Objective: Secure & private password management, prevent anyone from stealing your passwords.
Option 1: Store Keepass PW file in personal cloud service like OneDrive/GoogleDrive/etc , download file, use KeepassXC to Open
Option 2: Use ProtonPass or similar solution like Bitwarden
Option 3: Host a solution like Vaultwarden
Which would do you choose? Are there more options ? Assume strong masterpassword and strong technical skills
Option 3: Vaultwarden + Wireguard.
I don't have to worry about attacks from the internet. And a single wireguard connection on my phone sometimes doesn't even appear on the battery stats.
Edit: Browser addons need valid ssl certificates, which I get by dns challenge.
could you expand a bit on your edit? so bitwarden extensions need a valid ssl certificate for the domain where the server is hosted? how do you get that for (i assume) a local domain? thank you for your time!
Not the one who wrote initially, but i have the same setup (mostly).
I went with a self signed certificate. So the server is running with a certificate i have signed with my own certification authority certificate (ca-cert) .
That means I have to install the ca-cert on all devices to get vaultwarden to accept it.
The alternative is a let's encrypt cerrtificate, which are free, but you need to open port 80 (and another one if I remember correctly) for it to work (at least every 3 months)
If you own a domain name you can use the DNS-01 challenge instead of hosting a web server to serve the challenge response.
With DNS-01 it will add a TXT record to your DNS zones and check if the record exists to verify that you own the domain and then issue the certificate.
Depending on which tool you use, they usually support DuckDNS and some other free DDNS providers. If you have your domain on a registrar, chances are that it's also supported.
Yep that would be a good alternative…I don't have an official domain for it, so I went the self-signed way
Which enables me to provide tls/https for all my local services. And it was a fun experience to learn
DNS-01 challenge allows for domain ownership verification without open ports and instead looks for a txt record. Using a tool like lego[1] with the respective dns provider's API automatically creates and deletes the txt record after generating a certificate.
Because ownership is verified by dns txt entry, the (sub-)domain doesn't have to point to a publicly routable host. This allows for using any IP, so I'm using a local ip only available through wireguard or my local network (E.g. bitwarden.example.com points to 192.168.1.123).
The disadvantage is that the provider has to be supported and you have to store an API key for your domain on the server.
[1] https://github.com/go-acme/lego