The Security and Design guidelines go to great length outlining various methods to make it more difficult for an attacker to compromise in-app billing implementation.
Especially noted is how easy it is to reverse-engineer a
.apk file, even if obfuscated via Proguard. So they even recommend modifying all sample application code, especially "known entry points and exit points".
What I find missing is any reference to the wrapping certain verification methods in a single method, like the static
Security.verify() which returns
boolean: A good design practice (reducing code duplication, reusable, easier to debug, self-documenting, etc.) but all an attacker needs to do now is identify that method and make it always return
true... So regardless how many times I used it, delayed or not delayed, randomly or not, it simply doesn't matter.
On the other hand, Java doesn't have macros like in C/C++, which allows reducing source code duplication, but doesn't have a single exit point for a
So my questions:
Is there an inherent contention between the well known software engineering/coding practices and design for so called security? (in the context of Java/Android/secure transactions at least)
What can be done to mitigate the side-effects of "design for security" which seems like "shooting oneself in the foot" in terms of over-complicating software that could have been simpler, more maintainable and easier to debug?
Can you recommend good sources for further studying this subject?