# IndigoOS This project is in it's infancy. There's a lot to clean up (bootloader), and this is for my own entertainment. I'll likely be working on it on and off, and only updating the branch after major steps forward. ##Questions and answers ### Why are you already parsing APCI tables? When I first started this project, it was intended to be a bare metal mandelbrotset, then an operating system. This way I could set up an enviornment and become comftorable with the x86 architecture. I was going to have a pretty simple multi-core SMP setup to acheive a higher speed. However, as I worked more and more, I realized that this plan was counter productive. The main reason for this is that I'd be doing a lot of "static" work (for lack of a better word). It would be too hard to modify an existing project into an operating system, due to all the code I'd need to discard. ### Will you support UEFI? Maybe some day. What I have so far of the bootloader was a lot of work, so I need to take a break on it for now. ##Cleaning list - [] clean RSDP v1 vs v2+ ugly unison code - [] clean static paging code if possible - [] fallback to best compatable video mode if not found - [] find out when and why checksum of binary vs debug binary stripped is occationally diffrent (maybe linker script?) ##debugging - [x] get debugging into into a seperate elf for GDB - [] md5sum of striped binary is the same as one built without debugging info _Almost_ always, there was one time when it wasn't. Can't seem to reproduce. Check linker sizes. ##bootloader - [x] make USB bootable as floppy - [] make USB bootable as harddisk - [x] detect native resolution - [x] set VESA video to native resolution - [] fallback to best compatable video mode if not found - [x] record video mode info for kernel - [x] setup temporary page tabels - [x] get memory map - [x] load sectors into 0x100000 - [x] boot into kernel long mode ##kernel (listed in order of dependency) ###ACPI - [x] find, check, and parse RSDP - [x] find, check, and parse RSDT or XSDT - [x] static page mapping - [] remap paging to higher/more available physical address - [] remap kernel to higher virtual address - [] re-create page tables to accomidate amount of ram in system without becoming too big - [] dynamic page allocation ###multicpu - [] boot cpus - [] parse MDST