I noticed Debian does this by default and Arch wiki recommends is citing improved security and upstream.
I don’t get why that’s more secure. Is this assuming torrents might be infected and aims to limit what a virus may access to the dedicated user’s home directory (/var/lib/transmission-daemon
on Debian)?
The point of security isn’t just protecting yourself from the threats you’re aware of. Maybe there’s a compromise in your distro’s password hashing, maybe your password sucks, maybe there’s a kernel compromise. Maybe the torrent client isn’t a direct route to root, but one step in a convoluted chain of attack. Maybe there are “zero days” that are only called such because the clear web hasn’t been made aware yet, but they’re floating around on the dark web already. Maybe your passwords get leaked by a flaw in Lemmy’s security.
You don’t know how much you don’t know, so you should be implementing as much good security practices as you can. It’s called the “Swiss Cheese” model of security: you layer enough so that the holes in one layer are blocked by a different layer.
Plus, keeping strong security measures in place for something that’s almost always internet connected is a good idea regardless of how cautious you think you’re being. It’s why modern web-browsers are basically their own VM inside your pc anymore, and it’s why torrent clients shouldn’t have access to anything besides the download/upload folders and whatever minimal set of network perms they need.
@BaumGeist @Quail4789 If you get software from an untrusted source, and it does not matter if it’s a torrent, ftp, https, scp, etc, you run this risk. And usually when you download with a torrent the supplying site will publish a hash which you can compare to make sure that it wasn’t corrupted in transit.