/* Multiboot support * * 2003-07-02 mmap fix and header probe by SONE Takeshi */ struct multiboot_mods { unsigned mod_start; unsigned mod_end; unsigned char *string; unsigned reserved; }; struct multiboot_mmap { unsigned int size; unsigned int base_addr_low; unsigned int base_addr_high; unsigned int length_low; unsigned int length_high; unsigned int type; }; /* The structure of a Multiboot 0.6 parameter block. */ struct multiboot_info { unsigned int flags; #define MULTIBOOT_MEM_VALID 0x01 #define MULTIBOOT_BOOT_DEV_VALID 0x02 #define MULTIBOOT_CMDLINE_VALID 0x04 #define MULTIBOOT_MODS_VALID 0x08 #define MULTIBOOT_AOUT_SYMS_VALID 0x10 #define MULTIBOOT_ELF_SYMS_VALID 0x20 #define MULTIBOOT_MMAP_VALID 0x40 unsigned int memlower; unsigned int memupper; unsigned int bootdev; unsigned int cmdline; /* physical address of the command line */ unsigned mods_count; struct multiboot_mods *mods_addr; unsigned syms_num; unsigned syms_size; unsigned syms_addr; unsigned syms_shndx; unsigned mmap_length; unsigned mmap_addr; /* The structure actually ends here, so I might as well put * the ugly e820 parameters here... */ struct multiboot_mmap mmap[E820MAX]; }; /* Multiboot image header (minimal part) */ struct multiboot_header { unsigned int magic; #define MULTIBOOT_HEADER_MAGIC 0x1BADB002 unsigned int flags; unsigned int checksum; }; static struct multiboot_header *mbheader; static struct multiboot_info mbinfo; static void multiboot_probe(unsigned char *data, int len) { int offset; struct multiboot_header *h; /* Multiboot spec requires the header to be in first 8KB of the image */ if (len > 8192) len = 8192; for (offset = 0; offset < len; offset += 4) { h = (struct multiboot_header *) (data + offset); if (h->magic == MULTIBOOT_HEADER_MAGIC && h->magic + h->flags + h->checksum == 0) { printf("/Multiboot"); mbheader = h; return; } } mbheader = 0; } static inline void multiboot_boot(unsigned long entry) { unsigned char cmdline[512], *c; int i; if (!mbheader) return; /* Etherboot limits the command line to the kernel name, * default parameters and user prompted parameters. All of * them are shorter than 256 bytes. As the kernel name and * the default parameters come from the same BOOTP/DHCP entry * (or if they don't, the parameters are empty), only two * strings of the maximum size are possible. Note this buffer * can overrun if a stupid file name is chosen. Oh well. */ c = cmdline; for (i = 0; KERNEL_BUF[i] != 0; i++) { switch (KERNEL_BUF[i]) { case ' ': case '\\': case '"': *c++ = '\\'; break; default: break; } *c++ = KERNEL_BUF[i]; } (void)sprintf(c, " -retaddr %#lX", virt_to_phys(xend32)); mbinfo.flags = MULTIBOOT_MMAP_VALID | MULTIBOOT_MEM_VALID |MULTIBOOT_CMDLINE_VALID; mbinfo.memlower = meminfo.basememsize; mbinfo.memupper = meminfo.memsize; mbinfo.bootdev = 0; /* not booted from disk */ mbinfo.cmdline = virt_to_phys(cmdline); for (i = 0; i < (int) meminfo.map_count; i++) { mbinfo.mmap[i].size = sizeof(struct multiboot_mmap) - sizeof(unsigned int); mbinfo.mmap[i].base_addr_low = (unsigned int) meminfo.map[i].addr; mbinfo.mmap[i].base_addr_high = (unsigned int) (meminfo.map[i].addr >> 32); mbinfo.mmap[i].length_low = (unsigned int) meminfo.map[i].size; mbinfo.mmap[i].length_high = (unsigned int) (meminfo.map[i].size >> 32); mbinfo.mmap[i].type = meminfo.map[i].type; } mbinfo.mmap_length = meminfo.map_count * sizeof(struct multiboot_mmap); mbinfo.mmap_addr = virt_to_phys(mbinfo.mmap); /* The Multiboot 0.6 spec requires all segment registers to be * loaded with an unrestricted, writeable segment. * xstart32 does this for us. */ /* Start the kernel, passing the Multiboot information record * and the magic number. */ os_regs.eax = 0x2BADB002; os_regs.ebx = virt_to_phys(&mbinfo); xstart32(entry); longjmp(restart_etherboot, -2); }