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Recently I've picked up one of my old projects and restarted it, pretty much from scratch. I've been sick for awhile, so I've had time to crack down hard and implement tons of functionality. However one thing that I feel would be a good idea to implement is module loading. I want to do kernel mode dynamic loading of modules.

The word modules is a bit ambiguous, the correct term would just be to load libraries, such as a miniture implementation of the C library for kernel mode drivers or standard things like the PIT and keyboard which are on IRQ 0 & 1. The method I'm trying to achieve is a bit self-sustaining; in the aspect that the modules my kernel will load, will be used in the kernel itself to get into user mode.

As an example, my kernel uses very few functions from the C library, which I've implemented myself. These functions themselfs are used in the setup of my GDTs, IDTs, IRQs, ISRs etc, etc. I would like to abstract these functions to a library that the kernel can load and use. Which means the kernel itself will require module loading at the very first stage, before anything is setup.

Now, I've thought of a few ways to do this myself, such as adding a structure to this library with a table of function pointers that are assigned the address of the functions in the library itself. Compiling the library as an aout-kludge file, loading the library into the kernel as a void * ( which is okay since I have a working allocator ), and then figuring out the offset of the structure, stepping into the void pointer that much, and recreating the structure in the kernel. This does not sound like it would work, since the table of function pointers need to be assigned, which means there needs to be an initialize function in the library itself. How would that be called, even if I knew the address?

I'm clueless as to how I could implement such a loader, and is it even worth it? I want to abstract as much as I possibly can, my kernel has a modular design. I also do expect to load drivers and other things with this method, I'm just unsure how I would implement it. I tried various methods already, and they all failed. What should I do?

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1 Answer 1

I would recommend you first write a dynamic loader in user space. The techniques needed are very similar, and you may be able to adapt much of the code to kernel space later. Also, don't use a.out and don't make up your own 'table of function pointers' - use a more modern format such as ELF. The compile-time tools already exist, so this will save you a lot of effort; you can just write an appropriate linker script and build straight from a Linux GCC.

As it happens, the Windows kernel does something very similar to what you say - the Windows kernel (ntoskrnl.exe) is a PE executable file linking in routines from various DLLs (PSHED.dll, HAL.dll, KDCOM.dll, CLFS.sys, and Cl.dll on my system). In this case, the NTLDR program loads all files required by ntoskrnl.exe into memory, and a boot stub in ntoskrnl.exe then performs dynamic linking. Later the same dynamic linker can be used to load other drivers as well.

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