Easy check for unresolved symbols in shared libraries?

84
votes

I am writing a fairly large C++ shared-object library, and have run into a small issue that makes debugging a pain:

If I define a function/method in a header file, and forget to create a stub for it (during development), since I am building as a shared object library rather than an executable, no errors appear at compile-time telling me I have forgotten to implement that function. The only way I find out something is wrong is at runtime, when eventually an application linking against this library falls over with an 'undefined symbol' error.

I am looking for an easy way to check if I have all the symbols I need at compile time, perhaps something I can add to my Makefile.

One solution I did come up with is to run the compiled library through nm -C -U to get a demangled list of all undefined references. The problem is this also comes up with the list of all references that are in other libraries, such as GLibC, which of course will be linked against along with this library when the final application is put together. It would be possible to use the output of nm to grep through all my header files and see if any of the names corresponding.. but this seems insane. Surely this is not an uncommon issue and there is a better way of solving it?

4
c++linkershared-libraries
nm -C -u has saved me multiple times! (note the lowercase -u on my system.) Leaving this comment here so that I can find it the next time that I need it.dpritch

4 Answers

95
votes

Check out the linker option -z defs / --no-undefined. When creating a shared object, it will cause the link to fail if there are unresolved symbols.

If you are using gcc to invoke the linker, you'll use the compiler -Wl option to pass the option to the linker:

gcc -shared ... -Wl,-z,defs

As an example, consider the following file:

#include <stdio.h>

void forgot_to_define(FILE *fp);

void doit(const char *filename)
{
    FILE *fp = fopen(filename, "r");
    if (fp != NULL)
    {
        forgot_to_define(fp);
        fclose(fp);
    }
}

Now, if you build that into a shared object, it will succeed:

> gcc -shared -fPIC -o libsilly.so silly.c && echo succeeded || echo failed
succeeded

But if you add -z defs, the link will fail and tell you about your missing symbol:

> gcc -shared -fPIC -o libsilly.so silly.c -Wl,-z,defs && echo succeeded || echo failed
/tmp/cccIwwbn.o: In function `doit':
silly.c:(.text+0x2c): undefined reference to `forgot_to_define'
collect2: ld returned 1 exit status
failed
19
votes

On Linux (which you appear to be using) ldd -r a.out should give you exactly the answer you are looking for.

UPDATE: a trivial way to create a.out against which to check:

 echo "int main() { return 0; }" | g++ -xc++ - ./libMySharedLib.so
 ldd -r ./a.out
9
votes

What about a testsuite ? You create mock executables that link to the symbols you need. If the linking fails, it means that your library interface is incomplete.

4
votes

I had the same problem once. I was developing a component model in C++, and, of course, components should load at runtime dynamically. Three solutions come to mind, that were the ones I applied:

  1. Take some time to define a build system that is able to compile statically. You'll lose some time engineering it, but it will save you much time catching these annoying runtime errors.
  2. Group your functions in well-known and well-understood sections, so that you can group of functions/stubs to be sure that each corresponding function has its stub. If you take the time on documenting it well, you can write perhaps a script that checks the definitions (via, for example, its doxygen comments) and check the corresponding .cpp file for it.
  3. Do several test executables that load the same set of libraries and specify the RTLD_NOW flag to dlopen (if you're under *NIX). They will signal the missing symbols.

Hope that helps.