It’s viable, but when you’re buying a DAS for the drives, figure out what the USB chipset is and make sure it’s not a flaky piece of crap.

Things have gotten better, but some random manufacturers are still using trash bridge chips and you’ll be in for a bad time. (By which I mean your drives will vanish in the middle of a write, and corrupt themselves.)

Am I missing something, or is this just the argo tunnel thing Cloudflare has offered for quite a while?

10000% this.

Tell me what it does, and SHOW me what it does.

Because guessing what the hell your thing looks like and behaves like is going to get me to bounce pretty much immediately because you’ve now made it where I have to figure out how to deploy your shit if I want to know. And, uh, generally, if you have no screenshots, you have no good documentation and thus it’s going to suuuuck.

It’s because of updates and who owns the support.

The postgres project makes the postgres container, the pict-rs project makes the pict-rs container, and so on.

When you make a monolithic container you’re now responsible for keeping your shit and everyone else’s updated, patched, and secured.

I don’t blame any dev for not wanting to own all that mess, and thus, you end up with seperate containers for each service.

I’d probably go with getting the ISP equipment into the dumbest mode possible, and putting your own router in it’s place, so option #2?

I know nothing about eero stuff, but can you maybe also put it into a mode that has it doing wifi-only, and no routing/bridging/whatever?

Then you can just leave the ISP router in place, and just use them for wifi (and probably turn off the wifi on the ISP router, while you’re in there).

Then the correct answer is ‘the one you won’t screw up’, honestly.

I’m a KISS proponent with security for most things, and uh, the more complicated it gets the more likely you are to either screw up unintentionally, or get annoyed at it, and do something dumb on purpose, even though you totally were going to fix it later.

Pick the one that makes sense, is easy for you to deploy and maintain, and won’t end up being so much of a hinderance you start making edge-case exceptions because those are the things that will 100% bite you in the ass later.

Seen so many people turn off a firewall or enable port forwarding or set a weak password or change permissions to something too permissive and just end up getting owned that have otherwise sane, if maybe over-complicated, security designs and do actually know what they’re doing, but just getting burned by wandering off from standards because what they implemented originally ends up being a pain to deal with in day-to-day use.

So yeah, figure out your concerns, figure out what you’re willing to tolerate in terms of inconvenience and maintenance, and then make sure you don’t ever deviate from there without stopping and taking a good look at what you’re doing, what could happen if you do it, and coming up with a worst-case scenario first.

What’s your concern here?

Like who are you envisioning trying to hack you, and why?

Because frankly, properly configured and permissioned (that is, stop using root for everything you run) container isolation is probably good enough for anything that’s not a nation state (barring some sort of issue with your container platform and it having an escape), and if it is a nation state you’re fucked anyways.

But more to your direct question: I actually use dns scopes and nginx acls to seperate public from private. I have a *.public and a *.private cname which points to either my external or internal IP, and ACLs in the nginx site configuration to scope where access is allowed.

You can’t access a *.private host outside the network, but can access either from inside it, and so (again, barring nginx having an oopsie somewhere) it’s reasonably secure and not accessible, and leaves a very clear set of logs (and I’m pulling those logs in and parsing them for anything suspicious and doing automated alerting if I find anything I would not otherwise expect) so I’m happy enough with the level of security that this is, when paired with the services built-in authentication options.