#![feature(lang_items)] #![feature(const_fn)] #![feature(const_unique_new)] #![feature(unique)] #![no_std] extern crate rlibc; extern crate volatile; extern crate spin; extern crate multiboot2; #[macro_use] extern crate bitflags; extern crate x86_64; #[macro_use] mod vga_buffer; mod memory; #[no_mangle] pub extern fn rust_main(multiboot_information_address: usize) { use memory::FrameAllocator; vga_buffer::clear_screen(); println!("Hello World{}", "!"); let boot_info = unsafe{ multiboot2::load(multiboot_information_address) }; let memory_map_tag = boot_info.memory_map_tag() .expect("Memory map tag required"); println!("memory areas:"); for area in memory_map_tag.memory_areas() { println!(" start: 0x{:x}, length: 0x{:x}", area.base_addr, area.length); } let elf_sections_tag = boot_info.elf_sections_tag() .expect("Elf-sections tag required"); println!("kernel sections:"); for section in elf_sections_tag.sections() { println!(" addr: 0x{:x}, size: 0x{:x}, flags: 0x{:x}", section.addr, section.size, section.flags); } let kernel_start = elf_sections_tag.sections().map(|s| s.addr) .min().unwrap(); let kernel_end = elf_sections_tag.sections().map(|s| s.addr + s.size) .max().unwrap(); let multiboot_start = multiboot_information_address; let multiboot_end = multiboot_start + (boot_info.total_size as usize); let mut frame_allocator = memory::AreaFrameAllocator::new( kernel_start as usize, kernel_end as usize, multiboot_start, multiboot_end, memory_map_tag.memory_areas()); memory::remap_the_kernel(&mut frame_allocator, boot_info); println!("It did not crash!"); loop {} } #[lang = "eh_personality"] extern fn eh_personality() {} #[lang = "panic_fmt"] #[no_mangle] pub extern fn panic_fmt(fmt: core::fmt::Arguments, file: &'static str, line: u32) -> ! { println!("\n\nPANIC in {} at line {}:", file, line); println!(" {}", fmt); loop{} }