I am working on a collection of reusable libraries that need to be made available both as static libraries (.a & .lib) and as dynamic libraries (.so & .dll).
I want dependency management for the dynamic libraries to be as simple as possible (you only take one dynamic library for each bit of functionality that you need), so all of the functional dependencies that each dynamic library has are actually statically linked into it. Thus, the dynamic libraries offer their functionality to downstream clients dynamically, but their upstream dependencies are satisfied statically.
The upshot of all this is that all of my static libraries need to be compiled with -fPIC so that their code is suitable for linkage into a shared library. The same goes for any third-party library that we use. It has to be a static library, compiled with -fPIC.
(I could, I suppose, build both PIC and non-PIC variants of my libraries - but I really do not want to compile the libraries a third time for each target platform -- twice is quite (more than) enough!).
So, here is my problem:
I have been trying to compile boost_system as a static library with -fPIC, but I am not sure if I am succeeding:
/b2 --build-type=complete variant=release link=static threading=multi runtime-link=static --layout=versioned --cxxflags=-fPIC
This build produces .a files as output, as expected. However, when I try to link the boost static library into one of my shared libraries, I start getting an error message that indicates that boost_system is not Position Independent Code:
.../dependencies/external/boost/1_54_0/stage/lib/linux_x86_64/libboost_system-gcc46-s-1_54.a(error_code.o): relocation R_X86_64_32 against `.rodata.str1.1' can not be used when making a shared object; recompile with -fPIC
However, I have (attempted) to build boost with -fPIC. Is there any test that I can use to determine if libboost_system is actually PIC code? I.e. if the problem is with building boost - or with linking it to my application.