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https://github.com/nanochess/bootos

bootOS is a monolithic operating system in 512 bytes of x86 machine code.
https://github.com/nanochess/bootos

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bootOS is a monolithic operating system in 512 bytes of x86 machine code.

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bootOS operating system in 512 bytes (boot sector)
by Oscar Toledo G. Jul/22/2019

http://nanochess.org
https://github.com/nanochess/bootOS

It's compatible with 8088 (the original IBM PC).

If you want to assemble it, you must download the Netwide Assembler
(nasm) from www.nasm.us

Use this command line:

nasm -f bin os.asm -l os.lst -o os.img


What is bootOS:

bootOS is a monolithic operating system that fits in
one boot sector. It's able to load, execute, and save
programs. Also keeps a filesystem. It can work with
any floppy disk size starting at 180K.

It relocates itself at 0000:7a00 and requires further
768 bytes of memory starting at 0000:7700.

This operating system runs programs as boot sectors
at 0000:7c00.

It provides the following services:

int 0x20 Exit to operating system.
int 0x21 Input key and show in screen.
Entry: none
Output: AL = ASCII key pressed.
Affects: AH/BX/BP.
int 0x22 Output character to screen.
Entry: AL = Character.
Output: none.
Affects: AH/BX/BP.
int 0x23 Load file.
Entry: DS:BX = Filename terminated with zero.
ES:DI = Point to source data (512 bytes)
Output: Carry flag = 0 = Found, 1 = Not found.
Affects: All registers (including ES).
int 0x24 Save file.
Entry: DS:BX = Filename terminated with zero.
ES:DI = Point to data target (512 bytes)
Output: Carry flag = 0 = Successful. 1 = Error.
Affects: All registers (including ES).
int 0x25 Delete file.
Entry: DS:BX = Filename terminated with zero.
Affects: All registers (including ES).

Filesystem organization:

bootOS uses tracks from 0 to 32, side 0, sector 1.

The directory is contained in track 0, side 0, sector 2.

Each entry in the directory is 16 bytes wide, and
contains the ASCII name of the file finished with a
zero byte. A sector has a capacity of 512 bytes, it
means only 32 files can be kept on a floppy disk.

Deleting a file is a matter of zeroing a whole entry.

Each file is one sector long. Its location in the
disk is derived from its position in the directory.

The 1st file is located at track 1, side 0, sector 1.
The 2nd file is located at track 2, side 0, sector 1.
The 32nd file is located at track 32, side 0, sector 1.

Starting bootOS:

Just make sure to write it at the boot sector of a
floppy disk. It can work with any floppy disk size
(360K, 720K, 1.2MB and 1.44MB) and it will waste the
disk space as only uses the first two sectors of the
disk and then the first sector of each following
track.

For emulation make sure to deposit it at the start
of a .img file of 360K, 720K or 1440K. (at least
VirtualBox detects the type of disk by the length
of the image file)

For Mac OS X and Linux you can create a 360K image
in this way:

dd if=/dev/zero of=oszero.img count=719 bs=512
cat os.img oszero.img >osbase.img

Replace 719 with 1439 for 720K, or 2879 for 1.44M.

Tested with VirtualBox for Mac OS X running Windows XP
running it, it also works with qemu:

qemu-system-x86_64 -fda os.img

Running bootOS:

The first time you should enter the 'format' command,
so it initializes the directory. It also copies itself
again to the boot sector, this is useful to init new
disks.

bootOS commands:

ver Shows the version (none at the moment)
dir Shows the directory's content.
del filename Deletes the "filename" file.
format As explained before.
enter Allows to enter up to 512 hexadecimal
bytes to create another file.

Notice the line size is 128 characters so
you must break the input into chunks of
4, 8 or 16 bytes.

It also allows to copy the last executed
program just press Enter when the 'h' prompt
appears and type the new name.

For example: (Character + is Enter key)

$enter+
hbb 17 7c 8a 07 84 c0 74 0c 53 b4 0e bb 0f 00 cd+
h10 5b 43 eb ee cd 20 48 65 6c 6c 6f 2c 20 77 6f+
h72 6c 64 0d 0a 00+
h+
*hello+
$dir+
hello
$hello+
Hello, world
$

bootOS programs: (Oh yes! we have software support)

cubicDoom https://github.com/nanochess/cubicDoom
bricks https://github.com/nanochess/bricks
fbird https://github.com/nanochess/fbird
Pillman https://github.com/nanochess/pillman
invaders https://github.com/nanochess/invaders
bootBASIC https://github.com/nanochess/bootBASIC
bootRogue https://github.com/nanochess/bootRogue
Atomchess https://github.com/nanochess/Toledo-Atomchess
(requires minimum 286 processor)
heart https://github.com/nanochess/heart
pi https://github.com/nanochess/pi
bootle https://github.com/nanochess/bootle

Also our first 3rd party programs!!!

bootSlide https://github.com/XlogicX/BootSlide
(requires minimum 286 processor)
tetranglix https://github.com/XlogicX/tetranglix
(requires minimum 286 processor)
snake https://gitlab.com/pmikkelsen/asm_snake
(requires minimum 286 processor)
bootMine https://github.com/io12/BootMine
(requires minimum Pentium II processor because rdtsc instruction)
sokoban https://ish.works/bootsector/bootsector.html
(requires minimum 286 processor)

These programs provide a boot sector version and a COM
file version. You need the boot sector version as the
programs are loaded at address 0000:7c00.

You can copy the machine code directly using the 'enter'
command, or you can create a file with signature bytes
with the same command and later copy the binary into the
.img file using the signature bytes as a clue to locate
the right position in the image file.

Or you can find a pre-designed disk image along this Git
with the name osall.img

Enjoy it!

Special thanks to Maja Kądziołka (meithecatte) for finding
some bugs and suggesting enhancements.

There's a bootOS fork by jakiki6 capable of running from
an USB stick, and including many other changes.
Download from: https://github.com/jakiki6/bootOS

>> ATTENTION <<

Would you like to learn 8086/8088 programming? Then you
must get my new book Programming Boot Sector Games including
a 8086/8088 crash course!

Now available from Lulu:

Soft-cover http://www.lulu.com/shop/oscar-toledo-gutierrez/programming-boot-sector-games/paperback/product-24188564.html

Hard-cover http://www.lulu.com/shop/oscar-toledo-gutierrez/programming-boot-sector-games/hardcover/product-24188530.html

eBook https://nanochess.org/store.html

These are some of the example programs documented profusely
in the book:

* Guess the number.
* Tic-Tac-Toe game.
* Text graphics.
* Mandelbrot set.
* F-Bird game.
* Invaders game.
* Pillman game.
* Toledo Atomchess.
* bootBASIC language.

After the success of my first book, if you need even
More Boot Sector Games then you must get this book!

Soft-cover http://www.lulu.com/shop/oscar-toledo-gutierrez/more-boot-sector-games/paperback/product-24462035.html

Hard-cover http://www.lulu.com/shop/oscar-toledo-gutierrez/more-boot-sector-games/hardcover/product-24462029.html

* Follow the Lights
* bootRogue
* bricks
* cubicDoom
* bootOS