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I've been contemplating on writing a dlopen(), dlsym(), dlclose(), dlerror(), like library for one of my embedded projects where not even a C library exists (for which I already wrote my own C/C++ libraries for which can be found here www.libcaprice.com). But what's bugging me is implementing this dynamic library loader. I've taken a look at the paper: http://www.sco.com/developers/devspecs/gabi41.pdf But I can't seem to wrap my head around relocation and how you initialize the GOT.

At first I figured it should be easy to fopen() a library, and walk over the ELF header, validate it's a correct dynamic library, then search for some symbols when dlsym() is used. The problem with this is the library itself needs to be initialized, or more specifically the GOT. There also needs to be some relocation done to ensure that things are within certian bounds and allignment.

I've taken a look at some user-space implementations of this functionality, and they seem to be rather long, complex, and undocumented. So my question really is: are there any stand-alone opensource implementations of dydl that are licensed under a permissive licene, MIT or public domain perferably. Otherwise if there are none, and I will have to implement my own, can someone point me in the right direction of where I could start?

Please don't link the Application V Binary Interface Specification as I've already read the parts about dynamic linking and loading, and none seem to explain the concept of relocation in an understandable way.

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2 Answers 2

It all depends on your OS. At this point, I guess you already have lodable executables with static linking. Everything depends on the format you have chosen for your executables. Theoretically, all you have to do is load the library in dlopen pretty much like you load your executables, except that you will have to record information about each exported symbol.

Then, dlsym should retrieve the location of its symbol (after testing its existance at all), map the virtual page where it is located into the caller's address space (unless you load the whole library in that address space in dlopen) and return the ddress of the symbol.

From my experience, I'd advice you to :

  • Be careful when mapping pages to use segments and pages setup for execution
  • Implement it in the kernel and interface it using system calls (unless you are making a microkernel-like OS, which I haven't done)

Also, when I had to implement executables and libraries loading in my OS, I first created a library abstracting access to object files. For my lib, an executable (or library) is composed of : sections and symbols, each with different properties, and also of an API. Later, my design allowed me to load applications for my OS, Win32-based applications (with a Win32 API emulation layer) and some Linux applications (with POSIX emulation layers). All my emulation layers are in fact special functions that reproduce the effect of the client API. For example, my Win32 emulation layer's 'CreateWindow' function does call my OS's way of creating windows, and returns a HWND-like structure. Thanks to that, I am now able to run games made for Windows/DirectX under my system (though it's a bit buggy and slow anyways) and can add support for new systems as I wish. The last platform support I wrote was Android (Jelly Bean). They actually run under my JVM, which includes predefined APIs identical to Android's. Currently, I'm able to run sample APK applications that I find on several unofficial markets. I even have an option to emulate 'rooting' the device, which just switches the task to administrator priviledges. The most difficult part was to determine which kind of device I would chose to emulate. Currently, I'm determining it according to the devices conected to the system and the size of the screen (and presence of a touch-screen).

Sorry if I tend to tell my life, but this was just to show you how a good enough design can help you further improve your OS. Remember, the more you do now, the more you will be able to do later.

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There is a book named "Linkers and Loaders", along with the latest cut from the Tools Interface Standards Executable Linkeable Format, it may get you closer to what it takes to implement a dynamic loader. The book is probably out of print, but it is freely available below:


On the other hand, if you are looking for the glibc implementation, it's mostly kept inside the dlfcn directory inside the glibc source directory. A potentially interesting starting point is dlfcn/dlopen.c

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