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TLS certificates for internal services done right

35 points1 hourtuxnet.dev
patrakov36 minutes ago

My preferred procedure is to use DNS-01 validation and have no publicly accessible "A" or "AAAA" record for internal services.

Or even a more extreme example: https://crt.sh/?id=27555237869 (sorry for any possible crt.sh downtime) - the domain name in question never existed in public or private DNS by itself. It is used only for a WPA3-Enterprise network, as the CN that WiFi clients expect to be present in the RADIUS server certificate, but never resolve. In the public DNS, only the "_acme-challenge" TXT record exists.

EvanAnderson32 minutes ago

The relative proximity of the words "done right" and "split-horizon DNS" makes my insides hurt a little bit.

Use DNS validation to allow these internal services to pull ACME certs. There's so much less headache, long-term.

Split-horizon DNS (and the tedious make-work it can create when you start needing to mirror public-accessibly records in the private DNS) has always been something to aspire to move away from in my experience.

wrxd46 minutes ago

I use the acme dns-1 challenge on my public domain. That gives you certificates you can use as you see fit, without needing to expose anything else to the public internet.

I also use Tailscale so I configure my DNS to use my Tailscale IP addresses. If you don’t want to expose them on a public DNS server you can add them only to an internal DNS server.

throw0101d36 minutes ago

> I use the acme dns-1 challenge on my public domain.

See also perhaps DNS aliasing in case you are not able to dynamically update your 'primary' domain, but can update a secondary or sub-domain:

* https://github.com/acmesh-official/acme.sh/wiki/DNS-alias-mo...

So if "example.com" is control by Corporate IT, and they don't want 'random' folks fiddling with it, then you can create a "dnsauth.example.com" and point the dns-1 challenge record from "…foo.example.com" to "foo.dnsauth.example.com" (or a completely different domain, like "…example.net").

There are DNS servers written strictly focused on this use case:

* https://github.com/acme-dns/acme-dns

Also code that handles a bunch of DNS provider APIs so you don't have to roll your own for ACME client hooks:

* https://github.com/dns-lexicon/dns-lexicon

adontz43 minutes ago

Moreover you can delegate domain to improve security.

https://www.eff.org/deeplinks/2018/02/technical-deep-dive-se...

xorcist15 minutes ago

This is crazy. If you have a home network with a few internal services, or some sort of network where you don't control the endpoints, just use DNS validation. That's why it exists.

But on hosts you control, you should absolutely provision them with an identity and join the local CA. You're going to need it for a multitude of other reasons.

boscillator17 minutes ago

The real answer here is that configuring HTTPS clients to trust a self-signed cert (or signed by an internal CA) shouldn't be as difficult as it is. I find it extremely annoying that every programming language has it's own idea of where certificates should live instead of just checking the os trust store.

thomashabets226 minutes ago

Personally, I hate split horizon DNS. I prefer the "BeyondCorp" model. I MUCH prefer putting an mTLS cert in my trusted devices over relying on VPNs in same devices. I've yet to see a "clever" DNS setup not cause annoyances.

Specifically grafana is nice to be able to see on the phone, and split horizon DNS and corp VPN is a hassle, to say the least, on phones.

I bet you can do it with HA-Proxy, but I use https://github.com/ThomasHabets/sni-router

pizzalife1 hour ago

I don't agree that tunneling everything through some external facing proxy is "TLS certificates for internal services done right".

nijave56 minutes ago

Arguably it's 1/2. You can put public certs on proxy then give proxy private CA to backend services. Then you don't need public certs for all the private stuff nor need to trust the private CA on all your devices.

raquuk25 minutes ago

I am looking forward to finally using DNS-PERSIST-01 for validation. No more dynamic DNS updates, DNS credentials or forwarding necessary.

ramblurr12 minutes ago

> TLS certificates for internal services* done right

* "internal services" = on a single server that is publicly routable

cobertos41 minutes ago

Why not just map the domain to an internal IP and call it a day? Then the only way it can be accessed is through a VPN. Then use a wildcard so none of leaks into cert transparency logs

throw0101d31 minutes ago

> Then use a wildcard so none of leaks into cert transparency logs

You now also have to build infrastructure to distribute the wildcard from (presumably) central place where you generate it to all the different places where it is desired.

And hope the wildcard's private key does not leak from one of myriad of places it now lives.

cobertos3 minutes ago

I have a few Traefik instances that request wildcards independently of each other. Each with the same config, per server.

Leaking is an issue but we're talking about internal services too.

mrl51 hour ago

I've documented how to securely set up TLS certificates for internal services without creating TLS issues for http clients downstream. All thanks to split-horizon DNS, WAF and ACME protocol. All for free!

rootnod319 minutes ago

Uhm....source?

cwillu5 minutes ago

He's the submitter

spydum45 minutes ago

this is all fine and good, if you are okay broadcasting your internal hostnames. I suppose it's a trade off some might make.

CartwheelLinux41 minutes ago

There's one way around that which is requesting a wildcard cert, but then that has its own rammifications

Hamuko44 minutes ago

I use a registered domain with DNS validation and then CNAMEs that I resolve locally. Basically:

  1. Register a domain ("server.com") and put it on some public DNS that can do DNS validation with acme.sh.
  2. Use DNS validation to get a certificate on your domain from Let's Encrypt. You can just grab a wildcard one ("*.server.com").
  3. CNAME all of your services on a public DNS to an internal address ("email.server.com" → "server.internal", "plex.server.com" → "server.internal").
  4. Resolve your internal address on a local DNS server with an A record ("server.internal" → 192.168.0.123). This can often just be done on your router.
Since you use DNS validation, you just API keys for your public DNS service that acme.sh can use. No need to have any VPN network interfaces for getting your certificate. Your wildcard certificate also doesn't leak any details about your services.
nijave1 hour ago

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