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Is it possible to create a bootloader in C or C++ without using some type of Assembler (and preferably without using __asm)? I'm writing an Operating System and would like it to be completely written in C and C++.

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My first reaction was "no" because you need a 16-bit compiler for the early part of the boot, but I guess if you have that, there isn't too much stopping you (assuming you can use intrinsics, and that you have some tool to convert your executables into raw format)... curious myself actually. – Mehrdad Jul 24 '11 at 17:41
It might be possible in UEFI as for plain old bios, it is simply not possible. – xeon111 Jul 24 '11 at 17:47
@Mehrdad - there's no way in C to write code outside the context of a function, which is going to be pretty important, even if you do have access to intrinsics. How would you set up the original stack pointer? Pretty much every function call is going to start with a push instruction, so there's a big Catch-22 there. Intrinsics and inline assembly are a big pain for portability too - I'd much prefer to see a flat assembly entry point for a bootloader. – Carl Norum Jul 24 '11 at 17:59
@Mehrdad - if you use magic compiler features to write code that looks like C but isn't, that doesn't really count. It's certainly quite possible by adding features to the compiler to generate special behaviour. That doesn't make your code C, though. Jason is still right about setting up the stack pointer - how are you going to solve that problem without assembly? Use compiler intrinsics? That's still cheating... – Carl Norum Jul 24 '11 at 23:21
Since you haven't specified a target processor, this isn't answerable. – bmargulies Jul 25 '11 at 22:11

That's pretty system dependent. In most cases, the answer is going to be no - you will need to write some custom assembly to set up the C runtime before you start running your C code. There are some exceptions, however. The ARM Cortex-M0, for example, can run C code straight out of reset.

Presumably, though, you're not using an M0, so you're going to need to write some assembly. Again, it's system/chip dependent, but you might be able to get away with something as simple as:

    call c_entry_point

which simply initializes the stack pointer and calls your C program's entry point. Of course, this simple a setup depends on your chip having a reset vector/vector table that supports it, RAM (or something like RAM) being initialized before the reset vector gets called, and so on. There tend to be a lot of "gotchas" in early system initialization.

Prepare to get pretty friendly with your compiler, assembler, and linker documentation - generating a flat binary that you can flash down as a first stage bootloader is often a big pain in and of itself.

Good luck!

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Nice answer. I would pay (reputation) to see a full code example written out that calls a C function starting with a naked boot (e.g. in qemu). – Kerrek SB Jul 24 '11 at 18:04
@Carl: No, you do NOT need assembler to set up a stack pointer. You can create a naked function with no prologue and epilogue, and do things by hand. -1 since that's simply not correct (will fix if that's fixed). – Mehrdad Jul 24 '11 at 18:10
According to the gcc-documentation, "Use this attribute on the ARM, AVR, MCORE, RX and SPU ports to indicate that the specified function does not need prologue/epilogue sequences generated by the compiler. It is up to the programmer to provide these sequences. The only statements that can be safely included in naked functions are asm statements that do not have operands. All other statements, including declarations of local variables, if statements, and so forth, should be avoided. – Jason Jul 24 '11 at 18:54
Naked functions should be used to implement the body of an assembly function, while allowing the compiler to construct the requisite function declaration for the assembler." ... So it seems that a naked function will not suffice for setting up a stack ... you're still going to need some asm to setup your initial stack. – Jason Jul 24 '11 at 19:00
@Mehrdad, but that's not standard C, then. If you have special compiler features that let you fake it out, that's a different story. I stand by my answer. – Carl Norum Jul 24 '11 at 23:19

Assuming this is for x86, you can probably get something running in 16bit mode if you have the right compiler options and manage to get the layout of your bootsector correct with the right linker magic.

But you won't get far with plain C (or C++): you'll need to mask interrupts real fast, and there is no C function for that. Assembly is required.

This is probably the same for most of the other architectures: C and C++ simply don't have those features built in (some compiler extensions might help you though).

A great resource for what you are attempting to do: OSDev.

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Assuming x86 protected mode:

I believe the answer is No because you need to do something like this to switch to protected mode:


I don't think there's a way to do the jmp instruction in pure C/C++, though I could be wrong. (I'm by no means an expert here; I'm just referencing a boot loader that I made some while ago.)

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Who said he wanted a modern, protected mode OS? (Or that he is on x86 for that matter?) – Mat Jul 24 '11 at 17:45
I just need something simple. It's gonna be a DOS-like system for a course I'm taking for freshman high school. – Josh Vega Jul 24 '11 at 17:47
@Mat: Idk... it's because when I hear hoofbeats, I think horses, not zebras. ... Freshman high school? impressed – Mehrdad Jul 24 '11 at 17:47
@Mah I hear Unicorns ... – Anycorn Jul 24 '11 at 17:49
@Mehrdad, Yeah I'm homeschooled and I decided to take Computer Science and Operating System Theory or whatever it's called. – Josh Vega Jul 24 '11 at 17:52

No, it's not possible with "pure" C, at least on x86 ... In addition to the fact that an x86 machine will boot into 16-bit real-mode (requiring a compiler to generate 16-bit and not 32-bit code), you will need the ability to mask interrupts, setup segment registers, load code into memory from a hardware device (i.e., disk), setup a stack, access I/O ports, etc., all of which on the x86 and other platforms require access to the CPU's registers and/or specific assembly commands.

Secondly, for C++, should you decide to define any classes, you will need to have some type of manually configured and run "constructors" in order to setup memory so that your initial classes can actually exist somewhere in memory... you also won't be able to throw any exceptions. Essentially any C++ specific features you will try to use will be useless, as these higher-level data-abstractions require the proper support from the OS run-time itself, which have to be setup using a combination of assembly and C-code.

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