#![feature(ptr_internals)] #![feature(lang_items)] #![feature(const_fn)] #![feature(alloc)] #![feature(const_unique_new, const_atomic_usize_new)] #![feature(unique)] #![feature(allocator_api)] #![feature(global_allocator)] #![feature(abi_x86_interrupt)] #![feature(iterator_step_by)] #![feature(unboxed_closures)] #![feature(naked_functions)] #![feature(asm)] #![no_std] #[macro_use] extern crate alloc; extern crate rlibc; extern crate volatile; extern crate spin; extern crate multiboot2; #[macro_use] extern crate bitflags; #[macro_use] extern crate x86_64; #[macro_use] extern crate once; extern crate linked_list_allocator; #[macro_use] extern crate lazy_static; extern crate bit_field; extern crate syscall as redox_syscall; extern crate xmas_elf; extern crate arrayvec; #[macro_use] extern crate log; extern crate simple_filesystem; #[macro_use] // print! mod io; mod memory; mod lang; mod util; #[macro_use] mod macros; mod consts; mod process; mod syscall; mod fs; mod thread; mod sync; #[allow(dead_code)] #[cfg(target_arch = "x86_64")] #[path = "arch/x86_64/mod.rs"] mod arch; /// The entry point of Rust kernel #[no_mangle] pub extern "C" fn rust_main(multiboot_information_address: usize) -> ! { arch::cpu::init(); arch::idt::init(); io::init(); // ATTENTION: we have a very small stack and no guard page println!("Hello World{}", "!"); let boot_info = unsafe { multiboot2::load(multiboot_information_address) }; // set up guard page and map the heap pages let mut kernel_memory = memory::init(boot_info); arch::gdt::init(); test!(cow); test!(global_allocator); test!(guard_page); test!(find_mp); use memory::*; let acpi = arch::driver::init(|addr: usize, count: usize| { kernel_memory.push(MemoryArea::new_identity(addr, addr + count * 0x1000, MemoryAttr::default(), "acpi")) }); // FIXME: PageFault when SMP // arch::smp::start_other_cores(&acpi, &mut kernel_memory); process::init(kernel_memory); fs::load_sfs(); unsafe{ arch::interrupt::enable(); } // thread::test::unpack(); sync::test::philosopher(); // 直接进入用户态暂不可用:内核代码用户不可访问 // unsafe{ // use arch::syscall; // // 在用户模式下触发时钟中断,会导致GPF // // (可能是由于没有合理分离栈) // no_interrupt!({ // syscall::switch_to_user(); // println!("Now in user mode"); // syscall::switch_to_kernel(); // println!("Now in kernel mode"); // }); // } loop{ println!("init ..."); let mut i = 0; while i < 1 << 22 { i += 1; } } test_end!(); unreachable!(); } /// The entry point for another processors #[no_mangle] pub extern "C" fn other_main() -> ! { arch::cpu::init(); arch::gdt::init(); arch::idt::init(); arch::driver::apic::other_init(); let cpu_id = arch::driver::apic::lapic_id(); println!("Hello world! from CPU {}!", arch::driver::apic::lapic_id()); let ms = unsafe { arch::smp::notify_started(cpu_id) }; // unsafe{ let a = *(0xdeadbeaf as *const u8); } // Page fault loop {} } pub use arch::interrupt::{rust_trap, set_return_rsp}; use linked_list_allocator::LockedHeap; /// Global heap allocator /// /// Available after `memory::init()`. /// /// It should be defined in memory mod, but in Rust `global_allocator` must be in root mod. #[global_allocator] static HEAP_ALLOCATOR: LockedHeap = LockedHeap::empty(); mod test { pub fn global_allocator() { for i in 0..10000 { format!("Some String"); } } pub fn find_mp() { use arch; let mp = arch::driver::mp::find_mp(); assert!(mp.is_some()); } pub fn guard_page() { use x86_64; // invoke a breakpoint exception x86_64::instructions::interrupts::int3(); fn stack_overflow() { stack_overflow(); // for each recursion, the return address is pushed } // trigger a stack overflow stack_overflow(); println!("It did not crash!"); } pub fn cow() { use arch; arch::paging::test_cow(); } }