I would like to have control over the type of the libraries that get found/linked with my binaries in CMake. The final goal is, to generate binaries "as static as possible" that is to link statically against every library that does have a static version available. This is important as would enable portability of binaries across different systems during testing.
ATM this seems to be quite difficult to achieve as the FindXXX.cmake packages, or more precisely the find_library command always picks up the dynamic libraries whenever both static and dynamic are available.
Tips on how to implement this functionality - preferably in an elegant way - would be very welcome!
I did some investigation and although I could not find a satisfying solution to the problem, I did find a half-solution.
The problem of static builds boils down to 3 things:
Building and linking the project's internal libraries.
Pretty simple, one just has to flip the BUILD_SHARED_LIBS
switch OFF
.
Finding static versions of external libraries.
The only way seems to be setting CMAKE_FIND_LIBRARY_SUFFIXES
to contain the desired file suffix(es) (it's a priority list).
This solution is quite a "dirty" one and very much against CMake's cross-platform aspirations. IMHO this should be handled behind the scenes by CMake, but as far as I understood, because of the ".lib" confusion on Windows, it seems that the CMake developers prefer the current implementation.
Linking statically against system libraries.
CMake provides an option LINK_SEARCH_END_STATIC
which based on the documentation: "End a link line such that static system libraries are used." One would think, this is it, the problem is solved. However, it seems that the current implementation is not up to the task. If the option is turned on, CMake generates a implicit linker call with an argument list that ends with the options passed to the linker, including -Wl,-Bstatic
. However, this is not enough. Only instructing the linker to link statically results in an error, in my case: /usr/bin/ld: cannot find -lgcc_s
. What is missing is telling gcc as well that we need static linking through the -static
argument which is not generated to the linker call by CMake. I think this is a bug, but I haven't managed to get a confirmation from the developers yet.
Finally, I think all this could and should be done by CMake behind the scenes, after all it's not so complicated, except that it's impossible on Windows - if that count as complicated...
If you love us? You can donate to us via Paypal or buy me a coffee so we can maintain and grow! Thank you!
Donate Us With