The basic approach for this would be:
However, what do you want to achieve with this? Reference counting of some sort? Or is my_int supposed to be external to the library and hence needs to be "acquired"?
In that case, you might want to pass pointers to the library or use structures that you pass with each call.
It depends on whether or not your library code needs to have some internal state. If there is no internal state and the functionality rests solely inside the calls to foo and bar, then you should pass the appropriate data along with it.
Else, you might want to have some library initialization code and then queue buffers and register callback functions from the user program which the library then acts upon.
EDIT: If this question is about race conditions:
You need to be able to write to your data type atomically and read it atomically. Then you only have a non-critical race condition.
If you need to act on objects, arrays as a whole, then you will need to use mutual exclusion (mutex) locks.
The lock need to be a type that can be read/written atomically and then function foo will acquire the lock, edit data, release the lock. Function bar will do the same.
On truly parallel systems you will need hardware support as well as test-and-set commands, or you can still run into a live-lock.