You know what you did wrong already, so to explain what your particular implementation of C probably did:
When you call
printf, a new stack frame is pushed to the call stack. The call stack is a last in first out structure with one 'frame' per called function. So if
logStuff which called
printf then three consecutive frames would be for main, then logStuff, then printf. When printf returns, it's frame is removed from the structure and execution continues with logStuff.
So a frame usually contains at least the parameters passed to the function and storage for local variables. Those things may be one and the same, it's implementation dependant.
With a variadic function like
printf there's a stream of unnamed parameters. The bit patterns will be put into an appropriate place in the frame. But C is not a reflective language. Each bit patten doesn't inherently have a meaning: any one could be an integer, a float, or anything else. It also isn't a language that invests in bounds checking. You're trusted to write code that acts correctly.
printf determines the types and number of unnamed parameters from the string. So if you've given it false information, it will interpret the bit patterns with something other than their correct meaning and it may think there are fewer or more than are really there.
You told it there were more. So what probably happened was that the parameters were in the equivalent of an array and it read a value from beyond the end of the array. As it's all implementation dependent, that value may have been meant to represent anything. It could be the address of the caller. It could be uninitialised storage for another local variable. It could be bookkeeping. It could be the format string, incorrectly interpreted as an integer.
What it isn't is any reliable value. It may not even always be safe to read.