Just because you can’t use it doesn’t mean a hacker can’t. If someone discovered a vulnerability in the 3g handshake or encryption protocol, it could be an avenue for an RCE.
Just because you can’t use it doesn’t mean a hacker can’t. If someone discovered a vulnerability in the 3g handshake or encryption protocol, it could be an avenue for an RCE.
I guess I should rephrase.
I label a lot of boxes and spice containers but nothing unhinged lol
deleted by creator
DYMO Embossing Label Maker
They’re like $9 on Amazon and I label everything. I have 2 myself, and they’re also my go-to for white-elephant parties.
I run ubuntu’s server base headless install with a self-curated minimal set of gui packages on top of that (X11, awesome, pulse, thunar) but there’s no reason you couldn’t install kde with wayland. Building the system yourself gets you really far in the anti-bloatware dept, and the breadth of wiki/google/gpt based around Debian/Ubuntu means you can figure just about any issues out. I do this on a ~$200 eBay random old Dell + a 3050 6gb (slot power only).
For lighter gaming I’ll use the Ubuntu PC directly, but for anything heavier I have a win11 PC in the basement that has no other task than to pipe steam over sunshine/moonlight
It is the best of both worlds.
the best way to learn is by doing!
I just built my own automation around their official documentation; it’s fantastic.
https://www.wireguard.com/#conceptual-overview
vyatta and vyatta-based (edgerouter, etc) I would say are good enough for the average consumer. If we’re deep enough in the weeds to be arguing the pros and cons of wireguard raw vs talescale; I think we’re certainly passed accepting a budget consumer router as acceptably meeting these and other needs.
Also you don’t need port forwarding and ddns for internal routing. My phone and laptop both have automation in place for switching wireguard profiles based on network SSID. At home, all traffic is routed locally; outside of my network everything goes through ddns/port forwarding.
If you’re really paranoid about it, you could always skip the port-forward route, and set up a wireguard-based mesh yourself using an external vps as a relay. That way you don’t have to open anything directly, and internal traffic still routes when you don’t have an internet connection at home. It’s basically what talescale is, except in this case you control the keys and have better insight into who is using them, and you reverse the authentication paradigm from external to internal.
Talescale proper gives you an external dependency (and a lot of security risk), but the underlying technology (wireguard) does not have the same limitation. You should just deploy wireguard yourself; it’s not as scary as it sounds.
Fail2ban and containers can be tricky, because under the hood, you’ll often have container policies automatically inserting themselves above host policies in iptables. The docker documentation has a good write-up on how to solve it for their implementation
https://docs.docker.com/engine/network/packet-filtering-firewalls/
For your usecase specifically: If you’re using VMs only, you could run it within any VM that is exposing traffic, but for containers you’ll have to run fail2ban on the host itself. I’m not sure how LXC handles this, but I assume it’s probably similar to docker.
The simplest solution would be to just put something between your hypervisor and the Internet physically (a raspberry-pi-based firewall, etc)
Devil’s Advocate:
How do we know that our brains don’t work the same way?
Why would it matter that we learn differently than a program learns?
Suppose someone has a photographic memory, should it be illegal for them to consume copyrighted works?
It’s fuckin’ art though
Oracle, SAP, Redhat, all of their customer portals require it for SSO. I’m not saying it should be that way, but it is.
I think you go about it the other way: break data analytics and advertising off from everything else. If every unit has to be self-sufficient without reliance on data collection and first-party advertising I think you fix most of the major issues.
I think the debate is about what a reasonable class is. I don’t think that an appendage, or identity for that matter, is a reasonable proxy for capability class. In my mind you really have to go one of two ways.
You either make everything class-less (think UFC 1) where all weights, sizes, abilities, genetics compete for a singular title
Or
You make science-based classes, based around whatever the best proxy for capabilities are (testosterone, chromosomes, height, weight, body fat percentage, some combination of the former, etc)
If you use nothing as a proxy, there would be a lot of people unable to compete but it would at least be unequivocally “fair”. If you use science-based capability classes you would have a wider range of “fair-ish” competitions, but there might be some weird overlap where some men, some women, and those in-between bridge accepted norms.
I’m actually working on a vector DB RAG system for my own documentation. Even in its rudimentary stages, it’s been very helpful for finding functions in my own code that I don’t remember exactly what project I implemented it in, but have a vague idea what it did.
E.g
Have I ever written a bash function that orders non-symver GitHub branches?
Yes! In your ‘webwork automation’ project, starting on line 234, you wrote a function that sorts Git branches based on WebWork’s versioning conventions.
do you know why they’re illegal? is there some danger to them?
If there are any water pipes through the second half of the house you cannot let those exterior walls reach freezing temperatures. Whatever solution you go with needs to account for the entire space in some capacity.
I’m sorry but this is just a fundamentally incorrect take on the physics at play here.
You unfortunately can’t ever prevent further breakdown. Every time you run any voltage through any CPU, you are always slowly breaking down gate-oxides. This is a normal, non-thermal failure mode of consumer CPUs. The issue is that this breakdown is non-linear. As the breakdown process increases, it increases resistance inside the die, and as a consequence requires higher minimum voltages to remain stable. That higher voltage accelerates the rate of idle damage, making time disproportionately more damaging the more damaged a chip is.
If you want to read more on these failure modes, I’d recommend the following papers:
L. Shi et al., “Effects of Oxide Electric Field Stress on the Gate Oxide Reliability of Commercial SiC Power MOSFETs,” 2022 IEEE 9th Workshop on Wide Bandgap Power Devices & Applications
Y. Qian et al., “Modeling of Hot Carrier Injection on Gate-Induced Drain Leakage in PDSOI nMOSFET,” 2021 IEEE International Conference on Integrated Circuits, Technologies and Applications
I don’t think anyone should expect a battery replacement to be free after 10 years, but it shouldn’t cost $100,000