I've been buying these little boxes from AliExpress for years to use as firewalls and routers. My oldest one is almost 9 years old now! OpenBSD installs just fine. Just a BIOS tweak to always boot up after power is restored.
Open source bios yes, but you still have close source firmware blobs for amd/intel used on those systems. The only way to do this is to make 100% of the hardware.
Also please note, I am using coreboot already on my pcengines router.
Few computers use CoreBoot, and CoreBoot still uses proprietary blobs typically. Normally only libreboot has zero blobs, and they are very rare indeed.
I'd be surprised if it wasn't just based off the UEFI sdk examples containing 30+ CVEs over the last couple of years. If anything, it won't get patched for logofail and all the others UEFI exploits we'll definitely see in the coming years.
I was wondering... that tp-link probably negates anything remotely resembling security on its own. But yeah, you can update some of these noname boxes easily, others, not so much.
I have dealt with (in a professional capacity) Chinese manufacturers that are under the impression they do not have to provide a working build tree for the kernel, let alone firmware, so its a gamble if you're not talking to a major Chinese name brand. Mind you, I was ordering hundreds of those boxes, so there was some leverage.
That TP-link is a dumb switch. Unless you're telling me that someone is going to find an opening in the firmware and hack their way into the ARP table or something (in which case the threat model here just became state actors and I don't think the OP is safe with this equipment), I don't think it affects much, if anything.
Now, if I'm mistaken and that is actually a managed switch; god help them with network security.
The problem is that their Web interface and firmware in general are not updated (at all). I think it's even possible for script kiddies to hack into such managed switches, which forms the reasoning behind my comment.
Does your switch produce its Web interface over TLS?
Doesn’t look like it but if I set up VLANs unless an user is on the correct VLAN they can’t access the web interface. And the only way for them to get access is to get physical access and plug a device into the correct port.
They do make managed switches, but just to be completely clear, my comment was mostly hyperbole. I just found the general combination of security - mindedness and cheap Chinese hardware curious / amusing.
I did realise that, and apologies for my tone earlier.
With that said, this seems to be a slight bias - unless the PCB has some nefarious spy-chip built inside, hardware is hardware, regardless of where it comes from.
I just found the general combination of security - mindedness and cheap Chinese hardware curious / amusing.
I think it can make sense, since there are so often vulnerabilities in consumer router firmware, and because those devices are so common the vulnerabilities are profitable to exploit. Running a BSD-based router on a cheap Chinese PC is likely to be better security for the router's OS and software itself, even if you don't know for sure about the firmware on the board (which you don't with consumer routers either, really). Overall you could still have reduced your attack surface compared to a popular consumer router.