I'm using dlsym()
in C
and I have a question whether the return value of dlsym()
should be explicitly cast or if it is implicitly cast correctly. Here is the function:
double (*(compile)(void))(double x, double y)
{
if (system("scan-build clang -fPIC -shared -g -Wall -Werror -pedantic "
"-std=c11 -O0 -lm foo.c -o foo.so") != 0) {
exit(EXIT_FAILURE);
}
void *handle;
handle = dlopen("./foo.so", RTLD_LAZY);
if (!handle) {
printf("Failed to load foo.so: %s\n", dlerror());
exit(EXIT_FAILURE);
}
foo f;
f = (foo)dlsym(handle, "foo");
if (!f) {
printf("Failed to find symbol foo in foo.so: %s\n", dlerror());
exit(EXIT_FAILURE);
}
return f;
}
The function compile()
does not take a value and returns a pointer to a function that takes two double
s as input and which returns a double. I then set a system call which compiles a shared object foo.so
. I then open foo.so
with dlopen()
. Then dlsym()
finds foo
in foo.so
and returns an object of type foo
which I defined in a header as:
typedef double (*foo)(double, double);
Do I have to cast dlsym()
?
The C standard is written to assume that pointers to different object types, and especially pointers to function as opposed to object types, might have different representations. That's why, in general, you don't want to intermix pointers, or if you do a modern compiler will warn you, and if you want to silence the warnings you typically use an explicit cast.
dlsym
, on the other hand, by its very existence assumes that all pointers are pretty much the same, because it's supposed to be able to return you any pointer to any datatype -- object or function -- in your object file.
In other words, code that uses dlsym
is inherently nonportable, in the sense that it's not widely portable, in the sense that it's portable "only" to those machines where all pointers are safely interconvertible. (Which is of course virtually all of the popular machines today.)
So, yes, you'll need to cast the pointers to silence the warnings, and in doing so you may be making your code less portable to machines where all pointers aren't the same (and where the warnings, if unsilenced, would correctly inform you that your code won't work), but dlsym
is never going to work (or even exist in its current form) on those machines, anyway.
(And if gcc -pedantic
warns you about even an explicit cast from void *
to a function pointer type, there's not much you can do except switch to a different version of gcc
, or of course not use -pedantic
.)
Addendum: My answer made it sound like converting between pointers to different types of data might be an issue, but that's generally no problem. Type void *
is well defined to be the generic data pointer: it's what malloc
returns, and it's defined to be quietly convertible to any object pointer type -- that is, you're not supposed to even need a cast. So it's almost a fine choice for the return type of dlsym
, except for the wee problem of function pointers. malloc
never has this problem (you'd hardly ever try to malloc a pointer to a function), while dlsym
always has this problem (the symbols you're generally trying to access in dynamically-loaded object files are code at least as often as they're data). But function pointers are what void *
isn't guaranteed to convert to, so you're very likely to get warnings, which is why you need the casts, and you might get warnings under -pedantic
even with the casts.
dlsym()
returns a void*
value. This pointer value can refer either to an object or to a function.
If it points to an object, then no cast is necessary, since C defines an implicit conversion from void*
to any pointer-to-object type:
int *ptr = dlsym(handle, "name");
If it points to a function (which is probably much more common), there is no implicit conversion from void*
to any pointer-to-function type, so a cast is necessary.
In standard C, there's no guarantee that a void*
value can meaningfully be converted to a function pointer. POSIX, which defines dlsym()
, implicitly guarantees that the void*
value returned by dlsym()
can be meaningfully converted to a pointer-to-function type -- as long as the target is of the correct type for the corresponding function.
Assuming we're dealing with a void function with no parameters:
typedef void (*func_ptr_t)(void);
func_ptr_t fptr = (func_ptr_t)dlsym(handle, "name");
As it happens, gcc (with -pedantic
) warns about this:
warning: ISO C forbids conversion of object pointer to function pointer type
This warning is not strictly correct. ISO C does not actually forbid converting an object pointer to a function pointer type. The standard lists several constraints that may not be violated by a cast operator; converting void*
to a function pointer type is not one of them. The C standard doesn't define the behavior of such a conversion, but since POSIX does in this particular case that's not a problem.
A comment on Steve Summit's answer suggests that this:
*(void **) (&f) = dlsym(handle, "foo");
will silence gcc's warning. It will, but it makes assumptions that are not guaranteed by either C or POSIX. POSIX guarantees that the result of dlsym
may be converted to a function pointer; it doesn't guarantee that it has the same representation or alignment. It's likely to work, but I don't recommend it.
来源:https://stackoverflow.com/questions/31526876/casting-when-using-dlsym