#![no_std] // <1> #![no_main] // <1> #![feature(const_mut_refs)] #![feature(core_intrinsics)] // <2> #![feature(alloc_error_handler)] #![feature(panic_info_message)] #![feature(drain_filter)] // 允许Vec的drain_filter特性 #![feature(c_void_variant)] // used in kernel/src/exception/softirq.rs #[allow(non_upper_case_globals)] #[allow(non_camel_case_types)] #[allow(non_snake_case)] use core::panic::PanicInfo; /// 导出x86_64架构相关的代码,命名为arch模块 #[cfg(target_arch = "x86_64")] #[path = "arch/x86_64/mod.rs"] #[macro_use] mod arch; #[macro_use] mod libs; #[macro_use] mod include; mod driver; // 如果driver依赖了libs,应该在libs后面导出 mod exception; mod filesystem; mod io; mod ipc; mod mm; mod process; mod sched; mod smp; mod time; #[macro_use] extern crate alloc; #[macro_use] extern crate lazy_static; #[macro_use] extern crate bitflags; use mm::allocator::KernelAllocator; // <3> use crate::{ arch::asm::current::current_pcb, include::bindings::bindings::{process_do_exit, BLACK, GREEN}, }; // 声明全局的slab分配器 #[cfg_attr(not(test), global_allocator)] pub static KERNEL_ALLOCATOR: KernelAllocator = KernelAllocator {}; /// 全局的panic处理函数 #[panic_handler] #[no_mangle] pub fn panic(info: &PanicInfo) -> ! { kerror!("Kernel Panic Occurred."); match info.location() { Some(loc) => { println!( "Location:\n\tFile: {}\n\tLine: {}, Column: {}", loc.file(), loc.line(), loc.column() ); } None => { println!("No location info"); } } match info.message() { Some(msg) => { println!("Message:\n\t{}", msg); } None => { println!("No panic message."); } } println!("Current PCB:\n\t{:?}", current_pcb()); unsafe { process_do_exit(u64::MAX); }; loop {} } /// 该函数用作测试,在process.c的initial_kernel_thread()中调用了此函数 #[no_mangle] pub extern "C" fn __rust_demo_func() -> i32 { printk_color!(GREEN, BLACK, "__rust_demo_func()\n"); return 0; }