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Creating an OS seems like a massive project. How would anyone even get started?

For example, when I pop Ubuntu into my drive, how can my computer just run it? (This, I guess, is what I'd really like to know.)

Or, looking at it from another angle, what is the least amount of bytes that could be on a disk and still be "run" as an OS?

(I'm sorry if this is vague. I just have no idea about this subject, so I can't be very specific. I pretend to know a fair amount about how computers work, but I'm utterly clueless about this subject.)

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Grr, you deleted your first question or something else happened. I wrote a very long answer only to get a "this question no longer exists" page upon submission and I couldn't click back and get my old text back :( –  TravisO Dec 31 '08 at 18:59
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This is why I never compose directly in a browser page. I hear tell that Opera has solved this problem by caching user input. –  Chris Noe Dec 31 '08 at 19:05
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Very carefully :) –  Will Mc Dec 31 '08 at 20:18
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Last time I checked it was by writing code. –  Chris Lively Dec 31 '08 at 21:29
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TravisO, we all feel your pain. ericsink.com/entries/TellYourGeekStory.html –  icelava Jan 1 '09 at 13:47
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22 Answers

up vote 29 down vote accepted

Well, the answer lives in books: Modern Operating Systems - Andrew S. Tanenbaum is a very good one. The cover illustration below.

The simplest yet complete operating system kernel, suitable for learning or just curiosity, is Minix.
Here you can browse the source code.

Modern Operating Systems

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+1 It was worth looking at the picture just for all the puns. I'd love to go to a circus featuring zombies and dining philosophers. –  new123456 Jul 30 '11 at 19:34
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I felt like clapping at a few things in this picture. Thank you so much! This made my day! =D –  gideon Dec 3 '11 at 6:29
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Operating Systems is a huge topic, the best thing I can recommend you if you want to go really in depth on how a operating systems are designed and construced it's a good book:

Operating System Concepts

Operating System Concepts

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CMS - I love you, dogg –  theman_on_vista Dec 31 '08 at 18:57
    
@[theman]: and i thought i was special! –  Steven A. Lowe Dec 31 '08 at 19:03
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I Think I might have used that book in college. But an older version with less dinosaurs on it. –  Alex Baranosky Dec 31 '08 at 19:11
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I used the seventh edition. –  Michael Myers Dec 31 '08 at 19:37
    
I also used the 7th edition. While I liked the dinos using ipods and other handheld computers, I think I like this edition's cover better :) –  Will Mc Dec 31 '08 at 20:11
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If you are truly curious I would direct you to Linux from Scratch as a good place to learn the complete ins and outs of an operating system and how all the pieces fit together. If that is more information than you are looking for then this Wikipedia article on operating systems might be a good place to start.

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Linux from Scratch really is just a way of piecing together various software to form a 'meta' operating system, it doesn't teach you about the fundamentals of operating systems, things like task scheduling, booting, memory management, etc. - all the computer science stuff... –  Bryan Rehbein Dec 31 '08 at 21:31
    
Linux from Scratch is not a "meta" operating system - are you sure you are familiar with it? –  Andrew Hare Dec 31 '08 at 22:52
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LFS is a good tool to learn Linux. But just Linux. I don't think you can learn the "complete ins and outs of an operating system" with such high level stuff. High-level as in "distant from hardware". I know, I went through it on a virtual machine =). –  Marcelo MD Mar 29 '10 at 23:47
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A PC knows to look at a specific sector of the disk for the startup instructions. These instructions will then tell the processor that on given processor interrupts, specific code is to be called. For example, on a periodic tick, call the scheduler code. When I get something from a device, call the device driver code.

Now how does an OS set up everything with the system? Well hardware's have API's also. They are written with the Systems programmer in mind.

I've seen a lot of bare-bones OS's and this is really the absolute core. There are many embedded home-grown OS's that that's all they do and nothing else.

Additional features, such as requiring applications to ask the operating system for memory, or requiring special privileges for certain actions, or even processes and threads themselves are really optional though implemented on most PC architectures.

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The operating system is, simply, what empowers your software to manage the hardware. Clearly some OSes are more sophisticated than others.

At its very core, a computer starts executing at a fixed address, meaning that when the computer starts up, it sets the program counter to a pre-defined address, and just starts executing machine code.

In most computers, this "bootstrapping" process immediately initializes known peripherals (like, say, a disk drive). Once initialized, the bootstrap process will use some predefined sequence to leverage those peripherals. Using the disk driver again, the process might read code from the first sector of the hard drive, place it in a know space within RAM, and then jump to that address.

These predefined sequence (the start of the CPU, the loading of the disk) allows the programmers to star adding more and more code at the early parts of the CPU startup, which over time can, eventually, start up very sophisticated programs.

In the modern world, with sophisticated peripherals, advanced CPU architectures, and vast, vast resources (GBs or RAM, TB of Disk, and very fast CPUs), the operating system can support quite powerful abstractions for the developer (multiple processes, virtual memory, loadable drivers, etc.).

But for a simple system, with constrained resourced, you don't really need a whole lot for an "OS".

As a simple example, many small controller computers have very small "OS"es, and some may simply be considered a "monitor", offering little more than easy access to a serial port (or a terminal, or LCD display). Certainly, there's not a lot of needs for a large OS in these conditions.

But also consider something like a classic Forth system. Here, you have a system with an "OS", that gives you disk I/O, console I/O, memory management, plus the actual programming language as well as an assembler, and this fits in less than 8K of memory on an 8-Bit machine.

or the old days of CP/M with its BIOS and BDOS.

CP/M is a good example of where a simple OS works well as a abstraction layer to allow portable programs to run on a vast array of hardware, but even then the system took less than 8K of RAM to start up and run.

A far cry from the MBs of memory used by modern OSes. But, to be fair, we HAVE MBs of memory, and our lives are MUCH MUCH simpler (mostly), and far more functional, because of it.

Writing an OS is fun because it's interesting to make the HARDWARE print "Hello World" shoving data 1 byte at a time out some obscure I/O port, or stuffing it in to some magic memory address.

Get a x86 emulator and party down getting a boot sector to say your name. It's a giggly treat.

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Basically... your computer can just run the disk because:

The BIOS includes that disk device in the boot order.

At boot, the BIOS scans all bootable devices in order, like the floppy drive, the harddrive, and the CD ROM. Each device accesses its media and checks a hard-coded location (typically a sector, on a disk or cd device) for a fingerprint that identifies the media, and lists the location to jump to on the disk (or media) where instructions start. The BIOS tells the device to move its head (or whatever) to the specified location on the media, and read a big chunk of instructions. The BIOS hands those instructions off to the CPU.

The CPU executes these instructions. In your case, these instructions are going to start up the Ubuntu OS. They could just as well be instructions to halt, or to add 10+20, etc.

Typically, an OS will start off by taking a large chunk of memory (again, directly from the CPU, since library commands like 'GlobalAlloc' etc aren't available as they're provided by the yet-to-be-loaded-OS) and starts creating structures for the OS itself.

An OS provides a bunch of 'features' for applications: memory management, file system, input/output, task scheduling, networking, graphics management, access to printers, and so on. That's what it's doing before you 'get control' : creating/starting all the services so later applications can run together, not stomp on each other's memory, and have a nice API to the OS provided services.

Each 'feature' provide by the OS is a large topic. An OS provides them all so applications just have to worry about calling the right OS library, and the OS manages situations like if two programs try to print at the same time.

For instance, without the OS, each application would have to deal with a situation where another program is trying to print, and 'do something' like print anyway, or cancel the other job, etc. Instead, only the OS has to deal with it, applications just say to the OS 'print this stuff' and the OS ensure one app prints, and all other apps just have to wait until the first one finishes or the user cancels it.

The least amount of bytes to be an OS doesn't really make sense, as an "OS" could imply many, or very few, features. If all you wanted was to execute a program from a CD, that would be very very few bytes. However, that's not an OS. An OS's job is to provide services (I've been calling them features) to allow lots of other programs to run, and to manage access to those services for the programs. That's hard, and the more shared resources you add (networks, and wifi, and CD burners, and joysticks, and iSight video, and dual monitors, etc, etc) the harder it gets.

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One of the most recent operating system projects I've seen that has a serious backing has been a MS Research project called Singularity, which is written entirely in C#.NET from scratch.

To get an idea how much work it takes, there are 2 core devs but they have up to a dozen interns at any given time, and it still took them two years before they could even get the OS to a point where it would bootup and display BMP images (it's how they use to do their presentations). It took much more work before they could even get to a point where there was a command line (like about 4yrs).

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The .NET Micro Framework is a full OS that came out of MS Research as well. –  ctacke Dec 31 '08 at 19:40
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Singularity wasn't entirely in C# or .NET, rather mostly. –  Lawand Jan 1 '09 at 11:08
    
COSMOS is also an OS written in C#. –  LeakyCode Jan 1 '09 at 11:18
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Basically, there are many arguments about what an OS actually is. If you got everyone agreed on what an OS specifically is (is it just the kernel? everything that runs in kernel mode? is the shell part of OS? is X part of OS? is Web browser a part of OS?), your question is answered! Otherwise, there's no specific answer to your question.

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You might want to get the book The Design and Implementation of the FreeBSD Operating system for a very detailed answer. You can get it from Amazon or this link to FreeBSD.org's site looks like the book as I remember it: link text

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1 <3 mr. t!!!!! –  branchgabriel Dec 31 '08 at 20:41
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I can't believe this hasn't been mentioned... but a classic book for an overview of operating system design is Operating Systems - Design and Implementation written by Andrew S Tanenbaum, the creator of MINIX. A lot of the examples in the book are geared directly towards MINIX as well.

If you would like to learn a bit more, OS Dev is a great place to start. Especially the wiki. This site is full of information as well as developers who write personal operating systems for a small project/hobby. It's a great learning resource too, as there are many people in the same boat as you on OSDev who want to learn what goes into an OS. You might end up trying it yourself eventually, too!

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the operating system (OS) is the layer of software that controls the hardware. The simpler the hardware, the simpler the OS, and vice-versa ;-)

if the early days of microcomputers, you could fit the OS into a 16K ROM and hard-wire the motherboard to start executing machine code instructions at the start of the ROM address space. This 'bootstrap' process would then load the code for the drivers for the other devices like the keyboard, monitor, floppy drive, etc., and within a few seconds your machine would be booted and ready for use.

Nowadays... same principle, but a lot more and more complex hardware ;-)

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My first computer (Heathkit H8 with a 2MHz 8080) had, I think, 4k of ROM. And 16K of RAM. –  Darron Dec 31 '08 at 20:24
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Oh, this is a fun one. I've done the whole thing at one point or another, and been there through a large part of the evolution.

In general, you start writing a new OS by starting small. The simplest thing is a bootstrap loader, which is a small chunk of code that pulls a chunk of code in and runs it. Once upon a time, with the Nova or PDP computers, you could enter the bootstrap loader through the front panel: you entered the instructions hex number by hex number. The boot loader than reads some medium into memory, and set the program counter to the start address of that code.

That chunk of code usualy loads something else, but it doesn't have to: you can write a program that's meant to run on the bare metal. That sort of program does something useful on its own.

A real operating system is bigger, and has more pieces. you need to load programs, put them in memory, and run them; you need to provide code to run the IO devices; as it gets bigger, you need to manage memory.

If you want to really learn how it works, find Doug Comer's Xinu books, and Andy Tannenbaum's newest operating system book on Minix.

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Try How Computers Boot Up, The Kernel Boot Process and other related articles from the same blog for a short overview of what a computer does when it boots.

What a computer does when its start is heavily dependent (maybe obvious?) on the CPU design and other "low-level stuff"; therefore it's kind of difficult to anticipate what your computer does when it boots.

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+1 Liked this blog. –  c4il Aug 18 '10 at 14:42
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Well you have something linking the startup of the chip to a "bios", then to a OS, that is usually a very complicated task done by a lot of services of code.

If you REALY want to know more about this i would recomend reading a book... about microcontrllers, especially one where you create a small OS in c for a 8051 or the like.. or learn some x86 assembly and create a very small "bootloader OS".

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You might want to check out this question.

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An OS is a program, just like any other application you write. The main purpose of this program is that it allows you to run other programs. Modern OSes take advantage of modern hardware to ensure that programs do not clash with one another.

If you are interested in writing your own OS, check out my own question here:

How to get started in operating system development

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You ask how few bytes could you put on disk and still run as an OS? The answer depends on what you expect of your OS, but the smallest useful OS that I know of fits in 1.7 Megabytes. It is Tom's Root Boot disk and it is a very nice if small OS with "rescue" applications that fits on one floppy disk. Back in the days when every machine had a floppy drive and not every machine had a CD-ROM drive, I used to use it frequently.

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My take on it is that it is like your own life. AT first, you know very little - just enough to get along. This is similar to what the BIOS provides - it knows enough to look for a disk drive and read information off of it. Then you learn a little bit more when you go to elementary school. This is like the boot sector being read into memory and being given control. Then you go to high school, which is like the OS kernel loading. Then you go to college (drivers and other applications.) Of course, this is the point at which you are liable to CRASH. HE HE.

Bottom line is that layers of more and more capability are slowly loaded on. There's nothing magic about an OS.

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Reading through here will give you an idea of what it took to create Linux https://netfiles.uiuc.edu/rhasan/linux/

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Another really small operating system that fits on one disk is QNX (when I last looked at it a long time ago, the whole OS, with GUI interface, web browser, disk access and a built in web server, fit on one floppy drive).

I haven't heard too much about it since then, but it is a real time OS so it is designed to be very fast.

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Actually, some people visit a 4-year college to get a rough idea on this..

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