use core::sync::atomic::{compiler_fence, Ordering}; use log::debug; use system_error::SystemError; use x86::dtables::DescriptorTablePointer; use crate::{ arch::{interrupt::trap::arch_trap_init, process::table::TSSManager}, driver::clocksource::acpi_pm::init_acpi_pm_clocksource, init::init::start_kernel, mm::{MemoryManagementArch, PhysAddr}, }; use super::{ driver::{ hpet::{hpet_init, hpet_instance}, tsc::TSCManager, }, MMArch, }; #[derive(Debug)] pub struct ArchBootParams {} impl ArchBootParams { pub const DEFAULT: Self = ArchBootParams {}; } extern "C" { static mut GDT_Table: [usize; 0usize]; static mut IDT_Table: [usize; 0usize]; fn head_stack_start(); fn multiboot2_init(mb2_info: u64, mb2_magic: u32) -> bool; } #[no_mangle] unsafe extern "C" fn kernel_main( mb2_info: u64, mb2_magic: u64, bsp_gdt_size: u64, bsp_idt_size: u64, ) -> ! { let mut gdtp = DescriptorTablePointer::::default(); let gdt_vaddr = MMArch::phys_2_virt(PhysAddr::new(&GDT_Table as *const usize as usize)).unwrap(); let idt_vaddr = MMArch::phys_2_virt(PhysAddr::new(&IDT_Table as *const usize as usize)).unwrap(); gdtp.base = gdt_vaddr.data() as *const usize; gdtp.limit = bsp_gdt_size as u16 - 1; let idtp = DescriptorTablePointer:: { base: idt_vaddr.data() as *const usize, limit: bsp_idt_size as u16 - 1, }; x86::dtables::lgdt(&gdtp); x86::dtables::lidt(&idtp); compiler_fence(Ordering::SeqCst); multiboot2_init(mb2_info, (mb2_magic & 0xFFFF_FFFF) as u32); compiler_fence(Ordering::SeqCst); start_kernel(); } /// 在内存管理初始化之前的架构相关的早期初始化 #[inline(never)] pub fn early_setup_arch() -> Result<(), SystemError> { let stack_start = unsafe { *(head_stack_start as *const u64) } as usize; debug!("head_stack_start={:#x}\n", stack_start); unsafe { let gdt_vaddr = MMArch::phys_2_virt(PhysAddr::new(&GDT_Table as *const usize as usize)).unwrap(); let idt_vaddr = MMArch::phys_2_virt(PhysAddr::new(&IDT_Table as *const usize as usize)).unwrap(); debug!("GDT_Table={:?}, IDT_Table={:?}\n", gdt_vaddr, idt_vaddr); } set_current_core_tss(stack_start, 0); unsafe { TSSManager::load_tr() }; arch_trap_init().expect("arch_trap_init failed"); return Ok(()); } /// 架构相关的初始化 #[inline(never)] pub fn setup_arch() -> Result<(), SystemError> { return Ok(()); } /// 架构相关的初始化(在IDLE的最后一个阶段) #[inline(never)] pub fn setup_arch_post() -> Result<(), SystemError> { let ret = hpet_init(); if ret.is_ok() { hpet_instance().hpet_enable().expect("hpet enable failed"); } else { init_acpi_pm_clocksource().expect("acpi_pm_timer inits failed"); } TSCManager::init().expect("tsc init failed"); return Ok(()); } fn set_current_core_tss(stack_start: usize, ist0: usize) { let current_tss = unsafe { TSSManager::current_tss() }; debug!( "set_current_core_tss: stack_start={:#x}, ist0={:#x}\n", stack_start, ist0 ); current_tss.set_rsp(x86::Ring::Ring0, stack_start as u64); current_tss.set_ist(0, ist0 as u64); }