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I'm trying to create a static library of static libraries. Here's my CMakeLists.txt

cmake_minimum_required(VERSION 2.8)

project(myRtspClient)

add_subdirectory(../third_party/Base64_live555 base64_live555)
add_subdirectory(../third_party/md5 md5)
add_subdirectory(../third_party/JRTPLIB jrtplib)

include_directories(include)
include_directories(../third_party/Base64_live555/include)
include_directories(../third_party/md5/include)
include_directories(jrtplib/src)
include_directories(../third_party/JRTPLIB/src)

file(GLOB SOURCES "*.cpp")

add_library(myRtspClient STATIC ${SOURCES})

add_library(libmd5 STATIC IMPORTED)
SET_PROPERTY(TARGET libmd5 PROPERTY IMPORTED_LOCATION ./md5/libmd5.a)

add_library(libbase64_live555 STATIC IMPORTED)
SET_PROPERTY(TARGET libbase64_live555 PROPERTY IMPORTED_LOCATION ./base64_live555/libbase64_live555.a)

add_library(libjrtp STATIC IMPORTED)
SET_PROPERTY(TARGET libjrtp PROPERTY IMPORTED_LOCATION ./jrtplib/src/librtp.a)

target_link_libraries(myRtspClient libmd5 libbase64_live555 libjrtp)
#install(TARGETS myRtspClient DESTINATION /usr/lib)

If you want to see the whole picture: https://github.com/lucaszanella/myRtspClient/blob/8658dbcb8ed071b8d2649a471455f57f268932f4/myRtspClient/CMakeLists.txt

As you see, I'm trying to create the target myRtspClient by linking it with libmd5 libbase64_live555 libjrtp. Since cmake gives no errors, even if I do

target_link_libraries(myRtspClient eewgg dsgsg dgsgsdgsg)

I can't be sure what is the error. The libraries are in the location I pointed. However, I don't know if they are in the first compilation. I tried on the second though, but who knows...

So, continuing... I tried lots of SET_PROPERTY like these:

SET_PROPERTY(TARGET libbase64_live555 PROPERTY IMPORTED_LOCATION ./base64_live555/libbase64_live555.a)

SET_PROPERTY(TARGET libbase64_live555 PROPERTY IMPORTED_LOCATION ./base64_live555)

SET_PROPERTY(TARGET libbase64_live555 PROPERTY IMPORTED_LOCATION base64_live555/libbase64_live555.a)

When I go to examples and try to build common_example.cpp (see my source tree in the link above if necessary) I do:

g++ common_example.cpp -I ../myRtspClient/include ../myRtspClient/libmyRtspClient.a

But I get linking errors like these:

utils.cpp:(.text+0x2f4): undefined reference to `MD5Init(MD5_CTX*)'
utils.cpp:(.text+0x316): undefined reference to `MD5Update(MD5_CTX*, unsigned char*, unsigned int)'
utils.cpp:(.text+0x32c): undefined reference to `MD5Final(MD5_CTX*, unsigned char*)'
../myRtspClient/libmyRtspClient.a(MediaSession.cpp.o): In function `MyRTPSession::MyRTPSession()':
MediaSession.cpp:(.text._ZN12MyRTPSessionC2Ev[_ZN12MyRTPSessionC5Ev]+0x1e): undefined reference to `jrtplib::RTPSession::RTPSession(jrtplib::RTPRandom*, jrtplib::RTPMemoryManager*)'
../myRtspClient/libmyRtspClient.a(myRtpSession.cpp.o): In function `MyRTPSession::IsError(int)':
myRtpSession.cpp:(.text+0x48): undefined reference to `jrtplib::RTPGetErrorString[abi:cxx11](int)'
../myRtspClient/libmyRtspClient.a(myRtpSession.cpp.o): In function `MyRTPSession::MyRTP_SetUp(MediaSession*)':
myRtpSession.cpp:(.text+0x1b5): undefined reference to `jrtplib::RTPSessionParams::RTPSessionParams()'
myRtpSession.cpp:(.text+0x25c): undefined reference to `jrtplib::RTPSession::Create(jrtplib::RTPSessionParams const&, jrtplib::RTPTransmissionParams const*, jrtplib::RTPTransmitter::TransmissionProtocol)'

What am I doing wrong in the linking process? libMyRtspClient should have all these libs linked to it.

UPDATE:

Seems like I cannot link static libraries together neither create a shared one from static ones. How should I pack all my code into one single shared and one static library?

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  • static libs don't link to other static libs. – tkausl Apr 25 '18 at 12:27
  • @tkausl ok, I changed to add_library(myRtspClient SHARED ${SOURCES}), not I get /usr/bin/ld: md5/libmd5.a(md5.cpp.o): relocation R_X86_64_PC32 against symbol _Z12MD5TransformPjPh' can not be used when making a shared object; recompile with -fPIC`. Seems like I cannot use static libraries to make a shared one? What would be the solution here? – Lucas Zanella Apr 25 '18 at 12:44
  • Seems like I cannot use static libraries to make a shared one? - You can. Simply follow the error message: recompile static library with -fPIC or compile shared library without it. – Tsyvarev Apr 25 '18 at 12:46
6

The first thing to know: one doesn't link a static library - one uses an archiver (ar on Linux), which just puts all object files into one archive - libXXX.a

It's not very usual to construct a static library from other static libraries, but not impossible (though I don't know how to do it with cmake exactly, but if everything else fails, you still have add_custom_command).

Let's assume you have two static libs libA.a and libB.a and would like to merge them into a combined library libALL.a. The most straight forward way would be to unpack both archives (remember static libraries are just archives after all), and pack all unpacked object-files into a new archive/static library libALL.a (please refer to man pages of ar for more information about used options):

ar -x libA.a
ar -x libB.a
ar -crs libALL.a *.o

Another possibility would be to use a mri-script for ar, using it we would avoid all unpacked object files laying around (and it is more robust, because not all object-files have *.o-extension):

ar -M <<EOM
    CREATE libALL.a
    ADDLIB libA.a
    ADDLIB libB.a
    SAVE
    END
EOM

Some people ran in addition

ar -s libALL.a 

or the equivalent

ranlib libALL.a 

to ensure that an archive index is created (this is the only thing that differentiate a static library from a simple archive), but it is build per default.

One more note: The intuitive (and more similar to the VisualS tudio command lib.exe /OUT:libALL.lib libA.lib libB.lib)

ar -crs libALL.a libA.a libB.a

does not produces an archive which can be used by the linker - ar expects object-files and is not smart enough to look into the archives to find them.


Shared libraries are linked. Furthermore, shared libraries need Position Independent Code, that means all object files must have been compiled with options -fPIC.

Often a library provides two versions:

  1. static, compiled without -fPIC
  2. shared, compiled with -fPIC

Being compiled without -fPIC, the static version is slightly more efficient. It also assures that a static library isn't used as dependency in a shared library, which could lead to violations of One Definition Rule.

As a rule of thumb, shared libraries should depend on other shared libraries and not static libraries.

Clearly, you could recompile all your static libraries with -fPIC and link them together to a single shared library - but I would not recommend it.

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