I don't reccommend using this packet over the start & stop combination because of the lack of feedback you get in comparision.
However, if the server sending the packet is requesting to restart itself then this is your only option, so that's why it's here.
Stop Actions will is the replacement for both the Auto Restart and Temporary flags. To define that the server should restart on stop, use the RESTART keyword. To get the same result that you would get using the temporary flag, use the REMOVE_SERVER keyword.
Additionally, there is now a DELETE_SERVER keyword. This keyword does the same thing as the REMOVE_SERVER keyword, except it deletes the directory on the server ran from.
If you would like nothing special to happen when the server stops, use the NONE keyword.
This is a change to how packets are transferred; the API has not been changed.
While the difference may be unnoticable when using unencrypted packets, because of MessagePack's compact size and better handling of byte values encrypted packets should transfer faster.
The Download group of packets was in desperate need for a restructuring.
Now, instead of using `DownloadServerList` to list everything, different object types now are downloaded through their own seperate packets. (Improving network efficiency)
The proxies section of the list command now functions like the rest. You can hover over proxies in-game to get more status information on them.
The colors shown are as follows:
Green (Optimal): Proxy is connected to both Redis and SubData
Blue (Available): Proxy is connected to SubData only
White (External): Proxy is connected to Redis only
Red (Disabled): Proxy is offline
- Proxies connected to Redis are downloaded on startup/reload
- Named proxies are no longer removed on disconnect
- Proxies now show up in `/sub list`
- Proxies now have Add/Remove events in the API
- Proxies are included in the response of the `DownloadServerList` packet
This was a change I made to the Lang API a while back, and now it has made it's way into SubData.
Packets are now tied to channels (`n`) and then handles (`h`) within those channels.