#include #include #include #include #include #include #include #include #include #include #include using namespace hilbert::kernel; LIMINE_BASE_REVISION(1) static volatile limine_memmap_request memmap_request { .id = LIMINE_MEMMAP_REQUEST, .revision = 0, .response = 0 }; static volatile limine_kernel_address_request kernel_address_request { .id = LIMINE_KERNEL_ADDRESS_REQUEST, .revision = 0, .response = 0 }; static volatile limine_framebuffer_request framebuffer_request { .id = LIMINE_FRAMEBUFFER_REQUEST, .revision = 0, .response = 0 }; static volatile limine_hhdm_request hhdm_request { .id = LIMINE_HHDM_REQUEST, .revision = 0, .response = 0 }; static volatile limine_module_request module_request = { .id = LIMINE_MODULE_REQUEST, .revision = 2, .response = 0, .internal_module_count = 0, .internal_modules = 0 }; bool try_map_module_by_cmdline( const char *cmdline, void *&vaddr_out, uint64_t &len_out ) { auto response = module_request.response; if (!response) return false; for (uint64_t i = 0; i < response->module_count; ++i) { limine_file *file = response->modules[i]; for (uint64_t j = 0; cmdline[j] == file->cmdline[j]; ++j) if (!cmdline[j]) { //module start is guaranteed to be page-aligned, end is not. uint64_t start_paddr = (uint64_t)file->address - hhdm_request.response->offset; uint64_t end_paddr = ((start_paddr + file->size - 1) / 4096 + 1) * 4096; uint64_t start_vaddr = paging::find_unmapped_vram_region((end_paddr - start_paddr) / 4096); for (uint64_t i = 0; i < end_paddr - start_paddr; i += 4096) paging::map_kernel_page( start_paddr + i, start_vaddr + i, true, false); vaddr_out = (void *)start_vaddr; len_out = file->size; return true; } } return false; } //defined in linker script, page-aligned: extern uint8_t __kernel_start; extern uint8_t __kernel_end; extern uint8_t __kernel_rx_start; extern uint8_t __kernel_rx_end; extern uint8_t __kernel_ro_start; extern uint8_t __kernel_ro_end; extern uint8_t __kernel_rw_start; extern uint8_t __kernel_rw_end; uint8_t *initfs; uint64_t initfs_len; [[noreturn]] static void with_kernel_p4(); extern "C" void load_gdt_and_idt(); static bool have_initfs; extern "C" [[noreturn]] void entry() { serial_init(); //TODO?: maybe we should check if the limine requests were // fulfilled and display some error message if not //set up the physical memory usage bitmap: paging::mark_all_pram_used(); auto memmap = memmap_request.response; for (uint64_t i = 0; i < memmap->entry_count; ++i) { //we don't allocate any physical pages until after we are done using limine //structures (specifically at the call to paging::map_kernel_stacks), so //we consider bootloader reclaimable to be free. usable and bootloader //reclaimable are guaranteed by limine spec to be page-aligned. auto entry = memmap->entries[i]; if (entry->type == LIMINE_MEMMAP_USABLE || entry->type == LIMINE_MEMMAP_BOOTLOADER_RECLAIMABLE) paging::mark_pram_region_free(entry->base, entry->base + entry->length); } //set up page mappings: auto kernel_address = kernel_address_request.response; uint64_t kernel_offset = kernel_address->virtual_base - kernel_address->physical_base; uint64_t hhdm = hhdm_request.response->offset; //framebuffer might not be page-aligned auto framebuffer = framebuffer_request.response->framebuffers[0]; uint64_t fb_start = ((uint64_t)framebuffer->address / 4096) * 4096 - hhdm; uint64_t fb_end = (uint64_t)framebuffer->address + framebuffer->pitch * framebuffer->height - hhdm; fb_end = ((fb_end - 1) / 4096 + 1) * 4096; paging::init_kernel_page_tables(kernel_offset); //kernel image rx for (uint64_t vaddr = (uint64_t)&__kernel_rx_start; vaddr < (uint64_t)&__kernel_rx_end; vaddr += 4096) paging::map_kernel_page(vaddr - kernel_offset, vaddr, false, true); //kernel image ro for (uint64_t vaddr = (uint64_t)&__kernel_ro_start; vaddr < (uint64_t)&__kernel_ro_end; vaddr += 4096) paging::map_kernel_page(vaddr - kernel_offset, vaddr, false, false); //kernel image rw for (uint64_t vaddr = (uint64_t)&__kernel_rw_start; vaddr < (uint64_t)&__kernel_rw_end; vaddr += 4096) paging::map_kernel_page(vaddr - kernel_offset, vaddr, true, false); //framebuffer uint64_t fb_vaddr = paging::find_unmapped_vram_region((fb_end - fb_start) / 4096); for (uint64_t i = 0; i < fb_end - fb_start; i += 4096) paging::map_kernel_page(fb_start + i, fb_vaddr + i, true, false); have_initfs = try_map_module_by_cmdline("initfs", (void *&)initfs, initfs_len); //set up framebuffer and terminal: //TODO: assumes framebuffer is 32-bpp rgb framebuffer::init_framebuffer(fb_start, fb_vaddr, framebuffer->width, framebuffer->height, framebuffer->pitch); //switch to kernel p4 paging::map_kernel_stacks(); load_gdt_and_idt(); switch_to_kernel_p4(&with_kernel_p4); } [[noreturn]] static void with_kernel_p4() { if (!have_initfs) panic(0x5f8860); input::init_input(); application::init_applications(); auto *initfs_bd = new storage::bd::memory(initfs, initfs_len); auto *initfs_fs = new storage::fs::tarfs_instance(initfs_bd); initfs_bd->mounted_as = initfs_fs; vfile::vfile initfs_root; initfs_root.bd = initfs_bd; initfs_root.dir_entry.type = storage::file_type::directory; initfs_root.path.absolute = true; if (initfs_fs->get_root_node(initfs_root.dir_entry.node) != storage::fs_result::success) panic(0x48a6ed); vfile::set_root(initfs_root); utility::string init_path_string("/bin/init", 9); vfile::canon_path init_path; vfile::canonize_path(init_path_string, init_path); vfile::vfile init_file; if (vfile::look_up_path(init_path, init_file, true) != storage::fs_result::success) panic(0x7e874d); app_memory *init_memory = new app_memory(); uint64_t init_entry_point; load_app_result load_init_result = load_app(init_file, *init_memory, init_entry_point); if (load_init_result != load_app_result::success) panic(0xc39db3); application::process *init_process = new application::process(init_memory, utility::string("init", 4)); init_process->add_environment_variable( utility::string("ARGC", 4), utility::string("1", 1)); init_process->add_environment_variable( utility::string("ARGV0", 5), utility::string("/bin/init", 9)); application::add_process(init_process); application::thread *init_thread = new application::thread(init_process, init_entry_point); init_process->add_thread(init_thread); application::paused_threads->insert(init_thread); application::resume_next_thread(); }