Ok Advanced SSL gals and guys - I'll be adding a bounty to this after the two-day period as I think it's a complex subject that deserves a reward for anyone who thoughtfully answers.
Some of the assumptions here are simply that: assumptions, or more precisely hopeful guesses. Consider this a brain-teaser, simply saying 'This isn't possible' is missing the point.
Alternative and partial solutions are welcome, personal experience if you've done something 'similar'. I want to learn something from this even if my entire plan is flawed.
Here's the scenario:
I'm developing on an embedded Linux system and want its web server to be able to serve out-of-the-box, no-hassle SSL. Here's the design criteria I'm aiming for:
- I can't have the user add my homegrown CA certificate to their browser
- I can't have the user add a statically generated (at mfg time) self-signed certificate to their browser
- I can't have the user add a dynamically generated (at boot time) self-signed certificate to their browser.
- I can't default to HTTP and have an enable/disable toggle for SSL. It must be SSL.
- Both the embedded box and the web browser client may or may not have internet access so must be assumed to function correctly without internet access. The only root CAs we can rely on are the ones shipped with operating system or the browser. Lets pretend that that list is 'basically' the same across browsers and operating systems - i.e. we'll have a ~90% success rate if we rely on them.
- I cannot use a fly-by-night operation i.e. 'Fast Eddie's SSL Certificate Clearing House -- with prices this low our servers MUST be hacked!'
Nice to Haves:
- I don't want the user warned that the certificate's hostname doesn't match the hostname in the browser. I consider this a nice-to-have because it may be impossible.
Do not want:
- I don't want to ship the same set of static keys for each box. Kind of implied by the 'can't' list, but I know the risk.
Yes Yes, I know..
- I can and do provide a mechanism for the user to upload their own cert/key but I consider this 'advanced mode' and out of scope of this question. If the user is advanced enough to have their own internal CA or purchase keys then they're awesome and I love them.
Thinking Cap Time
My experience with SSL has been generating cert/keys to be signed by 'real' root, as well as stepping up my game a little bit with making my own internal CA, distributing internally 'self-signed' certs. I know you can chain certificates, but I'm not sure what the order of operations is. i.e. Does the browser 'walk up' the chain see a valid root CA and see that as a valid certificate - or do you need to have verification at every level?
I ran across the description of intermediate certificate authority which got me thinking about potential solutions. I may have gone from 'the simple solution' to 'nightmare mode', but would it be possible to:
Crazy Idea #1
- Get an intermediate certificate authority cert signed by a 'real' CA. ( ICA-1 )
- ROOT_CA -> ICA-1
- This certificate would be used at manufacturing time to generate a unique passwordless sub-intermediate certificate authority pair per box.
- ICA-1 -> ICA-2
- Use ICA-2 to generate a unique server cert/key. The caveat here is, can you generate a key/pair for an IP (and not a DNS name?)? i.e. A potential use-case for this would be the user connects to the box initially via http, and then redirects the client to the SSL service using the IP in the redirect URL (so that the browser won't complain about mismatches). This could be the card that brings the house down. Since the SSL connection has to be established before any redirects can happen, I can see that also being a problem. But, if that all worked magically
- Could I then use the ICA-2 to generate new cert/key pairs any time the box changes IP so that when the web server comes back up it's always got a 'valid' key chain.
- ICA-2 -> SP-1
Ok, You're So Smart
Most likely, my convoluted solution won't work - but it'd be great if it did. Have you had a similar problem? What'd you do? What were the trade offs?