32

My problem can be summarised in the following:

bar.c:

#include <stdio.h>

void bar() {
    printf("bar\n");
}

main.c:

#include <stdio.h>

void __attribute__((weak)) bar() {
    printf("foo\n");
}

int main() {
    bar();
    return 0;
}

Makefile:

all:
    gcc -c bar.c
    ar -rc libbar.a bar.o
    gcc main.c -L. -lbar

Output:

$ ./a.out
foo

So the weak symbol bar in main.c is not overwritten by the strong symbol in bar.c due to bar.c being linked to main.c in a static library libbar.a.

How can I tell gcc to make the strong symbol in libbar.a to overwritten the weak symbol in main.c?

3 Answers 3

55

I am puzzled by the answer given by max.haredoom (and that it was accepted). The answer deals with shared libraries and dynamic linking, whereas the question was clearly about the behavior of static linking using static libraries. I believe this is misleading.

When linking static libraries, ld does not care about weak/strong symbols by default: it simply resolves an undefined symbol to a first-encountered symbol (so the order of static libraries in the command line is important).

However, this default behavior can be changed using the --whole-archive option. If you rewrite your last step in Makefile as follows:

gcc main.c -L. -Wl,--whole-archive -lbar -Wl,--no-whole-archive

Then you will see:

$ ./a.out
bar

In a nutshell, --whole-archive forces the linker to scan through all its symbols (including those already resolved). If there is a strong symbol that was already resolved by a weak symbol (as in our case), the strong symbol will overrule the weak one.

Also see a great post on static libraries and their linking process "Library order in static linking" by Eli Bendersky and this SO question.

3
  • thank you! +1 for your clarification on the static linking. please dont ask me why i ignored the static linking... Jun 29, 2016 at 21:22
  • 2
    This works for me, however, I've looked at the manual, and I think it should be noted that the --whole-archive option also adds all the symbols within the given libraries, which will solve this problem but will increase the size of the executable and may produce additional linking errors. Aug 7, 2018 at 16:13
  • In response to the above, include the libs you want scanned entirely, with -Wl,--whole-archive then turn it off with -Wl,--no-whole-archive. As is shown in the example this will only include the libs you specifiy. (not all the libs) Jan 6 at 0:38
9

Generally speaking: if you don't put a weak implementation into your main, the linker will resolve it at last at runtime. But if you implement it in main.c, you will only be able to override it with a strong bound (bar.c) when linking this static.

Please read http://www.bottomupcs.com/libraries_and_the_linker.html - it contains a lot of interesting stuff on this topic.

I've made a test myself:

bar.c

#include <stdio.h>

void bar()
{
        puts("bar.c: i'm the strong bar()");
}

baz.c

#include <stdio.h>

void __attribute__((weak)) bar() 
{
        puts("baz.c: i'm the weak bar()");
}

main.c

#include <stdio.h>

#ifdef V2
        void __attribute__((weak)) bar()
        {
                puts("main: i'm the build in weak bar()");
        }
#else
        void __attribute__((weak)) bar();
#endif

int main()
{
    bar();
    return 0;
}

My Makefile:

all:
    gcc -c -o bar.o bar.c
    gcc -shared -fPIC -o libbar.so bar.o
    gcc -c -o baz.o baz.c
    gcc -shared -fPIC -o libbaz.so baz.o
    gcc -o main1 main.c -L. -lbar -lbaz
    gcc -o main2 main.c -L. -lbaz -lbar
    LD_LIBRARY_PATH=. ./main1                                   # => bar.c
    LD_LIBRARY_PATH=. ./main2                                   # => baz.c
    LD_LIBRARY_PATH=. LD_PRELOAD=libbaz.so ./main1              # => baz.c (!!)
    LD_LIBRARY_PATH=. LD_PRELOAD=libbaz.so ./main2              # => baz.c
    gcc -o main3 main.c bar.o baz.o
    gcc -o main4 main.c baz.o bar.o
    ./main3                                                     # => bar.c
    ./main4                                                     # => bar.c
    gcc -DV2 -o main5 main.c -L. -lbar -lbaz
    gcc -DV2 -o main6 main.c -L. -lbaz -lbar
    LD_LIBRARY_PATH=. ./main5                                   # => main's implementation
    LD_LIBRARY_PATH=. ./main6                                   # => main's implementation
    gcc -DV2 -o main7 main.c -L. -lbar -lbaz
    gcc -DV2 -o main8 main.c -L. -lbaz -lbar
    LD_LIBRARY_PATH=. LD_PRELOAD=libbaz.so ./main7              # => main's implementation
    LD_LIBRARY_PATH=. LD_PRELOAD=libbaz.so ./main8              # => main's implementation
    gcc -DV2 -o main9  main.c -L. -lbar -lbaz
    gcc -DV2 -o main10 main.c -L. -lbaz -lbar
    LD_LIBRARY_PATH=. LD_PRELOAD=libbar.so ./main9              # => main's implementation
    LD_LIBRARY_PATH=. LD_PRELOAD=libbar.so ./main10             # => main's implementation
    gcc -c bar.c
    gcc -c baz.c
    gcc -o main11 main.c bar.o baz.o
    gcc -o main12 main.c baz.o bar.o
    ./main11                                                    # => bar.c
    ./main12                                                    # => bar.c
    gcc -o main13 -DV2 main.c bar.o baz.o
    gcc -o main14 -DV2 main.c baz.o bar.o
    ./main13                                                    # => bar.c
    ./main14                                                    # => bar.c

Take a look at main1 && main2... if you don't put any weak implementation into main.c but keep the weak one in a library and the strong one in another lib., you'll be able to override the weak one if the strong lib defines a strong implementation of bar().

3
  • 2
    Thanks. Separate all weak implementation into another library is a solution. Oct 28, 2012 at 2:20
  • The only reference to this important __attribute__((weak)) issue on the Internet.
    – feilipu
    Nov 25, 2015 at 6:58
  • Thx! You see it's been some trial-and-error. But the question was really interesting. Jan 21, 2016 at 20:22
1

You should separate the weak implementation into another library.

Only declare it in main.

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