use core::{ intrinsics::unlikely, sync::atomic::{AtomicBool, Ordering}, }; use alloc::{sync::Arc, vec::Vec}; use crate::{ mm::{percpu::PerCpu, VirtAddr, IDLE_PROCESS_ADDRESS_SPACE}, process::KernelStack, smp::{core::smp_get_processor_id, cpu::ProcessorId}, }; use super::{ProcessControlBlock, ProcessManager}; static mut __IDLE_PCB: Option>> = None; impl ProcessManager { /// 初始化每个核的idle进程 pub fn init_idle() { static INIT_IDLE: AtomicBool = AtomicBool::new(false); if INIT_IDLE .compare_exchange(false, true, Ordering::SeqCst, Ordering::SeqCst) .is_err() { panic!("Idle process already initialized"); } assert!( smp_get_processor_id() == ProcessorId::new(0), "Idle process must be initialized on the first processor" ); let mut v: Vec> = Vec::with_capacity(PerCpu::MAX_CPU_NUM as usize); for i in 0..PerCpu::MAX_CPU_NUM { let kstack = if unlikely(i == 0) { let stack_ptr = VirtAddr::new(Self::stack_ptr().data() & (!(KernelStack::ALIGN - 1))); // 初始化bsp的idle进程 let mut ks = unsafe { KernelStack::from_existed(stack_ptr) } .expect("Failed to create kernel stack struct for BSP."); unsafe { ks.clear_pcb(true) }; ks } else { KernelStack::new().unwrap_or_else(|e| { panic!("Failed to create kernel stack struct for AP {}: {:?}", i, e) }) }; let idle_pcb = ProcessControlBlock::new_idle(i, kstack); assert!(idle_pcb.basic().user_vm().is_none()); unsafe { idle_pcb .basic_mut() .set_user_vm(Some(IDLE_PROCESS_ADDRESS_SPACE())) }; assert!(idle_pcb.sched_info().on_cpu().is_none()); idle_pcb.sched_info().set_on_cpu(Some(ProcessorId::new(i))); v.push(idle_pcb); } unsafe { __IDLE_PCB = Some(v); } } /// 获取当前的栈指针 /// /// 请注意,该函数只是于辅助bsp核心的idle进程初始化 fn stack_ptr() -> VirtAddr { #[cfg(target_arch = "x86_64")] return VirtAddr::new(x86::current::registers::rsp() as usize); #[cfg(target_arch = "riscv64")] { let stack_ptr: usize; unsafe { core::arch::asm!("mv {}, sp", out(reg) stack_ptr); } return VirtAddr::new(stack_ptr); } } /// 获取idle进程数组的引用 pub fn idle_pcb() -> &'static Vec> { unsafe { __IDLE_PCB.as_ref().unwrap() } } }