Executable loads shared object at run time via dlopen.

The shared object references some symbol (a function) that is actually compiled into the main executable.

This works fine if I add -rdynamic to gcc when linking the executable.

-rdynamic exports all non-static symbols of the executable. My shared object only needs a select few.

Question: Is there a way to achieve the effect of -rdynamic, but restricted the the few select symbols that I know are needed by my shared object?


At least two people misunderstood the question, so I try to clarify:

This question is about exporting a symbol from the main executable.

This question is not about exporting a symbol from a dynamic library.

Here is a minimal example:

func.h, the common header file

#include <stdio.h>
void func(void);

main.c, the main executable code:

#include <dlfcn.h>
#include "func.h"

// this function is later called by plugin
void func(void) {

int main() {
  void * plugin_lib = dlopen("./plugin.so", RTLD_NOW);
  printf("dlopen -> %p, error: %s\n", plugin_lib, dlerror());

  // find and call function "plugin" in plugin.so
  void (*p)(void); // declares p as pointer to function
  p = dlsym(plugin_lib, "plugin");

  return 0;

plugin.c, code for the plugin that is loaded at runtime:

#include "func.h"

void plugin()

If I compile with

$ gcc -o main main.c -ldl
$ gcc -shared -fPIC -o plugin.so plugin.c

Then plugin.so cannot be loaded, because it references the symbol func, which cannot be resolved:

$ ./main
dlopen -> (nil), error: ./plugin.so: undefined symbol: func
Segmentation fault (core dumped)

I can convince the main executable to export all its global symbols by compiling with -rdynamic:

$ gcc -rdynamic -o main main.c -ldl
$ ./main
dlopen -> 0x75e030, error: (null)

But this fills the dynamic symbol table unnecessarily with all symbols.

(This dynamic symbol table can be inspected with nm -D main.)

The question is, how can I add only "func" to the dynamic symbol table of the main executable, and not everything.


Unfortunately it's harder to achieve this for executables. You need to generate a list of symbols that you want to export and then add -Wl,--dynamic-list=symfile.txt to LDFLAGS.

Here's example of how it's done in Clang (and here's the script they use to generate the symbols file).


You could do it with the visibility attribute of GCC.

Declare the function you need to export with __attribute__ ((visibility ("default"))) flag. Then compile your whole library passing -fvisibility=hidden argument to GCC.

For full explanation on this, refer to the following GCC documentation page.

  • 1
    Thank you, but No. My question is about exporting symbols from the main executable, not from a library. – Ludwig Schulze May 10 '16 at 21:16

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.