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|
/* $OpenBSD: biosboot.S,v 1.2 2004/03/21 21:22:10 tom Exp $ */
/*
* Copyright (c) 2003 Tobias Weingartner
* Copyright (c) 2003 Tom Cosgrove <tom.cosgrove@arches-consulting.com>
* Copyright (c) 1997 Michael Shalayeff, Tobias Weingartner
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
*/
.file "biosboot.S"
#include <machine/asm.h>
#include <assym.h>
/* Error indicators */
#define PBR_READ_ERROR 'R'
#define PBR_CANT_BOOT 'X'
#define PBR_BAD_MAGIC 'M'
#define PBR_TOO_MANY_INDIRECTS 'I'
#define CHAR_BLOCK_READ '.'
#define CHAR_CHS_READ ';'
/*
* Memory layout:
*
* 0x00000 -> 0x079FF our stack (to 30k5)
* 0x07A00 -> 0x07BFF typical MBR loc (at 30k5)
* 0x07C00 -> 0x07DFF our code (at 31k)
* 0x07E00 -> ... /boot inode block (at 31k5)
* 0x07E00 -> ... (indirect block if nec)
* 0x40000 -> ... /boot (at 256k)
*
* The BIOS loads the MBR at physical address 0x07C00. It then relocates
* itself to (typically) 0x07A00.
*
* The MBR then loads us at physical address 0x07C00.
*
* We use a long jmp to normalise our address to seg:offset 07C0:0000.
* (In real mode on x86, segment registers contain a base address in
* paragraphs (16 bytes). 0000:00010 is the same as 0001:0000.)
*
* We set the stack to start at 0000:79FC (grows down on i386)
*
* We then read the inode for /boot into memory just above us at
* 07E0:0000, and run through the direct block table (and the first
* indirect block table, if necessary).
*
* We load /boot at seg:offset 4000:0000.
*
* Previous versions limited the size of /boot to 64k (loaded in a single
* segment). This version does not have this limitation.
*/
#define INODESEG 0x07e0 /* where we put /boot's inode's block */
#define INDIRECTSEG 0x07e0 /* where we put indirect table, if nec */
#define BOOTSEG 0x07c0 /* biosboot loaded here */
#define BOOTSTACKOFF ((BOOTSEG << 4) - 4) /* stack starts here, grows down */
#define LFMAGIC 0x464c /* LFMAGIC (last two bytes of \7fELF) */
#define ELFMAGIC 0x464c457f /* ELFMAGIC ("\7fELF") */
#define INODEOFF ((INODESEG-BOOTSEG) << 4)
/*
* The data passed by installboot is:
*
* inodeblk uint32 the filesystem block that holds /boot's inode
* inodedbl uint32 the memory offset to the beginning of the
* direct block list (di_db[]). (This is the
* offset within the block + $INODEOFF, which is
* where we load the block to.)
* fs_bsize_p uint16 the filesystem block size _in paragraphs_
* (i.e. fs_bsize / 16)
* fs_bsize_s uint16 the number of 512-byte sectors in a filesystem
* block (i.e. fs_bsize / 512). Directly written
* into the LBA command block, at lba_count.
* XXX LIMITED TO 127 BY PHOENIX EDD SPEC.
* fsbtodb uint8 shift count to convert filesystem blocks to
* disk blocks (sectors). Note that this is NOT
* log2 fs_bsize, since fragmentation allows
* the trailing part of a file to use part of a
* filesystem block. In other words, filesystem
* block numbers can point into the middle of
* filesystem blocks.
* p_offset uint32 the starting disk block (sector) of the
* filesystem
* nblocks uint16 the number of filesystem blocks to read.
* While this can be calculated as
* howmany(di_size, fs_bsize) it takes us too
* many code bytes to do it.
*
* All of these are patched directly into the code where they are used
* (once only, each), to save space.
*
* One more symbol is exported, in anticipation of a "-c" flag in
* installboot to force CHS reads:
*
* force_chs uint8 set to the value 1 to force biosboot to use CHS
* reads (this will of course cause the boot sequence
* to fail if /boot is above 8 GB).
*/
.globl inodeblk, inodedbl, fs_bsize_p, fsbtodb, p_offset, nblocks
.globl fs_bsize_s, force_chs
.type inodeblk, @function
.type inodedbl, @function
.type fs_bsize_p, @function
.type fs_bsize_s, @function
.type fsbtodb, @function
.type p_offset, @function
.type nblocks, @function
.type force_chs, @function
/* Clobbers %ax, maybe more */
#define putc(c) movb $c, %al; call Lchr
/* Clobbers %ax, %si, maybe more */
#define puts(s) movw $s, %si; call Lmessage
.text
.code16
.globl _start
_start:
jmp begin
nop
/*
* BIOS Parameter Block. Read by many disk utilities.
*
* We would have liked biosboot to go from the superblock to
* the root directory to the inode for /boot, thence to read
* its blocks into memory.
*
* As code and data space is quite tight in the 512-byte
* partition boot sector, we instead get installboot to pass
* us some pre-processed fields.
*
* We would have liked to put these in the BIOS parameter block,
* as that seems to be the right place to put them (it's really
* the equivalent of the superblock for FAT filesystems), but
* caution prevents us.
*
* For now, these fields are either directly in the code (when they
* are used once only) or at the end of this sector.
*/
. = _start + 3
.asciz "OpenBSD"
/* BPB */
. = _start + 0x0b
bpb: .word DEV_BSIZE /* sector size */
.byte 2 /* sectors/cluster */
.word 0 /* reserved sectors */
.byte 0 /* # of FAT */
.word 0 /* root entries */
.word 0 /* small sectors */
.byte 0xf8 /* media type (hd) */
.word 0 /* sectors/fat */
.word 0 /* sectors per track */
.word 0 /* # of heads */
/* EBPB */
. = _start + 0x1c
ebpb: .long 16 /* hidden sectors */
.long 0 /* large sectors */
.word 0 /* physical disk */
.byte 0x29 /* signature, needed by NT */
.space 4, 0 /* volume serial number */
.ascii "UNIX LABEL"
.asciz "UFS 4.4"
/* boot code */
. = _start + 0x3e
begin:
/* Fix up %cs just in case */
ljmp $BOOTSEG, $main
/*
* Come here if we have to do a CHS boot, but we get an error from
* BIOS get drive parameters, or it returns nsectors == 0 (in which
* case we can't do the division we need to convert LBA sector
* number to CHS).
*/
cant_boot:
movb $PBR_CANT_BOOT, %al
jmp err_print_crlf
main:
/* Set up stack */
xorw %ax, %ax
movw %ax, %ss
movw $BOOTSTACKOFF, %sp
/* Set up needed data segment reg */
pushw %cs
popw %ds /* Now %cs == %ds, != %ss (%ss == 0) */
#ifdef SERIAL
/* Initialize the serial port to 9600 baud, 8N1 */
push %dx
movw $0x00e3, %ax
movw SERIAL, %dx
int $0x14
pop %dx
#endif
#ifdef BDEBUG
putc('R')
#endif
/*
* We're going to print our sign-on message.
*
* We're now LBA-aware, and will use LBA to load /boot if the
* BIOS says it's available. However, we have seen machines
* where CHS is required even when LBA is available. Therefore
* we provide a way to force CHS use:
*
* If the SHIFT key is held down on entry, force CHS reads.
*/
movw $load_msg+1, %si /* "Loading" */
movb %dl, %dh
/*
* BIOS call "INT 0x16 Get Keyboard Shift Flags
* Call with %ah = 0x02
* Return:
* %al = shift flags
* %ah - undefined by many BIOSes
*/
movb $0x02, %ah
int $0x16
/*
* We provide the ability to force CHS use without having to hold
* down the SHIFT key each boot. Just set the byte at force_chs
* to 1 (more accurately any value with either of the bottom two
* bits set, but the use of 1 is recommended).
*/
force_chs = .+1
orb $0, %al
testb $0x3, %al /* Either shift key down? */
jz no_force_chs
decw %si /* "!Loading" indicates forced CHS */
xorb %dh, %dh /* Pretend a floppy, so no LBA use */
no_force_chs:
/* Print pretty message */
call Lmessage
/*
* We will use LBA reads if we have LBA support, so find out.
*/
/*
* But don't even try on floppies, OR if forcing to CHS.
*
* (We're really testing %dl, but use %dh so we can force the
* top bit to zero to force CHS boot.)
*/
testb $0x80, %dh
jz no_lba
/*
* BIOS call "INT 0x13 Extensions Installation Check"
* Call with %ah = 0x41
* %bx = 0x55AA
* %dl = drive (0x80 for 1st hd, 0x81 for 2nd, etc)
* Return:
* carry set: failure
* %ah = error code (0x01, invalid func)
* carry clear: success
* %bx = 0xAA55 (must verify)
* %ah = major version of extensions
* %al (internal use)
* %cx = capabilities bitmap
* 0x0001 - extnd disk access funcs
* 0x0002 - rem. drive ctrl funcs
* 0x0004 - EDD functions with EBP
* %dx (extension version?)
*/
pushw %dx /* Save the drive number (%dl) */
movw $0x55AA, %bx
movb $0x41, %ah
int $0x13
popw %dx /* Retrieve drive number */
jc no_lba /* Did the command work? Jump if not */
cmpw $0xAA55, %bx /* Check that bl, bh exchanged */
jne no_lba /* If not, don't have EDD extensions */
testb $0x01, %cl /* And do we have "read" available? */
jz no_lba /* Again, use CHS if not */
/* We have LBA support, so that's the vector to use */
movw $load_lba, load_fsblock
jmp get_going
no_lba:
pushw %dx
/*
* BIOS call "INT 0x13 Function 0x08" to get drive parameters
* Call with %ah = 0x08
* %dl = drive (0x80 for 1st hd, 0x81 for 2nd...)
* Return:
* carry set: failure
* %ah = err code
* carry clear: success
* %ah = 0x00
* %al = 0x00 (some BIOSes)
* %ch = 0x00 (some BIOSes)
* %ch = max-cylinder & 0xFF
* %cl = max sector | rest of max-cyl bits
* %dh = max head number
* %dl = number of drives
* (according to Ralph Brown Int List)
*/
movb $0x08, %ah
int $0x13 /* We need to know heads & sectors */
jc cant_boot /* If error, can't boot */
movb %dh, maxheads /* Remember this */
andb $0x3F, %cl
jz cant_boot
movb %cl, nsectors
putc(CHAR_CHS_READ) /* Indicate (subtly) CHS reads */
popw %dx /* Retrieve the drive number */
get_going:
/*
* Older versions of biosboot used to set up the destination
* segment, and increase the target offset every time a number
* of blocks was read. That limits /boot to 64k.
*
* In order to support /boots > 64k, we always read to offset
* 0000 in the target segment, and just increase the target segment
* each time.
*/
/*
* We would do movl inodeblk, %eax here, but that instruction
* is 4 bytes long; add 4 bytes for data takes 8 bytes. Using
* a load immediate takes 6 bytes, and we just get installboot
* to patch here, rather than data anywhere else.
*/
inodeblk = .+2
movl $0x90909090, %eax /* mov $inodeblk, %eax */
movw $INODESEG, %bx /* Where to put /boot's inode */
/*
* %eax - filesystem block to read
* %bx - target segment (target offset is 0000)
* %dl - BIOS drive number
*/
call *load_fsblock /* This will crash'n'burn on errs */
/*
* We now have /boot's inode in memory.
*
* /usr/include/ufs/ufs/dinode.h for the details:
*
* Offset 8 (decimal): 64-bit file size (only use low 32 bits)
* Offset 40 (decimal): list of NDADDR (12) direct disk blocks
* Offset 88 (decimal): list of NIADDR (3) indirect disk blocks
*
* NOTE: list of indirect blocks immediately follows list of
* direct blocks. We use this fact in the code.
*
* We only support loading from direct blocks plus the first
* indirect block. This is the same as the previous biosboot/
* installboot limit. Note that, with default 16,384-bytes
* filesystem blocks, the direct block list supports files up
* to 192 KB. /boot is currently around 60 KB.
*
* The on-disk format can't change (filesystems with this format
* already exist) so okay to hardcode offsets here.
*
* The nice thing about doing things with filesystem blocks
* rather than sectors is that filesystem blocks numbers have
* 32 bits, so fit into a single register (even if "e"d).
*
* Note that this code does need updating if booting from a new
* filesystem is required.
*/
#define NDADDR 12
#define di_db 40 /* Not used; addr put in by instboot */
#define di_ib 88 /* Not used; run on from direct blks */
/*
* Register usage:
*
* %eax - block number for load_fsblock
* %bx - target segment (target offset is 0000) for load_fsblock
* %dl - BIOS drive number for load_fsblock
* %esi - points to block table in inode/indirect block
* %cx - number of blocks to load within loop (i.e. from current
* block list, which is either the direct block list di_db[]
* or the indirect block list)
* %di - total number of blocks to load
*/
/*
* We would do movl inodedbl, %esi here, but that instruction
* is 4 bytes long; add 4 bytes for data takes 8 bytes. Using
* a load immediate takes 6 bytes, and we just get installboot
* to patch here, rather than in data anywhere else.
*/
inodedbl = .+2
movl $0x90909090, %esi /* mov $inodedbl, %esi */
/* Now esi -> di_db[] */
nblocks = .+1
movw $0x9090, %di /* mov nblocks, %di */
movw %di, %cx
cmpw $NDADDR, %cx
jc 1f
movw $NDADDR, %cx
1: /* %cx = min(nblocks, $NADDR) */
movw $(LOADADDR >> 4), %bx /* Target segment for /boot */
load_blocks:
putc(CHAR_BLOCK_READ) /* Show progress indicator */
cld
/* Get the next filesystem block number into %eax */
lodsl /* %eax = *(%si++), make sure 0x66 0xad */
pushal /* Save all 32-bit registers */
/*
* Read a single filesystem block (will almost certainly be multiple
* disk sectors)
*
* %eax - filesystem block to read
* %bx - target segment (target offset is 0000)
* %dl - BIOS drive number
*/
call *load_fsblock /* This will crash'n'burn on errs */
popal /* Restore 32-bit registers */
/*
* We want to put addw fs_bsize_p, %bx, which takes 4 bytes
* of code and two bytes of data.
*
* Instead, use an immediate load, and have installboot patch
* here directly.
*/
/* Move on one filesystem block */
fs_bsize_p = .+2
addw $0x9090, %bx /* addw $fs_bsize_p, %bx */
decw %di
loop load_blocks
/* %cx == 0 ... important it stays this way (used later) */
/*
* Finished reading a set of blocks.
*
* This was either the direct blocks, and there may or may not
* be indirect blocks to read, or it was the indirect blocks,
* and we may or may not have read in all of /boot. (Ideally
* will have read in all of /boot.)
*/
orw %di, %di
jz done_load /* No more sectors to read */
/* We have more blocks to load */
/* We only support a single indirect block (the same as previous
* versions of installboot. This is required for the boot floppies.
*
* We use a bit of the code to store a flag that indicates
* whether we have read the first indirect block or not.
*
* If we've already read the indirect list, we can't load this /boot.
*
* indirect uint8 0 => running through load_blocks loop reading
* direct blocks. If != 0, we're reading the
* indirect blocks. Must use a field that is
* initialised to 0.
*/
indirect = .+2
movw $PBR_TOO_MANY_INDIRECTS, %ax /* movb $PRB_TOO..., %al */
/* movb indirect, %ah */
orb %ah, %ah
jnz err_print_crlf
incb indirect /* No need to worry about wrap */
/* around, as this will only be done */
/* once before we fail */
/* Okay, let's read in the indirect block */
lodsl /* Get blk num of 1st indirect blk */
pushw %bx /* Remember where we got to */
movw $INODESEG, %bx
call *load_fsblock /* This will crash'n'burn on errs */
popw %bx /* Indirect blocks get added on to */
/* just after where we got to */
movl $INODEOFF, %esi
movw %di, %cx /* How many blocks left to read */
jmp load_blocks
done_load:
puts(crlf)
/* %cx == 0 from loop above... keep it that way */
/*
* Check the magic signature at the beginning of /boot.
* Since /boot is now ELF, this should be 0xFF E L F.
*/
movw $(LOADADDR >> 4), %ax /* Target segment */
movw %ax, %es
/*
* We cheat a little here, and only check the L and F.
*
* (Saves 3 bytes of code... the two signature bytes we
* don't check, and the operand size prefix that's not
* needed.)
*/
cmpw $LFMAGIC, %es:2(,1)
je exec_boot
movb $PBR_BAD_MAGIC, %al
err_print:
movw $err_txt, %si
err_print2:
movb %al, err_id
err_stop:
call Lmessage
stay_stopped:
sti /* Ensure Ctl-Alt-Del will work */
hlt
jmp stay_stopped /* Just to make sure :-) */
exec_boot:
/* At this point we could try to use the entry point in
* the image we just loaded. But if we do that, we also
* have to potentially support loading that image where it
* is supposed to go. Screw it, just assume that the image
* is sane.
*/
#ifdef BDEBUG
putc('P')
#endif
/* %cx == 0 from loop above... keep it that way */
/*
* We want to do movzbl %dl, %eax ; pushl %eax to zero-extend the
* drive number to 32 bits and pass it to /boot. However, this
* takes 6 bytes.
*
* Doing it this way saves 2 bytes.
*/
pushw %cx
movb %dl, %cl
pushw %cx
pushl $BOOTMAGIC /* use some magic */
/* jmp /boot */
ljmp $(LINKADDR >> 4), $0
/* not reached */
/*
* Load a single filesystem block into memory using CHS calls.
*
* Input: %eax - 32-bit filesystem block number
* %bx - target segment (target offset is 0000)
* %dl - BIOS drive number
*
* Output: block successfully read in (panics if not)
* all general purpose registers may have been trashed
*/
load_chs:
/*
* BIOS call "INT 0x13 Function 0x2" to read sectors from disk into
* memory.
* Call with %ah = 0x42
* %ah = 0x2
* %al = number of sectors
* %ch = cylinder & 0xFF
* %cl = sector (0-63) | rest of cylinder bits
* %dh = head
* %dl = drive (0x80 for 1st hd, 0x81 for 2nd...)
* %es:%bx = segment:offset of buffer
* Return:
* carry set: failure
* %ah = err code
* %al = number of sectors transferred
* carry clear: success
* %al = 0x0 OR number of sectors transferred
* (depends on BIOS!)
* (according to Ralph Brown Int List)
*/
/* Convert the filesystem block into a sector value */
call fsbtosector
movl lba_sector, %eax /* we can only use 24 bits, really */
movw fs_bsize_s, %cx /* sectors per filesystem block */
/*
* Some BIOSes require that reads don't cross track boundaries.
* Therefore we do all CHS reads single-sector.
*/
calc_chs:
pushal
movw %bx, %es /* Set up target segment */
pushw %dx /* Save drive number (in %dl) */
xorl %edx, %edx
movl %edx, %ecx
nsectors = .+1
movb $0x90, %cl /* movb $nsectors, %cl */
/* Doing it this way saves 4-2 = 2 bytes code */
/* bytes (no data, since we would overload) */
divl %ecx, %eax
/* Now have sector number in %dl */
pushw %dx /* Remember for later */
xorl %edx, %edx
maxheads = .+1
movb $0x90, %cl /* movb $maxheads, %cl; 0 <= maxheads <= 255 */
/* Doing it this way saves 4-2 = 2 code */
/* bytes (no data, since we would overload */
incw %cx /* Number of heads is 1..256, no "/0" worries */
divl %ecx, %eax
/* Have head number in %dl */
/* Cylinder number in %ax */
movb %al, %ch /* Bottom 8 bits of cyl number */
shlb $6, %ah /* Move up top 2 bits of cyl number */
movb %ah, %cl /* Top 2 bits of cyl number in here */
popw %bx /* (pushed %dx, but need %dl for now */
incb %bl /* Sector numbers run from 1, not 0 */
orb %bl, %cl /* Or the sector number into top bits cyl */
/* Remember, %dl has head number */
popw %ax
/* %al has BIOS drive number -> %dl */
movb %dl, %dh /* Now %dh has head number (from 0) */
movb %al, %dl /* Now %dl has BIOS drive number */
xorw %bx, %bx /* Set up target offset */
movw $0x0201, %ax /* %al = 1 - read one sector at a time */
/* %ah = 2 - int 0x13 function for CHS read */
call do_int_13 /* saves us 1 byte :-) */
/* Get the next sector */
popal
incl %eax
addw $32, %bx /* Number of segments/paras in a sector */
loop calc_chs
ret
/* read error */
read_error:
movb $PBR_READ_ERROR, %al
err_print_crlf:
movw $err_txt_crlf, %si
jmp err_print2
/*
* Load a single filesystem block into memory using LBA calls.
*
* Input: %eax - 32-bit filesystem block number
* %bx - target segment (target offset is 0000)
* %dl - BIOS drive number
*
* Output: block successfully read in (panics if not)
* all general purpose registers may have been trashed
*/
load_lba:
/*
* BIOS call "INT 0x13 Extensions Extended Read"
* Call with %ah = 0x42
* %dl = drive (0x80 for 1st hd, 0x81 for 2nd, etc)
* %ds:%si = segment:offset of command packet
* Return:
* carry set: failure
* %ah = error code (0x01, invalid func)
* command packet's sector count field set
* to the number of sectors successfully
* transferred
* carry clear: success
* %ah = 0 (success)
* Command Packet:
* 0x0000 BYTE packet size (0x10 or 0x18)
* 0x0001 BYTE reserved (should be 0)
* 0x0002 WORD sectors to transfer (max 127)
* 0x0004 DWORD seg:offset of transfer buffer
* 0x0008 QWORD starting sector number
*/
call fsbtosector /* Set up lba_sector & lba_sector+4 */
/* movb %dh, lba_count <- XXX done by installboot */
movw %bx, lba_seg
movw $lba_command, %si
movb $0x42, %ah
do_int_13:
int $0x13
jc read_error
ret
/*
* Converts a given filesystem block number into a disk sector
* at lba_sector and lba_sector+4.
*
* Input: %eax - 32-bit filesystem block number
*
* Output: lba_sector and lba_sector+4 set up
* XXX
*/
fsbtosector:
/*
* We want to do
*
* movb fsbtodb, %ch /# Shift counts we'll need #/
* movb $32, %cl
*
* which is 6 bytes of code + 1 byte of data.
*
* We'll actually code it with an immediate 16-bit load into %cx,
* which is just 3 bytes of data (saves 4 bytes).
*/
fsbtodb = .+2
movw $0x9020, %cx /* %ch = fsbtodb, %cl = 0x20 */
pushl %eax
subb %ch, %cl
shrl %cl, %eax
movl %eax, lba_sector+4
popl %eax
movb %ch, %cl
shll %cl, %eax
/*
* And add p_offset, which is the block offset to the start
* of the filesystem.
*
* We would do addl p_offset, %eax, which is 5 bytes of code
* and 4 bytes of data, but it's more efficient to have
* installboot patch directly in the code (this variable is
* only used here) for 6 bytes of code (but no data).
*/
p_offset = .+2
addl $0x90909090, %eax /* addl $p_offset, %eax */
movl %eax, lba_sector
jnc 1f
incl lba_sector+4
1:
ret
/*
* Display string
*/
Lmessage:
cld
1:
lodsb /* load a byte into %al */
orb %al, %al
jz 1f
call Lchr
jmp 1b
/*
* Lchr: write the character in %al to console
*/
Lchr:
#ifdef SERIAL
pushw %dx
movb $0x01, %ah
xorw %dx, %dx
movb SERIAL, %dl
int $0x14
popw %dx
#else
pushw %bx
movb $0x0e, %ah
xorw %bx, %bx
incw %bx /* movw $0x01, %bx */
int $0x10
popw %bx
#endif
1:
ret
/* .data */
/* vector to the routine to read a particular filesystem block for us */
load_fsblock:
.word load_chs
/* This next block is used for the EDD command packet used to read /boot
* sectors.
*
* lba_count is set up for us by installboot. It is the number of sectors
* in a filesystem block. (Max value 127.)
*
* XXX The EDD limit of 127 sectors in one read means that we currently
* restrict filesystem blocks to 127 sectors, or < 64 KB. That is
* effectively a 32 KB block limit, as filesystem block sizes are
* powers of two. The default filesystem block size is 16 KB.
*
* I say we run with this limitation and see where it bites us...
*/
lba_command:
.byte 0x10 /* size of command packet */
.byte 0x00 /* reserved */
fs_bsize_s:
lba_count:
.word 0 /* sectors to transfer, max 127 */
.word 0 /* target buffer, offset */
lba_seg:
.word 0 /* target buffer, segment */
lba_sector:
.long 0, 0 /* sector number */
load_msg:
.asciz "!Loading"
err_txt_crlf:
.ascii "\r\n"
err_txt:
.ascii "ERR "
err_id:
.ascii "?"
crlf: .asciz "\r\n"
. = 0x200 - 2
/* a little signature */
.word DOSMBR_SIGNATURE
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