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Cake day: July 3rd, 2023

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  • TheDevil@lemmy.worldtoSelfhosted@lemmy.worldRouters
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    1 year ago

    I use an N5105 generic mini pc running proxmox and opnsense. You can get them fairly cheaply from Aliexpress. They’re particularly low power and come with 4-6 gigabit network ports. I have two containers, the second of which hosts my Home Assistant instance. As an added bonus they often don’t have a fan.

    For wifi I use Ubiquity wifi 6 Lite APs with the controller running under home assistant.


  • You can ignore the windows machine unless it’s using nfs, it’s not relevant.

    Your screenshot suggests my guess was incorrect because you do not have any authorised Networks or Hosts defined.

    Even so if it was me I would correctly configure authorised hosts or authorised networks just to rule it out, as it neatly explains why it works on one container but not another. Does the clone have the same IP by any chance?

    The only other thing I can think for you to try is to set maproot user/group to root/wheel and see if that helps but it’s just a shot in the dark.



  • I can’t even show you a COTS Wifi 7 device, unless I’m missing something the two models Asus have listed aren’t available on Amazon.com - not only that but are there any clients yet? So it doesn’t really support your point.

    Even then… how are you even getting 30gbps into the device - three 10GbE ports in a LAG? And then you’re what… pushing that 30gbps over your home fibre? Looking at the spec Wifi 7 is designed for large scale deployment not home use. Anyway I’m getting off topic.

    I mean you do realise I’m largely in agreement with you when it comes to discrete access points? I was just pointing out a factual flaw in your assertion that so called DIY devices did not support 802.11ax. My strong disagreement was with the state of COTS routers.

    I think you kind of missed my point. The WiFi 7 magic, or any magic really that you’re ascribing to Asus or any consumer facing manufacturer doesn’t even come from them - they buy that shit in, slap on a load of marketing drivel and try to con your grandma or some gaming kid out of a few hundred bucks and call it a day. At best they’re gonna be sending it out for emissions testing because they have to, to get it certified. Maybe they test the antenna placement but given some of the testing I’ve seen it’s clear they don’t even always do that.

    If any of those guys do anything considerably different to anyone else it wouldn’t be a standard right? The clients would only work with matching routers! In fact years back you used to see this, I think 802.11n some manufacturers had some superfast bullshit that only worked when you had a matching pair.

    The whole point of standards like 802.11be is to make sure everything works together and does more or less the same thing, and the whole point of their marketing department is to convince you that their special brand of bullshit does something super special and unique when by definition it cannot without breaking standards, rendering it unable to use the term wifi.

    Home routers have been dog shit for years, and behind the marketing they largely all still are. Don’t allow that shit. Don’t forgive them. I literally linked you to a laundry list of vulnerabilities in Asus routers patched last month, some of which had been known for years

    Sorry my dude. I know this is a bit of a ranty winding post, but holy shit I’m guessing you haven’t been around for the last 20 years of bullshit that these companies have been pulling.

    NONE of them deserve your loyalty and they definitely don’t know the meaning of the word kindness. They have proven time and time again that they would sell their own granny for a few pennies.

    Don’t accept that shit.




  • While I agree in general that turnkey solutions for access points (not routers) are largely preferable I must point out that it is at least possible to achieve 802.11ax with DD-WRT: https://openwrt.org/toh/views/toh_available_16128_ax-wifi for example, as I found out from this excellent post: https://lemmy.ninja/post/224052

    That post also does a fantastic job of explaining the inherent issues of dealing with wifi hardware from an open source perspective.

    Features like Mu-MIMO/beam forming that call for arrays of antenna are a part of the respective WiFi specifications, and are baked into the closed firmware of the radios. While manufacturers will fight hard to make you believe they are implementing something special, the fact is that they must abide by the WiFi standards and are just rebranding things built into the radios they buy. Hence even FOSS software can implement them. Check out this thread I found which describes what’s going on:

    https://forum.dd-wrt.com/phpBB2/viewtopic.php?p=1215880

    What troubles me about the ap/router combos from Asus and the like is that they they charge so much for so little, and they have a history of being generally shitty: https://www.pcworld.com/article/447083/netgear-accuses-asus-of-submitting-fraudulent-test-results-to-the-fcc.html

    https://www.ftc.gov/news-events/news/press-releases/2016/02/asus-settles-ftc-charges-insecure-home-routers-cloud-services-put-consumers-privacy-risk

    It was these same companies that claimed gigabits of wifi throughput, when they were in fact advertising the combined speed of three antennas over two bands. No one device would ever see the speed they slapped on the package. Heck even if they did, grandma probably can’t appreciate the fact that faster wifi doesn’t mean shit if you have a 20/3 asynchronous dsl connection.

    The specialised hardware - ASICS that push packets - are what allow them to include megabytes of RAM and tiny amounts of storage along with extremely anemic CPUs. Very little if any of this is designed in house, they pick components or even an entire SoC, lay out a board, test it and ship it with a nauseating markup. Those ASICS aren’t expensive: they’re in the most basic switches, and the super duper wifi hardware is just a rebadged product from another company. This isn’t really a criticism, it just means that they are efficient and low power but hardly unique. It is though an observation that even the high end router/ap combos are far from bleeding edge tech worthy of the high prices they charge, imho. Why the fuck is 10GbE still so expensive in 2023? There are 10 year old SATA3 drives that can saturate a GigE uplink.

    The software side usually consists of a minimised Linux build often running a myriad of the same open source software running on DIY builds. Back in the bad old days it even took some pressure to get them to abide by the respective OSS licenses and give their code back to the communities they were using to make money.

    They’re charging a premium for very low spec hardware, and not doing a great deal to earn their keep.

    Finally while these companies are now being forced to provide updates, they are still shipping products with security issues:

    https://www.bleepingcomputer.com/news/security/asus-urges-customers-to-patch-critical-router-vulnerabilities/

    One of the most relevant examples from that article being: ‘The other critical patch is for an almost five-year-old CVE-2018-1160 bug caused by an out-of-bounds write Netatalk weakness that can also be exploited to gain arbitrary code execution on unpatched devices.’

    So while I can agree that a DIY Wifi AP will likely cause a certain amount of avoidable grief, I simply can’t abide by the notion that OPNsense or PFsense is unable to offer feature parity with COTS routers.

    As an addendum, if my $100 x86 router can route 1GbE as well as a $300 RGB monstrosity, what are they bringing to the party exactly? Why should we indulge that? Why should we tolerate such gratuitous bullshit?


  • If your only goal is working https then as the other comment correctly suggests you can do DNS-01 authentication with Let’s Encrypt + Certbot + Some brand of dyndns

    However the other comment is incorrect in stating that you need to expose a HTTP server. This method means you don’t need to expose anything. For instance if you do it with HA:

    https://github.com/home-assistant/addons/blob/master/letsencrypt/DOCS.md

    Certbot uses the API of your DDNS provider to authenticate the cert request by adding a txt record and then pulls the cert. No proxies no exposed servers and no fuss. Point the A record at your Rfc1918 IP.

    You can then configure your DNS to keep serving cached responses. I think though that ssl will still be broken while your connection is down but you will be able to access your services.

    Edit to add: I don’t understand why so many of the HTTPS tutorials are so complicated and so focused on adding a proxy into the mix even when remote access isn’t the target.

    Cert bot is a shell script. It asks the Lets Encrypt api for a secret key. It adds the key as a txt record on a subdomain of the domain you want a certificate for. Let’s encrypt confirms the key is there and spits out a cert. You add the cert to whatever server it belongs to, or ideally Certbot does that for you. That’s it, working https. And all you have to expose is the rfc1918 address. This, to me at least, is preferable to proxies and exposed servers.





  • The short answer is no, because it’s a pain in the ass and offers little tangible benefit. But I can speculate.

    If I was going down this path I would look for an x86 box with a wifi card that is supported by OPNsense or PFsense(that’s usually going to be dependant on available *BSD available drivers). I don’t how well they would function but I would expect quirks. You could also check the compatibility lists of the open router distributions to find something that’s well supported. You can check the forums for posts from people with similar goals and check their mileage.

    You might even be able to achieve this with an ESP32.

    But what are you hoping to achieve? Do you mean open radio firmware or do you mean open drivers? Or an open OS talking to a closed radio? What’s the benefit?

    Radios in any device are discrete components running their own show.

    Open drivers should be possible. However I have a feeling that open firmware for wifi access points radio hardware is going to be extremely hard to find. The regulatory agencies really don’t want the larger public to have complete control because of the possibility of causing interference and breaking the rules(for good reason - imagine if your neighbour had bad signal so he ignorantly cranks up the power output, not realising that he can’t do the same with his client devices, rendering his change useless).

    I seem to remember a change in FCC rules some time back that seemed to disallow manufacturers obtaining certification for devices that permitted end users to modify the firmware, much to the concern of open router users at the time. The rule was aimed at radio firmware but the concern was that the distinction would be lost and the rule applied to the entire router by overzealous manufacturers who hate third party firmware at best.

    A fully open radio is basically an SDR. Can you move packets over an SDR? Hell yes, but now you’re in esoteric HAM radio territory. It’s going to be a hell of a fun project and you’re going to learn a lot, but in so far as a practical wifi ap, your results will be limited.

    I use FOSS wherever it’s practical but if you want working wifi just stick to the well tested brand names. For what it’s worth you probably won’t gain any security by going open, if there’s any weakness it’ll probably be baked in at the protocol level which open devices would need to follow anyway. At least a discrete AP can be isolated and has no reason to be given internet access.


  • I would take these projects over stock firmware on traditional home routers any day. And I have done where I’ve been unable to rig a more permanent solution. They have an honourable mission in a section of hardware filled with absolute junk.

    But the trouble is the sheer number of hardware targets and meagre resources on these devices combined with the contempt of third party firmware from most manufacturers make them hard to flash and leave them rarely updated, if you’re lucky enough to have a supported device. Even then they are prone to quirks and bugs. Some devices do receive and are capable of receiving updates but they often cost more than the equivalent low TDP general purpose computer.

    Just imagine: the developers of DD-WRT have to target not just each individual router model but every single revision as the manufacturers have a habit of switching major components or even entire chipsets between product revisions. On top of that the documentation for the components used might be sparse or non existent. I’m impressed that these router distributions can make it work at all but that doesn’t make it any more practical or sustainable.

    At this point you may as well flip the router into modem mode and run OPNsense or PFSense and get a fully fledged operating system running on far more resources than any of these SoCs. Assuming you have the power budget you’ll get assured updates and far more flexibility with fewer compatibility issues and quirks. My passively cooled N5105 box with 8GB of ram and a 128GB HDD happily routes a 1gb/s WAN while simultaneously hosting a busy home assistant instance. The resources aren’t even maxed out.

    Following my experience I will always opt to run dedicated APs. DD-WRT WiFi support is amazing considering what they have to work with, but there are only so many wifi chipsets they can support and because they try to support as much as they can there are always problems with something. I really don’t have time to constantly troubleshoot the wifi following cryptic posts from years ago. Ubiquity stuff isn’t flawless either but it’s stable and a lot less prone to hard to trace issues. YMMV.

    DD-WRT and friends I love you, you really saved my ass a few times when all I had was some shitty CPE. You’re still way nicer than Cisco gear. But I find it hard to justify using a gimped out SoC from a couldn’t-care-less manufacturer when I can buy a 5W TDP passively cooled x86 computer for ~100usd.


  • Lenovo USB C hubs. I went with them specifically because of the issues in this article, and I trust them to at least thoroughly validate their designs. Can’t speak for MacOS but mine works well with a thinkpad. The product lineup is confusing but they publish complete specs and the products generally perform as advertised. There’s also a decent used market at fair prices, presumably because they’re widely used and subsequently sold off by businesses/employees.

    Rebadging OEM stuff is the name of the game for pretty much all low and mid tier companies. D-Link and their ilk. They presumably employ a small team to tweak the designs and ensure they’re compliant and safe(or maybe they outsource that too). But designing stuff from scratch is the preserve of the mega corps.

    Docks in particular surprised me because I expected them to be fairly simply devices routing signals. They’re not and the portable ones are pushing the limits in terms of throughput and current draw possible in a small package. Hence, even if you’re not going to buy from a large company, you should use them as a guide to determine what’s practically possible. If Lenovo or Dell or whatever aren’t shipping a comparable device to the one your eyeballing from some random company then the chances are it’s because it’s simply not practical or possible.