xv6-65oo2/bootmain.c

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#include "types.h"
#include "elf.h"
#include "x86.h"
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/**********************************************************************
* This a dirt simple boot loader, whose sole job is to boot
* an elf kernel image from the first IDE hard disk.
*
* DISK LAYOUT
* * This program(boot.S and main.c) is the bootloader. It should
* be stored in the first sector of the disk.
*
* * The 2nd sector onward holds the kernel image.
*
* * The kernel image must be in ELF format.
*
* BOOT UP STEPS
* * when the CPU boots it loads the BIOS into memory and executes it
*
* * the BIOS intializes devices, sets of the interrupt routines, and
* reads the first sector of the boot device(e.g., hard-drive)
* into memory and jumps to it.
*
* * Assuming this boot loader is stored in the first sector of the
* hard-drive, this code takes over...
*
* * control starts in bootloader.S -- which sets up protected mode,
* and a stack so C code then run, then calls cmain()
*
* * cmain() in this file takes over, reads in the kernel and jumps to it.
**********************************************************************/
#define SECTSIZE 512
#define ELFHDR ((struct elfhdr *) 0x10000) // scratch space
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void readsect(void*, uint);
void readseg(uint, uint, uint);
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void
cmain(void)
{
struct proghdr *ph, *eph;
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// read 1st page off disk
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readseg((uint) ELFHDR, SECTSIZE*8, 0);
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// is this a valid ELF?
if (ELFHDR->magic != ELF_MAGIC)
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goto bad;
// load each program segment (ignores ph flags)
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ph = (struct proghdr *) ((uchar *) ELFHDR + ELFHDR->phoff);
eph = ph + ELFHDR->phnum;
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for (; ph < eph; ph++)
readseg(ph->va, ph->memsz, ph->offset);
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// call the entry point from the ELF header
// note: does not return!
((void (*)(void)) (ELFHDR->entry & 0xFFFFFF))();
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bad:
outw(0x8A00, 0x8A00);
outw(0x8A00, 0x8E00);
while(1)
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/* do nothing */;
}
// Read 'count' bytes at 'offset' from kernel into virtual address 'va'.
// Might copy more than asked
void
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readseg(uint va, uint count, uint offset)
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{
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uint end_va;
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va &= 0xFFFFFF;
end_va = va + count;
// round down to sector boundary
va &= ~(SECTSIZE - 1);
// translate from bytes to sectors, and kernel starts at sector 1
offset = (offset / SECTSIZE) + 1;
// If this is too slow, we could read lots of sectors at a time.
// We'd write more to memory than asked, but it doesn't matter --
// we load in increasing order.
while (va < end_va) {
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readsect((uchar*) va, offset);
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va += SECTSIZE;
offset++;
}
}
void
waitdisk(void)
{
// wait for disk reaady
while ((inb(0x1F7) & 0xC0) != 0x40)
/* do nothing */;
}
void
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readsect(void *dst, uint offset)
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{
// wait for disk to be ready
waitdisk();
outb(0x1F2, 1); // count = 1
outb(0x1F3, offset);
outb(0x1F4, offset >> 8);
outb(0x1F5, offset >> 16);
outb(0x1F6, (offset >> 24) | 0xE0);
outb(0x1F7, 0x20); // cmd 0x20 - read sectors
// wait for disk to be ready
waitdisk();
// read a sector
insl(0x1F0, dst, SECTSIZE/4);
}