- cross-posted to:
- privacy@lemmy.ca
- firefox@lemmy.ml
- cross-posted to:
- privacy@lemmy.ca
- firefox@lemmy.ml
ECH (encrypted client hello) is going or get enabled by default (already existed in a hidden setting) with version 118.
This page about the version explains a bit better ECH https://support.mozilla.org/fr/kb/understand-encrypted-client-hello
Tho it is still a bit confusing.
From what I understand there is the DNS query > the dns servers sends back an IP. This DNS query can be encrypted with DoH (or DoT?, it seems only DoH from the post).
Then there is a handshake with the website where the website informations can be leaked, and that can be encrypted by ECH (if the website supports it).
Then after that there is a tls connexion established between the website and the user.
The part where I’m confused is : can ECH be used without DoH? If yes that would mean that I can use a DoH capable software and not have to configure it into Firefox? (ex: Nextdns + yogadns)
So, currently when you visit a https secured website the initial request to the server is not encrypted. I suspect the reason for this is that say you run a web server on 1.2.3.4. But there’s 4 different websites hosted on that server each with their own SSL/TLS keys.
The server doesn’t have a way to know which keys/certificates to use until it knows what site you want to access. So, the initial request is encrypted with a server key, and that server key is fetched via DNS over HTTPS.
Now, here’s the question. Why MUST it be DoH? For email, DKIM, SPF and DMARC settings (including public keys) are configured using standard DNS (with DNSSEC). Why do they not allow DNSSEC AND/OR DoH?
Other than that weird limitation, I think it’s a good thing.
It is encrypted, just not all of it. Back upon a time all of it was encrypted but it created a problem. It was impossible to host multiple different domains on the same IP over HTTPS because chicken and egg: couldn’t get the domain from the host header without completing the encryption handshake, but to do that you had to know which domain’s certificate to use.
To solve the problem they came up with a TLS extension called SNI that indicates the certificate during handshake, but does so by pulling the domain name out in the clear.
ECH aims to encrypt these parts left in the clear, but can’t do it with the TLS certificate (chicken and egg above). So they resorted to the encryption used by DoH instead.