It's a bug if a lock is taken on a mutex and nothing ever releases the lock.
However, that doesn't necessarily mean that
foo1() has to release the lock, but something must.
There are patterns where one function will acquire a lock, and another will release it. But you need to take special care that these more complex mutex handling patterns are coded correctly. You might be looking at an example of this (and the boiled-down snippet in the question doesn't include that additional complexity).
And as Neil Butterworth mentioned in a comment, there are many situations in C++ where a mutex will be managed by an RAII class, so the lock will be released automatically when the 'lock manager' object gets destroyed (often by going out of scope). In this case, it may not be obvious that the lock is being released, since that is done as a side effect of the variable merely going out of scope.