online list at all.
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* They can not see each other's messages, including presence messages.
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**Note:** the chat page currently does not have a front-end button to block a user. This feature is currently used by the Blocklist feature to apply a block to a set of users at once upon join.
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```javascript
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// Client Block
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{
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"action": "block",
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"username": "target"
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}
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```
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## Blocklist
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Sent by: Client.
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The blocklist command is basically a bulk block for (potentially) many usernames at once.
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```javascript
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// Client blocklist
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{
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"action": "blocklist",
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"usernames": [ "target1", "target2", "target3" ]
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}
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```
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How this works: if you have an existing website and use JWT authentication to sign users into chat, your site can pre-emptively sync the user's block list **before** the user enters the room, using the `/api/blocklist` endpoint (see the README.md for BareRTC).
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The chat server holds onto blocklists temporarily in memory: when that user loads the chat room (with a JWT token!), the front-end page receives the cached blocklist. As part of the "on connected" handler, the chat page sends the `blocklist` command over WebSocket to perform a mass block on these users in one go.
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The reason for this workflow is in case the chat server is rebooted _while_ the user is in the room. The cached blocklist pushed by your website is forgotten by the chat server back-end, but the client's page was still open with the cached blocklist already, and it will send the `blocklist` command to the server when it reconnects, eliminating any gaps.
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## Boot
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Sent by: Client.
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This command is to kick a viewer off of your webcam and block them from opening your webcam again.
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```javascript
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// Client Boot
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{
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"action": "boot",
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"username": "target"
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}
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```
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When a user is booted:
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* They are kicked off your camera.
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* The chat server lies to them about your camera status on future `who` messages - showing that your camera is not running.
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Note: it is designed that the person being booted off can not detect that they have been booted. They will see your RTC PeerConnection close + get a Who List that says you are not sharing video - exactly the same as if you had simply turned off your camera completely.
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## WebRTC Signaling
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Sent by: Client, Server.
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The `candidate` and `sdp` actions are used as part of WebRTC signaling negotiations where the two browsers (the broadcaster and viewer) try and connect to share video.
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```javascript
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// Candidate
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{
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"action": "candidate",
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"username": "otherUser",
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"candidate": "..."
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}
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// SDP
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{
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"action": "sdp",
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"username": "otherUser",
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"description": "..."
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}
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```
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The server simply proxies the message between the two parties.
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