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ableos-framebuffer/ableos/src/kmain.rs

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Rust

/*
* Copyright (c) 2022, Umut İnan Erdoğan <umutinanerdogan@pm.me>
*
* SPDX-License-Identifier: MPL-2.0
*/
#![allow(clippy::empty_loop)]
use core::sync::atomic::AtomicU64;
use crate::arch::memory::BootInfoFrameAllocator;
use crate::arch::{drivers::sysinfo::master, init, sloop};
use crate::devices::pci;
use crate::relib::network::socket::{SimpleSock, Socket};
use crate::{boot_conf::KernelConfig, scratchpad, systeminfo::RELEASE_TYPE};
// use crate::{boot_conf::KernelConfig, scratchpad, systeminfo::RELEASE_TYPE, TERM};
use crate::{filesystem, graphics_limine, hardware};
use kernel::KERNEL_VERSION;
use limine::LimineSmpInfo;
use limine::{LimineFramebufferRequest, LimineSmpRequest};
use spin::Lazy;
// FIXME: platform agnostic paging stuff
use x86_64::structures::paging::{Mapper, Size4KiB};
// TODO: Change this structure to allow for multiple cores loaded
pub static KERNEL_CONF: Lazy<KernelConfig> = Lazy::new(KernelConfig::new);
pub static FRAMEBUFFER: LimineFramebufferRequest = LimineFramebufferRequest::new(0);
pub static SMP: LimineSmpRequest = LimineSmpRequest::new(0);
/// The main entry point of the kernel
pub fn kernel_main(
mut mapper: impl Mapper<Size4KiB>,
mut frame_allocator: BootInfoFrameAllocator,
) -> ! {
init::init();
{
// TODO: Setup config loaded from disk
let mut kptr = KERNEL_CONF.as_mut_ptr();
unsafe {
*kptr = KernelConfig::new();
}
}
if KERNEL_CONF.logging.enabled {
log::set_max_level(KERNEL_CONF.log_level());
// println!("{:#?}", *KERNEL_CONF);
} else {
log::set_max_level(log::LevelFilter::Off);
}
// let mut term = TERM.lock();
// term.initialize();
// term.set_dirty(true);
// term.draw_term();
// drop(term);
pci::init(&mut mapper, &mut frame_allocator);
x86_64::instructions::interrupts::without_interrupts(|| {
hardware::init_mouse();
});
filesystem::init().unwrap();
/*
// println!("abc");
let mut ipc_service = IPC.lock();
// create some channels or whatever here then drop it
let log_handle = ipc_service.create_channel("LOG", true);
let log_sock_handle = ipc_service.create_socket("LOG", true);
for handle in ipc_service.examine_board() {
// println!("Discovered: {}", handle);
}
drop(ipc_service);
*/
// use x86_ata::{init, ATA_BLOCK_SIZE};
// 1. Initialise ATA Subsystem. (Perform Once, on boot)
// init().expect("Failed To Start ATA...");
// let mut buffer: [u8; ATA_BLOCK_SIZE] = [0; ATA_BLOCK_SIZE];
// FIXME: Calls to read panic the kernel
// read(0, 0, 0, &mut buffer);
// for abc in list() {
// trace!("{:?}", abc);
// }
/*
log_version_data();
// */
{
// TODO: setup a proper framebuffer handler
let fb_response = FRAMEBUFFER.get_response().get().unwrap();
for fb in fb_response.framebuffers().unwrap() {
trace!("Framebuffer {}x{}", fb.width, fb.height);
trace!("{}", fb.memory_model);
trace!("{}", fb.bpp);
let mut count = 0;
let total = fb.width * fb.height * 3;
while count != total {
unsafe {
let fb_ptr = fb.address.as_mut_ptr().unwrap();
*fb_ptr.offset((count).try_into().unwrap()) = 0xff;
*fb_ptr.offset((count + 1).try_into().unwrap()) = 0xff;
*fb_ptr.offset((count + 2).try_into().unwrap()) = 0xff;
*fb_ptr.offset((count + 3).try_into().unwrap()) = 0x00;
*fb_ptr.offset((count + 4).try_into().unwrap()) = 0x00;
*fb_ptr.offset((count + 5).try_into().unwrap()) = 0x00;
// *fb_ptr.offset((count + 6).try_into().unwrap()) = 0x00;
}
count += 6;
}
}
}
// // SMP
// {
// let smp = SMP.get_response().get().unwrap();
// for cpu in smp.cpus().unwrap() {
// // unsafe {
// // cpu.goto_address = *(trace_hcf as *const u64);
// // }
// }
// }
graphics_limine::clear_screen();
scratchpad();
sloop()
}
extern "C" fn trace_hcf(info: *const LimineSmpInfo) -> ! {
trace!("CPU BOOT");
loop {}
}
pub fn cpu_socket_startup() {
let mut cpu_info_socket = SimpleSock::new();
cpu_info_socket.register_protocol("CPU_INFO".to_string());
// let x = master().unwrap();
// let _xyz = x.brand_string().unwrap();
}
pub fn log_version_data() {
info!("{} v{}", RELEASE_TYPE, KERNEL_VERSION);
info!(
"Brand String: {}",
master().unwrap().brand_string().unwrap()
);
}
pub static TICK: AtomicU64 = AtomicU64::new(0);
pub fn tick() {
x86_64::instructions::interrupts::without_interrupts(|| {
// let mut term = TERM.lock();
// term.draw_term();
use core::sync::atomic::Ordering::Relaxed;
let mut data = TICK.load(Relaxed);
data = data.wrapping_add(1);
TICK.store(data, Relaxed);
});
}