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Difference between shared objects (.so), static libraries (.a), and DLL's (.so)?
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Problem
I have been involved in some debate with respect to libraries in Linux, and would like to confirm some things.
It is to my understanding (please correct me if I am wrong and I will edit my post later), that there are two ways of using libraries when building an application:
The obvious advantage of static libraries is that they allow the entire application to be self-contained, while the benefit of dynamic libraries is that the ".so" file can be replaced (ie: in case it needs to be updated due to a security bug) without requiring the base application to be recompiled.
I have heard some people make a distinction between shared objects and dynamic link libraries (DLL's), even though they are both ".so" files. Is there any distinction between shared objects and DLLs when it comes to C/C++ development on Linux or any other POSIX compliant OS (ie: MINIX, UNIX, QNX, etc)? I am told that one key difference (so far) is that shared objects are just used at runtime, while DLL's must be opened first using the dlopen() call within the application.
Finally, I have also heard some developers mention "shared archives", which, to my understanding, are also static libraries themselves, but are never used by an application directly. Instead, other static libraries will link against the "shared archives" to pull some (but not all) functions/resources from the shared archive into the static library being built.
Update
In the context in which these terms were provided to me, it was effectively erroneous terms used by a team of Windows developers that had to learn Linux. I tried to correct them,
It is to my understanding (please correct me if I am wrong and I will edit my post later), that there are two ways of using libraries when building an application:
- Static libraries (.a files): At link time, a copy of the entire library is put into the final application so that the functions within the library are always available to the calling application
- Shared objects (.so files): At link time, the object is just verified against its API via the corresponding header (.h) file. The library isn't actually used until runtime, where it is needed.
The obvious advantage of static libraries is that they allow the entire application to be self-contained, while the benefit of dynamic libraries is that the ".so" file can be replaced (ie: in case it needs to be updated due to a security bug) without requiring the base application to be recompiled.
I have heard some people make a distinction between shared objects and dynamic link libraries (DLL's), even though they are both ".so" files. Is there any distinction between shared objects and DLLs when it comes to C/C++ development on Linux or any other POSIX compliant OS (ie: MINIX, UNIX, QNX, etc)? I am told that one key difference (so far) is that shared objects are just used at runtime, while DLL's must be opened first using the dlopen() call within the application.
Finally, I have also heard some developers mention "shared archives", which, to my understanding, are also static libraries themselves, but are never used by an application directly. Instead, other static libraries will link against the "shared archives" to pull some (but not all) functions/resources from the shared archive into the static library being built.
Update
In the context in which these terms were provided to me, it was effectively erroneous terms used by a team of Windows developers that had to learn Linux. I tried to correct them,
Solution
I've always thought that DLLs and shared objects are just different terms for the same thing - Windows calls them DLLs, while on UNIX systems they're shared objects, with the general term - dynamically linked library - covering both (even the function to open a .so on UNIX is called
They are indeed only linked at application startup, however your notion of verification against the header file is incorrect. The header file defines prototypes which are required in order to compile the code which uses the library, but at link time the linker looks inside the library itself to make sure the functions it needs are actually there. The linker has to find the function bodies somewhere at link time or it'll raise an error. It ALSO does that at runtime, because as you rightly point out the library itself might have changed since the program was compiled. This is why ABI stability is so important in platform libraries, as the ABI changing is what breaks existing programs compiled against older versions.
Static libraries are just bundles of object files straight out of the compiler, just like the ones that you are building yourself as part of your project's compilation, so they get pulled in and fed to the linker in exactly the same way, and unused bits are dropped in exactly the same way.
dlopen() after 'dynamic library').They are indeed only linked at application startup, however your notion of verification against the header file is incorrect. The header file defines prototypes which are required in order to compile the code which uses the library, but at link time the linker looks inside the library itself to make sure the functions it needs are actually there. The linker has to find the function bodies somewhere at link time or it'll raise an error. It ALSO does that at runtime, because as you rightly point out the library itself might have changed since the program was compiled. This is why ABI stability is so important in platform libraries, as the ABI changing is what breaks existing programs compiled against older versions.
Static libraries are just bundles of object files straight out of the compiler, just like the ones that you are building yourself as part of your project's compilation, so they get pulled in and fed to the linker in exactly the same way, and unused bits are dropped in exactly the same way.
Context
Stack Overflow Q#9688200, score: 129
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