#include #include #include #include #include #include #include #include #include #include #define KERNEL_LOAD_ADDR ((size_t)0x100000) #define INITRD_LOAD_ADDR ((size_t)0x1000000) void linux_load(char *cmdline, int boot_drive) { int kernel_drive; { char buf[32]; if (!config_get_value(buf, 0, 32, "KERNEL_DRIVE")) { kernel_drive = boot_drive; } else { kernel_drive = (int)strtoui(buf); } } int kernel_part; { char buf[32]; if (!config_get_value(buf, 0, 32, "KERNEL_PARTITION")) { panic("KERNEL_PARTITION not specified"); } else { kernel_part = (int)strtoui(buf); } } char *kernel_path = balloc(128); if (!config_get_value(kernel_path, 0, 128, "KERNEL_PATH")) { panic("KERNEL_PATH not specified"); } struct file_handle *fd = balloc(sizeof(struct file_handle)); if (fopen(fd, kernel_drive, kernel_part, kernel_path)) { panic("Could not open kernel file"); } uint32_t signature; fread(fd, &signature, 0x202, sizeof(uint32_t)); // validate signature if (signature != 0x53726448) { panic("Invalid Linux kernel signature"); } size_t setup_code_size = 0; fread(fd, &setup_code_size, 0x1f1, 1); if (setup_code_size == 0) setup_code_size = 4; setup_code_size *= 512; print("linux: Setup code size: %x\n", setup_code_size); size_t real_mode_code_size = 512 + setup_code_size; print("linux: Real Mode code size: %x\n", real_mode_code_size); void *real_mode_code = balloc_aligned(real_mode_code_size, 0x1000); fread(fd, real_mode_code, 0, real_mode_code_size); size_t heap_end_ptr = ((real_mode_code_size & 0x0f) + 0x10) - 0x200; *((uint16_t *)(real_mode_code + 0x224)) = (uint16_t)heap_end_ptr; // vid_mode. 0xffff means "normal" *((uint16_t *)(real_mode_code + 0x1fa)) = 0xffff; uint16_t boot_protocol_ver; boot_protocol_ver = *((uint16_t *)(real_mode_code + 0x206)); print("linux: Boot protocol: %u.%u\n", boot_protocol_ver >> 8, boot_protocol_ver & 0xff); char *kernel_version; kernel_version = real_mode_code + *((uint16_t *)(real_mode_code + 0x20e)) + 0x200; if (kernel_version) { print("linux: Kernel version: %s\n", kernel_version); } // set type of loader *((uint8_t *)(real_mode_code + 0x210)) = 0xff; uint8_t loadflags; loadflags = *((uint8_t *)(real_mode_code + 0x211)); loadflags |= (1 << 0); // kernel is loaded at 0x100000 loadflags &= ~(1 << 5); // print early messages loadflags |= (1 << 7); // can use heap *((uint8_t *)(real_mode_code + 0x211)) = loadflags; // cmdline *((uint32_t *)(real_mode_code + 0x228)) = (uint32_t)cmdline; // load kernel print("Loading kernel...\n"); memmap_alloc_range(KERNEL_LOAD_ADDR, fd->size - real_mode_code_size, 0); fread(fd, (void *)KERNEL_LOAD_ADDR, real_mode_code_size, fd->size - real_mode_code_size); char initrd_path[64]; if (!config_get_value(initrd_path, 0, 64, "INITRD_PATH")) panic("INITRD_PATH not specified"); int initrd_part; { char buf[32]; if (!config_get_value(buf, 0, 32, "INITRD_PARTITION")) { initrd_part = fd->partition; } else { initrd_part = (int)strtoui(buf); } } struct file_handle initrd; if (fopen(&initrd, fd->disk, initrd_part, initrd_path)) { panic("Failed to open initrd"); } print("Loading initrd...\n"); memmap_alloc_range(INITRD_LOAD_ADDR, initrd.size, 0); fread(&initrd, (void *)INITRD_LOAD_ADDR, 0, initrd.size); *((uint32_t *)(real_mode_code + 0x218)) = (uint32_t)INITRD_LOAD_ADDR; *((uint32_t *)(real_mode_code + 0x21c)) = (uint32_t)initrd.size; uint16_t real_mode_code_seg = rm_seg(real_mode_code); uint16_t kernel_entry_seg = real_mode_code_seg + 0x20; term_deinit(); asm volatile ( "cli\n\t" "cld\n\t" "jmp 0x08:1f\n\t" "1: .code16\n\t" "mov ax, 0x10\n\t" "mov ds, ax\n\t" "mov es, ax\n\t" "mov fs, ax\n\t" "mov gs, ax\n\t" "mov ss, ax\n\t" "mov eax, cr0\n\t" "and al, 0xfe\n\t" "mov cr0, eax\n\t" "jmp 0x0000:1f\n\t" "1:\n\t" "mov ds, bx\n\t" "mov es, bx\n\t" "mov fs, bx\n\t" "mov gs, bx\n\t" "mov ss, bx\n\t" "mov sp, 0xfdf0\n\t" "push cx\n\t" "push 0\n\t" "retf\n\t" : : "b" (real_mode_code_seg), "c" (kernel_entry_seg) : "memory" ); }