Assigning pointers of different object types to each other is allowed as long as no alignment requirements are violated: The assignment will involve an (implicit) type conversion, so it is as (un)problematic as assigning a
float to an
int - it works in most cases but is allowed to blow up when a meaningful conversion is impossible.
char * and
void * have compatible alignment requirements per spec, so assigning a
char ** to a
void ** variable (and vice versa) is never problematic. They even have compatible representation, which means in principle, accessing a
char * through an expression of type
void * - eg by dereferening a
void ** which actually points to a
char * - will work as expected in most cases. Of course, the converse (accessing a
void * by dereferencing a
char **) holds true as well.
For example, the
p conversion specifier for
printf() expects a
void * and passing in an arbitrary pointer type is undefined behaviour. However, in case of
char *, it should work even on exotic architectures (eg with different pointer representations) as long as the implementation conforms to the C standard.
Where problems may arise is aliasing analysis: Due to the effective typing rules, a
void ** and a
char ** can't alias, and if the programmer breaks that promise, strange things may happen. One should realize that because of effective typing (aka strict aliasing), C is actually strongly typed - the type system is just very unsound (ie doesn't protect you from violating its invariants)...