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Apple's goto fail security bug

In the code snipet below (available on http://opensource.apple.com/source/Security/Security-55471/libsecurity_ssl/lib/sslKeyExchange.c), and published especially by the famous german magazine "Spiegel" http://www.spiegel.de/fotostrecke/apple-software-probleme-bei-gesicherten-verbindungen-fotostrecke-111478.html

there is a duplicate goto fail:

Copyright by Spiegel Online Screenshot: Copyright by Spiegel Online

The function should check that the SLL - communication really is done with the desired communication partner. Due this bug, any key is accepted.

Is that by accident, or a well designed security flaw?
(The previous version of the src is identical without the duplicate "goto fail".)

How can such a bug be avoided?

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closed as primarily opinion-based by Zaph, Bruno, Leon Bambrick, Chris, Patrick Klug Feb 25 at 3:36

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise.If this question can be reworded to fit the rules in the help center, please edit the question.

Almost certainly an accident, in my opinion. Someone was editing, made some changes, then thought he changed them back but left the duplicated line in. It does illustrate why "goto" is a bad idea, and always using braces after every conditional, even around only a single statement, can be a good idea. It should be caught in code review, but maybe Apple is sloppy about code reviews like most of the rest of the world. –  Warren Dew Feb 24 at 21:39
If it is by will, then it was a long term planning: strictly avoiding parenthesis to have the chance to introduce the bug. –  AlexWien Feb 24 at 21:49
<tinfoil hat on> One of the favorite ways the NSA (or other TLA) gets code changed is to directly approach the developer with a patriotism pitch. "You do want to help keep your county safe, don't you?" That keeps the knowledge to one person. Not saying that is what happened here but this is the kind of thing that TLAs do. </tinfoil hat on> –  Zaph Feb 24 at 21:59
Another guess: Ctrl-S saves a file, Ctrl-D on some editors duplicate the line, both keys are neighbours. –  AlexWien Feb 25 at 20:05
In Xcode's "Other Warning Flags" setting, add "-Wunreachable-code". I tested it for this and it gave a warning for code after the second goto. Combined with “Treat Warnings As Errors” set to YES, it will generate an error. –  Walt Sellers Feb 26 at 17:18

3 Answers 3

Regarding: "How this bug could hav been avoided"

If this is how people at Apple program, then this is probably not the only/last bug

I don't think that it is a backdoor by intension, but I see here 4 bad programming practices that should never have happened

1- Use of goto (obviously)

2- No brackets around the statements inside the if condition, these should be used even with one statement to avoid such stupid mistakes

3- No proper code formatting applied, otherwise the second goto would have jumped 4 spaces backwards and became

4- Using only if instead of else if for the following if statements, which would have resulted in compilation failure after the second goto statements, and ultimately it could have been detected. I'd never use several ifs after one another instead of "if else" for no reason

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I think you have to consider the age of history of where this code came from. My bet is it's heritage goes back to NetBSD. Do not believe that this is representative of how Apple writes code. –  Zaph Feb 25 at 0:15
The if chain should have been one if statement joined by ||, including the sslRawVerify() call. The fail label is misleading as it is also used in success cases. –  EJP Feb 25 at 3:27
@EJP very true. –  Moataz Elmasry Feb 25 at 18:24
I wouldn't tag the "use of goto" as a bad programming practice in this case. That's basically the "mainstream" method for error recovering in C. You can see such pattern everywhere in the Linux kernel source code, MS drivers, etc. –  NNzz Feb 27 at 19:57

Not all bugs can be caught. However, you can do a lot to mitigate risks. The big one, as people mentioned, is code reviews. Review code early and often. If you break it up into small pieces you are more likely to catch mistakes than if you review 10,000 lines right before release.

A second strategy is static analysis. There are tools (and you can write your own) that look over code and detect (obvious) errors. These will not catch all bugs, not even close, but they can catch a lot of the easy ones reliably, especially in large code bases

Third, good unit testing. If that code had been tested thoroughly, somebody should have caught the bug (since it seems it should default to fail every time)

Fourth, fuzzing. Fuzz anything that takes any kind of input. Fuzzing won't find all bugs, but by probability it will find the most common ones, and this is the technique your attackers would probably be using.

The number one rule of security (I suppose #0 can be good coding practices) is to know your attacker. Do what your attacker would do. Have a pentest team (or hire external testers) and attack your own product.

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All good points. "know your attacker" is an interesting proposition when the attacker may well be the largest government on Earth with a huge spy program and black budget. Add in patriotism and rubber hoses an you have a formable attacker. –  Zaph Feb 25 at 0:19

I propose that there is no full proof way of preventing this sort of thing.

Even in a code review, with file sized of over 1900 lines it is not reasonable for all such errors to be caught.

The best bet is in creating smaller units and smaller functions/modules but even then things will slip through. Error handling code is the most easily missed, focus is mainly on the happy paths.

The Air France Flight 447 crash was directly due to poor error handling, in this case an ambiguous error message that the crew could not use.

Note that this is Open Source code which is supposed to be more secure, etc just because there can be more eyeballs on it. Well, that did not help here--unless one subscribes the the "tinfoil hat" theories but that would be help in reverse.

There was the potential of thousands to review the code but that didn't help.

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no it is not open source code. altough the name of the homepage migth make believea –  AlexWien Feb 25 at 3:17

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