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Lately I've been doing a lot of work in virtual machines, and so I started looking into how they work. I understand the broad strokes, and I am a pretty experienced programmer, but I can't really think of how I would write a similar program (VM)

So how would one go about starting such a process? For argument's sake, let's say that I wanted to just make some generic x86 machine that could run some distro of Linux. Where to begin, or what are the general concepts?

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theres is a question already: stackoverflow.com/questions/2598675/… it has been closed... –  thumbmunkeys Apr 20 '12 at 20:06
That's asking about a tutorial. I am asking about concepts. –  A.R. Apr 20 '12 at 20:12

3 Answers 3

up vote 6 down vote accepted

If you're not afraid to get your hands dirty, you might try looking at the source/documentation for Xen and/or KVM, which, if you're not familiar with, are two widely-used, open-source VMMs implemented using very different methodologies.

The Palacios VMM is another actively developed, open-source hypervisor aimed at high-performance computing. It has a pretty manageable code-base size that might be easier to wrap your head around.

This book is a great place to get started with regards to understanding general virtualization concepts.

For some historical context, this paper on the very first VMM and this paper on formal virtualization requirements might provide some insight.

This chapter of the series, What Every Programmer Should Know About Memory, gives a nice high-level discussion of virtualization as it relates to virtual memory.

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You need to somehow emulate/virtualize the following parts:

  • the RAM
  • the CPU
  • various devices (I/O ports, timers, keyboard, mouse, display, disks, sound card, network card, etc etc)
  • the BIOS ROM

The RAM is perhaps the easiest part, unless you need more in a VM than you physically have in your PC.

The CPU is much harder because there are many instructions (especially on the x86) and you have to emulate all of them correctly. Instead of emulating them you can execute many of them more or less directly if the physical CPU is the same as the one in the VM. But it's very tricky to get it both correct and fast.

The hardest part is probably the devices because there are many of them, all different, the documentation is somewhat scarce and scattered and there's a lot of stuff a regular programmer doesn't know about the devices and all the plumbing around them. Complicating all that is the need to make the I/O fast or you'll grow old and die before your Linux boots.

And you need to spend quite some time to replicate enough of the BIOS functionality so your Linux can boot using it (int 10h, 11h, 12h, 13h, 15h, 16h, 19h).

Conceptually, emulation/virtualization is simple. You basically implement something like a brainfuck interpreter, only brainfuckier. The grand idea is the same: take an instruction at VM's CS:xIP, parse it, emulate/execute it, advance xIP appropriately, repeat. For device emulation you need to recognize instructions that are accessing device memory buffers (e.g. the video buffer) and I/O ports (e.g. the speaker port) and do some extra processing besides simply reading/writing data from/to memory or ports.

Some of the gory details are discussed in Running multiple operating systems concurrently on an IA32 PC using virtualization techniques, by Kevin Lawton.

That's about it. The details will be enough to fill a few thick books. And you have one already, the CPU manuals from Intel and AMD.

See how Bochs, QEMU, DosBox, DosEMU, etc etc are implemented. See if they have any docs describing their architecture and implementation. Or maybe look at something simpler like a ZX Spectrum emulator (there are many) or if you know of some simpler microcomputer system look at that.

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To take a step into learning about emulators, try CPUSim.

It lets you design a CPU architecture from scratch, and write simple programs for it. That should give you some ideas about the whole thing.

Writing an x86 emulator is very hard, seriously.

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Yeah, I know its hard, and I'm not going to try it, I'm just trying to learn something, expand my mind and what not. –  A.R. Apr 20 '12 at 20:13
The main challenges of the x86 CPU emulation/virtualization are: the instruction set size, speed, far from perfect documentation filled with typos, errors, omissions and ambiguities that needs to be validated experimentally (the protected mode stuff is a big one). Other than that, it's easy. :) –  Alexey Frunze Apr 21 '12 at 8:32

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