Having just seen a round of code fixing things like this, using an insufficiently secure random number generator is a great way to open yourself up to security vulnerabilities, and do so in a way that won't be detected until you're subject to a deliberate attack.
As an extreme example of this, consider the Debian openssl/ssh/etc vulnerability. That that went undetected for only just under two years is amazing - in something less wide-spread than Debian, I imagine it would lie buried for at least twice as long.
As a simpler example of something that's insecure, consider
java.util.Random. This uses a very simple and very fast algorithm to go from one random number to the next, has only 48 bits of internal state, and if you ever generate a 64-bit number from it that you expose to the user, you've then exposed to the user all of your RNG's internal state. (A replacement for java programmers is the aptly named
Yes, in some sense it's "just" a matter of educating programmers to pay attention to when they're generating a security-sensitive random number and when they aren't, but you only need to miss one spot in your authentication-token code to really screw you.