Take a non-political example. You want Facebook to offer free services, protect your privacy and shield you from targeted advertising? No problem! And while you’re wishing for those things, why not wish for a pony too!
This principle can also apply to engineering. As proof of this, I offer up a long conversation I just had with Dan Kaminsky on Twitter, related to the superiority of DNSSEC vs. application-layer solutions to securing email in transit. Short summary: Dan thinks DNSSEC will solve this problem, all we have to do is get it deployed everywhere in a reasonable amount of time. I agree with Dan. And while we're daydreaming, ponies! (See how it works?)
The impetus for this discussion was a blog post by Tom Ritter, who points out that mail servers are horrendously insecure when it comes to shipping mail around the Internet. If you know your mailservers, there are basically two kinds of SMTP connection. MUA-to-MTA connections, where your mail client (say, Apple Mail) sends messages to an SMTP server such as GMail. And MTA-to-MTA connections, where Gmail sends the message on to a destination server (e.g., Hotmail).
Now, we’ve gotten pretty good at securing the client-to-server connections. In practice, this is usually done with TLS, using some standard server certificate that you can pick up from a reputable company like Trustwave. This works fine, since you know the location of your outgoing mail server and can request that the connection always use TLS.
Unfortunately, we truly suck at handling the next leg of the communication, where the email is shipped on to the next MTA, e.g., from Google to Hotmail. In many cases this connection isn’t encrypted at all, making it vulnerable to large-scale snooping. But even when it is secured, it’s not secured very well.
What Tom points out is that many mail servers (e.g., Gmail's) don’t actually bother to use a valid TLS certificate on their MTA servers. Since this is the case, most email senders are configured to accept the bogus certs anyway, because everyone has basically given up on the system.
We could probably fix the certs, but you see, it doesn’t matter! That’s because finding that next MTA depends on a DNS lookup, and (standard) DNS is fundamentally insecure. A truly nasty MITM attacker can spoof the MX record returned, causing your server to believe that mail.evilempire.com is the appropriate server to receive Hotmail messages. And of course, mail.evilempire.com could have a perfectly legitimate certificate for its domain -- which means you’d be hosed even if you checked it.
(It’s worth pointing out that the current X.509 certificate infrastructure does not have a universally-accepted field equivalent to “I am an authorized mailserver for Gmail”. It only covers hostnames.)
The question is, then, what to do about this?
There are at least three options. One is that we just suck it up and assume that email’s insecure anyway. If people want more security, they should end-to-end encrypt their mail with something like GPG. I’m totally sympathetic to this view, but I also recognize that almost nobody encrypts their email with GPG. Since we already support TLS on the MTA-to-MTA connection, perhaps we should be doing it securely?
The second view is that we fix this using some chimera of X.509 extensions and public-key pinning. In this proposal (inspired by an email from Adam Langley***), we’d slightly extend X.509 implementations to recognize an “I am a mailserver for Hotmail.com” field, we get CAs to sign these, and we install them on Hotmail’s servers. Of course, we’ll have to patch mailservers like Sendmail to actually check for these certs, and we’d have to be backwards compatible to servers that don’t support TLS at all -- meaning we’d need to pin public keys to prevent downgrade attacks. It’s not a very elegant solution at all.
The third, ‘elegant’ view is that we handle all of our problems using DNSSEC. After all, this is what DNSSEC was built for! To send an email to Hotmail, my server just queries DNS for Hotmail.com, and (through the magic of public-key cryptography) it gets back a signed response guaranteeing that the MX record is legitimate. And a pony too!
But of course, back in the real world this is not at all what will happen, for one very simple reason:
- Many mail services do not support DNSSEC for their mail servers.
- Many operating systems do not support DNSSEC resolution. (e.g., Windows 8)
So maybe you think that I’m being totally unfair. If people truly want MTA-to-MTA connections to be secure, they’ll deploy DNSSEC and proper certificates. We'll all modify Sendmail/Qmail/Etc. to validate that the DNS resolution is ‘secured’ and they’ll proceed appropriately. If DNS does not resolve securely, they’ll... they’ll...
Well, what will they do? It seems like there are only two answers to that question. Number one: when DNSSEC resolution fails (perhaps because it’s not supported by Hotmail), then the sender fails open. It accepts whatever insecure DNS response it can get, and we stick with the current broken approach. At least your email gets there.
Alternatively, we modify Sendmail to fail closed. When it fails to accomplish a secure DNS resolution, the email does not go out. This is the security-nerd approach.
Let me tell you something: Nobody likes the security-nerd approach.
As long as DNSSEC remains at pitiful levels of deployment, it’s not going to do much at all. Email providers probably won't add DNSSEC support for MX records, since very few mailservers will be expecting it. Mailserver applications won’t employ (default, mandatory) DNSSEC checking because none of the providers will offer it! Around and around we’ll go.
But this isn’t just a case against DNSSEC, it relates to a larger security architecture question. Namely: when you’re designing a security system, beware of relying on things that are outside of your application boundary.
What I mean by this is that your application (or transport layer implementation, etc.) should not be dependent. If possible, it should try to achieve its security goals all by itself, with as few assumptions about the system that it’s running on, unless those assumptions are rock solid. If there’s any doubt that these assumptions will hold in practice, your system needs a credible fallback plan other than “ah, screw it” or "let's be insecure".
The dependence on a secure DNS infrastructure is one example of this boundary-breaking problem, but it’s not the only one.
For example, imagine that you’re writing an application depends on having a strong source of pseudo-random numbers. Of course you could get these from /dev/rand (or /dev/urand), but what if someone runs your application on a system that either (a) doesn’t have these, or (b) has them, but they’re terrible?
Now sometimes you make the choice to absorb a dependency, and you just move on. Maybe DNSSEC is a reasonable thing to rely on. But before you make that decision, you should also remember that it’s not just a question of your assumptions breaking down. There are human elements to think of.
Remember that you may understand your design, but if you’re going to be successful at all, someday you’ll have to turn it over to someone else. Possibly many someones. And those people need to understand the fullness of your design, meaning that if you made eight different assumptions, some of which occur outside of your control, then your new colleagues won’t just have eight different ways to screw things up. They’ll have 2^8 or n^8 different ways to screw it up.
You as the developer have a duty to yourself and to those future colleagues to keep your assumptions right there where you can keep an eye on them, unless you’re absolutely positively certain that you can rely on them holding in the future.
Anyway, that's enough on this subject. There’s probably room on this blog for a longer and more detailed post about how DNSSEC works, and I’d like to write that post at some point. Dan obviously knows a lot more of the nitty-gritty than I do, and I’m (sort of) sympathetic to his position that DNSSEC is awesome. But that’s a post for the future. Not the DNSSEC-distant future, hopefully!
* Dan informs me that he already has a Pwnie, hence the title.
** Thomas Ptacek also has a much more convincing (old) case against DNSSEC.
*** In fairness to Adam, I think his point was something like 'this proposal is batsh*t insane', maybe we should just stick with option (1). I may be wrong.