f9ba70535d
The specifications that talk about E820 map doesn't have an upper limit on the number of e820 entries. But, today's kernel has a hard limit of 32. With increase in memory size, we are seeing the number of E820 entries reaching close to 32. Patch below bumps the number upto 128. The patch changes the location of EDDBUF in zero-page (as it comes after E820). As, EDDBUF is not used by boot loaders, this patch should not have any effect on bootloader-setup code interface. Patch covers both i386 and x86-64. Tested on: * grub booting bzImage * lilo booting bzImage with EDID info enabled * pxeboot of bzImage Side-effect: bss increases by ~ 2K and init.data increases by ~7.5K on all systems, due to increase in size of static arrays. Signed-off-by: Venkatesh Pallipadi <venkatesh.pallipadi@intel.com> Signed-off-by: Andrew Morton <akpm@osdl.org> Signed-off-by: Linus Torvalds <torvalds@osdl.org>
1028 lines
26 KiB
ArmAsm
1028 lines
26 KiB
ArmAsm
/*
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* setup.S Copyright (C) 1991, 1992 Linus Torvalds
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*
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* setup.s is responsible for getting the system data from the BIOS,
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* and putting them into the appropriate places in system memory.
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* both setup.s and system has been loaded by the bootblock.
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*
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* This code asks the bios for memory/disk/other parameters, and
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* puts them in a "safe" place: 0x90000-0x901FF, ie where the
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* boot-block used to be. It is then up to the protected mode
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* system to read them from there before the area is overwritten
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* for buffer-blocks.
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*
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* Move PS/2 aux init code to psaux.c
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* (troyer@saifr00.cfsat.Honeywell.COM) 03Oct92
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*
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* some changes and additional features by Christoph Niemann,
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* March 1993/June 1994 (Christoph.Niemann@linux.org)
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*
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* add APM BIOS checking by Stephen Rothwell, May 1994
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* (sfr@canb.auug.org.au)
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*
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* High load stuff, initrd support and position independency
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* by Hans Lermen & Werner Almesberger, February 1996
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* <lermen@elserv.ffm.fgan.de>, <almesber@lrc.epfl.ch>
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*
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* Video handling moved to video.S by Martin Mares, March 1996
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* <mj@k332.feld.cvut.cz>
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*
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* Extended memory detection scheme retwiddled by orc@pell.chi.il.us (david
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* parsons) to avoid loadlin confusion, July 1997
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*
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* Transcribed from Intel (as86) -> AT&T (gas) by Chris Noe, May 1999.
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* <stiker@northlink.com>
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*
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* Fix to work around buggy BIOSes which dont use carry bit correctly
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* and/or report extended memory in CX/DX for e801h memory size detection
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* call. As a result the kernel got wrong figures. The int15/e801h docs
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* from Ralf Brown interrupt list seem to indicate AX/BX should be used
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* anyway. So to avoid breaking many machines (presumably there was a reason
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* to orginally use CX/DX instead of AX/BX), we do a kludge to see
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* if CX/DX have been changed in the e801 call and if so use AX/BX .
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* Michael Miller, April 2001 <michaelm@mjmm.org>
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*
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* New A20 code ported from SYSLINUX by H. Peter Anvin. AMD Elan bugfixes
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* by Robert Schwebel, December 2001 <robert@schwebel.de>
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*/
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#include <linux/config.h>
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#include <asm/segment.h>
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#include <linux/version.h>
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#include <linux/compile.h>
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#include <asm/boot.h>
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#include <asm/e820.h>
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#include <asm/page.h>
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/* Signature words to ensure LILO loaded us right */
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#define SIG1 0xAA55
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#define SIG2 0x5A5A
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INITSEG = DEF_INITSEG # 0x9000, we move boot here, out of the way
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SYSSEG = DEF_SYSSEG # 0x1000, system loaded at 0x10000 (65536).
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SETUPSEG = DEF_SETUPSEG # 0x9020, this is the current segment
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# ... and the former contents of CS
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DELTA_INITSEG = SETUPSEG - INITSEG # 0x0020
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.code16
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.globl begtext, begdata, begbss, endtext, enddata, endbss
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.text
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begtext:
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.data
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begdata:
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.bss
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begbss:
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.text
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start:
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jmp trampoline
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# This is the setup header, and it must start at %cs:2 (old 0x9020:2)
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.ascii "HdrS" # header signature
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.word 0x0203 # header version number (>= 0x0105)
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# or else old loadlin-1.5 will fail)
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realmode_swtch: .word 0, 0 # default_switch, SETUPSEG
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start_sys_seg: .word SYSSEG
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.word kernel_version # pointing to kernel version string
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# above section of header is compatible
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# with loadlin-1.5 (header v1.5). Don't
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# change it.
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type_of_loader: .byte 0 # = 0, old one (LILO, Loadlin,
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# Bootlin, SYSLX, bootsect...)
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# See Documentation/i386/boot.txt for
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# assigned ids
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# flags, unused bits must be zero (RFU) bit within loadflags
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loadflags:
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LOADED_HIGH = 1 # If set, the kernel is loaded high
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CAN_USE_HEAP = 0x80 # If set, the loader also has set
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# heap_end_ptr to tell how much
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# space behind setup.S can be used for
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# heap purposes.
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# Only the loader knows what is free
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#ifndef __BIG_KERNEL__
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.byte 0
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#else
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.byte LOADED_HIGH
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#endif
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setup_move_size: .word 0x8000 # size to move, when setup is not
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# loaded at 0x90000. We will move setup
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# to 0x90000 then just before jumping
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# into the kernel. However, only the
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# loader knows how much data behind
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# us also needs to be loaded.
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code32_start: # here loaders can put a different
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# start address for 32-bit code.
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#ifndef __BIG_KERNEL__
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.long 0x1000 # 0x1000 = default for zImage
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#else
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.long 0x100000 # 0x100000 = default for big kernel
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#endif
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ramdisk_image: .long 0 # address of loaded ramdisk image
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# Here the loader puts the 32-bit
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# address where it loaded the image.
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# This only will be read by the kernel.
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ramdisk_size: .long 0 # its size in bytes
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bootsect_kludge:
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.long 0 # obsolete
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heap_end_ptr: .word modelist+1024 # (Header version 0x0201 or later)
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# space from here (exclusive) down to
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# end of setup code can be used by setup
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# for local heap purposes.
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pad1: .word 0
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cmd_line_ptr: .long 0 # (Header version 0x0202 or later)
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# If nonzero, a 32-bit pointer
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# to the kernel command line.
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# The command line should be
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# located between the start of
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# setup and the end of low
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# memory (0xa0000), or it may
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# get overwritten before it
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# gets read. If this field is
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# used, there is no longer
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# anything magical about the
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# 0x90000 segment; the setup
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# can be located anywhere in
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# low memory 0x10000 or higher.
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ramdisk_max: .long (-__PAGE_OFFSET-(512 << 20)-1) & 0x7fffffff
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# (Header version 0x0203 or later)
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# The highest safe address for
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# the contents of an initrd
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trampoline: call start_of_setup
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.align 16
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# The offset at this point is 0x240
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.space (0xeff-0x240+1) # E820 & EDD space (ending at 0xeff)
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# End of setup header #####################################################
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start_of_setup:
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# Bootlin depends on this being done early
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movw $0x01500, %ax
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movb $0x81, %dl
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int $0x13
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#ifdef SAFE_RESET_DISK_CONTROLLER
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# Reset the disk controller.
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movw $0x0000, %ax
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movb $0x80, %dl
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int $0x13
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#endif
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# Set %ds = %cs, we know that SETUPSEG = %cs at this point
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movw %cs, %ax # aka SETUPSEG
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movw %ax, %ds
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# Check signature at end of setup
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cmpw $SIG1, setup_sig1
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jne bad_sig
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cmpw $SIG2, setup_sig2
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jne bad_sig
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jmp good_sig1
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# Routine to print asciiz string at ds:si
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prtstr:
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lodsb
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andb %al, %al
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jz fin
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call prtchr
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jmp prtstr
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fin: ret
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# Space printing
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prtsp2: call prtspc # Print double space
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prtspc: movb $0x20, %al # Print single space (note: fall-thru)
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# Part of above routine, this one just prints ascii al
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prtchr: pushw %ax
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pushw %cx
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movw $7,%bx
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movw $0x01, %cx
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movb $0x0e, %ah
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int $0x10
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popw %cx
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popw %ax
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ret
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beep: movb $0x07, %al
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jmp prtchr
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no_sig_mess: .string "No setup signature found ..."
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good_sig1:
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jmp good_sig
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# We now have to find the rest of the setup code/data
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bad_sig:
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movw %cs, %ax # SETUPSEG
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subw $DELTA_INITSEG, %ax # INITSEG
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movw %ax, %ds
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xorb %bh, %bh
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movb (497), %bl # get setup sect from bootsect
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subw $4, %bx # LILO loads 4 sectors of setup
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shlw $8, %bx # convert to words (1sect=2^8 words)
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movw %bx, %cx
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shrw $3, %bx # convert to segment
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addw $SYSSEG, %bx
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movw %bx, %cs:start_sys_seg
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# Move rest of setup code/data to here
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movw $2048, %di # four sectors loaded by LILO
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subw %si, %si
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pushw %cs
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popw %es
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movw $SYSSEG, %ax
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movw %ax, %ds
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rep
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movsw
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movw %cs, %ax # aka SETUPSEG
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movw %ax, %ds
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cmpw $SIG1, setup_sig1
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jne no_sig
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cmpw $SIG2, setup_sig2
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jne no_sig
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jmp good_sig
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no_sig:
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lea no_sig_mess, %si
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call prtstr
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no_sig_loop:
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hlt
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jmp no_sig_loop
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good_sig:
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movw %cs, %ax # aka SETUPSEG
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subw $DELTA_INITSEG, %ax # aka INITSEG
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movw %ax, %ds
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# Check if an old loader tries to load a big-kernel
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testb $LOADED_HIGH, %cs:loadflags # Do we have a big kernel?
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jz loader_ok # No, no danger for old loaders.
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cmpb $0, %cs:type_of_loader # Do we have a loader that
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# can deal with us?
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jnz loader_ok # Yes, continue.
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pushw %cs # No, we have an old loader,
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popw %ds # die.
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lea loader_panic_mess, %si
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call prtstr
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jmp no_sig_loop
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loader_panic_mess: .string "Wrong loader, giving up..."
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loader_ok:
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# Get memory size (extended mem, kB)
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xorl %eax, %eax
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movl %eax, (0x1e0)
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#ifndef STANDARD_MEMORY_BIOS_CALL
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movb %al, (E820NR)
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# Try three different memory detection schemes. First, try
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# e820h, which lets us assemble a memory map, then try e801h,
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# which returns a 32-bit memory size, and finally 88h, which
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# returns 0-64m
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# method E820H:
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# the memory map from hell. e820h returns memory classified into
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# a whole bunch of different types, and allows memory holes and
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# everything. We scan through this memory map and build a list
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# of the first 32 memory areas, which we return at [E820MAP].
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# This is documented at http://www.acpi.info/, in the ACPI 2.0 specification.
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#define SMAP 0x534d4150
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meme820:
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xorl %ebx, %ebx # continuation counter
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movw $E820MAP, %di # point into the whitelist
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# so we can have the bios
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# directly write into it.
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jmpe820:
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movl $0x0000e820, %eax # e820, upper word zeroed
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movl $SMAP, %edx # ascii 'SMAP'
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movl $20, %ecx # size of the e820rec
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pushw %ds # data record.
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popw %es
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int $0x15 # make the call
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jc bail820 # fall to e801 if it fails
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cmpl $SMAP, %eax # check the return is `SMAP'
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jne bail820 # fall to e801 if it fails
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# cmpl $1, 16(%di) # is this usable memory?
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# jne again820
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# If this is usable memory, we save it by simply advancing %di by
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# sizeof(e820rec).
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#
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good820:
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movb (E820NR), %al # up to 128 entries
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cmpb $E820MAX, %al
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jae bail820
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incb (E820NR)
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movw %di, %ax
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addw $20, %ax
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movw %ax, %di
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again820:
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cmpl $0, %ebx # check to see if
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jne jmpe820 # %ebx is set to EOF
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bail820:
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# method E801H:
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# memory size is in 1k chunksizes, to avoid confusing loadlin.
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# we store the 0xe801 memory size in a completely different place,
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# because it will most likely be longer than 16 bits.
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# (use 1e0 because that's what Larry Augustine uses in his
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# alternative new memory detection scheme, and it's sensible
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# to write everything into the same place.)
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meme801:
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stc # fix to work around buggy
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xorw %cx,%cx # BIOSes which dont clear/set
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xorw %dx,%dx # carry on pass/error of
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# e801h memory size call
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# or merely pass cx,dx though
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# without changing them.
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movw $0xe801, %ax
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int $0x15
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jc mem88
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cmpw $0x0, %cx # Kludge to handle BIOSes
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jne e801usecxdx # which report their extended
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cmpw $0x0, %dx # memory in AX/BX rather than
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jne e801usecxdx # CX/DX. The spec I have read
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movw %ax, %cx # seems to indicate AX/BX
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movw %bx, %dx # are more reasonable anyway...
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e801usecxdx:
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andl $0xffff, %edx # clear sign extend
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shll $6, %edx # and go from 64k to 1k chunks
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movl %edx, (0x1e0) # store extended memory size
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andl $0xffff, %ecx # clear sign extend
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addl %ecx, (0x1e0) # and add lower memory into
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# total size.
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# Ye Olde Traditional Methode. Returns the memory size (up to 16mb or
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# 64mb, depending on the bios) in ax.
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mem88:
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#endif
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movb $0x88, %ah
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int $0x15
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movw %ax, (2)
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# Set the keyboard repeat rate to the max
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movw $0x0305, %ax
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xorw %bx, %bx
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int $0x16
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|
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# Check for video adapter and its parameters and allow the
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# user to browse video modes.
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call video # NOTE: we need %ds pointing
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# to bootsector
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# Get hd0 data...
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xorw %ax, %ax
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movw %ax, %ds
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ldsw (4 * 0x41), %si
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movw %cs, %ax # aka SETUPSEG
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subw $DELTA_INITSEG, %ax # aka INITSEG
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pushw %ax
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movw %ax, %es
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movw $0x0080, %di
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movw $0x10, %cx
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pushw %cx
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cld
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rep
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movsb
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# Get hd1 data...
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xorw %ax, %ax
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movw %ax, %ds
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ldsw (4 * 0x46), %si
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popw %cx
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popw %es
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movw $0x0090, %di
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rep
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|
movsb
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# Check that there IS a hd1 :-)
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movw $0x01500, %ax
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movb $0x81, %dl
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int $0x13
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jc no_disk1
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|
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cmpb $3, %ah
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je is_disk1
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|
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|
no_disk1:
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movw %cs, %ax # aka SETUPSEG
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subw $DELTA_INITSEG, %ax # aka INITSEG
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movw %ax, %es
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movw $0x0090, %di
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movw $0x10, %cx
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xorw %ax, %ax
|
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cld
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rep
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stosb
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is_disk1:
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# check for Micro Channel (MCA) bus
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movw %cs, %ax # aka SETUPSEG
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subw $DELTA_INITSEG, %ax # aka INITSEG
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movw %ax, %ds
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|
xorw %ax, %ax
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movw %ax, (0xa0) # set table length to 0
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movb $0xc0, %ah
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stc
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int $0x15 # moves feature table to es:bx
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jc no_mca
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|
|
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pushw %ds
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movw %es, %ax
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movw %ax, %ds
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movw %cs, %ax # aka SETUPSEG
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subw $DELTA_INITSEG, %ax # aka INITSEG
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|
movw %ax, %es
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|
movw %bx, %si
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|
movw $0xa0, %di
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|
movw (%si), %cx
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|
addw $2, %cx # table length is a short
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|
cmpw $0x10, %cx
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jc sysdesc_ok
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|
|
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movw $0x10, %cx # we keep only first 16 bytes
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|
sysdesc_ok:
|
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rep
|
|
movsb
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|
popw %ds
|
|
no_mca:
|
|
#ifdef CONFIG_X86_VOYAGER
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|
movb $0xff, 0x40 # flag on config found
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|
movb $0xc0, %al
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|
mov $0xff, %ah
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|
int $0x15 # put voyager config info at es:di
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|
jc no_voyager
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movw $0x40, %si # place voyager info in apm table
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|
cld
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movw $7, %cx
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|
voyager_rep:
|
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movb %es:(%di), %al
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|
movb %al,(%si)
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|
incw %di
|
|
incw %si
|
|
decw %cx
|
|
jnz voyager_rep
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|
no_voyager:
|
|
#endif
|
|
# Check for PS/2 pointing device
|
|
movw %cs, %ax # aka SETUPSEG
|
|
subw $DELTA_INITSEG, %ax # aka INITSEG
|
|
movw %ax, %ds
|
|
movw $0, (0x1ff) # default is no pointing device
|
|
int $0x11 # int 0x11: equipment list
|
|
testb $0x04, %al # check if mouse installed
|
|
jz no_psmouse
|
|
|
|
movw $0xAA, (0x1ff) # device present
|
|
no_psmouse:
|
|
|
|
#if defined(CONFIG_X86_SPEEDSTEP_SMI) || defined(CONFIG_X86_SPEEDSTEP_SMI_MODULE)
|
|
movl $0x0000E980, %eax # IST Support
|
|
movl $0x47534943, %edx # Request value
|
|
int $0x15
|
|
|
|
movl %eax, (96)
|
|
movl %ebx, (100)
|
|
movl %ecx, (104)
|
|
movl %edx, (108)
|
|
#endif
|
|
|
|
#if defined(CONFIG_APM) || defined(CONFIG_APM_MODULE)
|
|
# Then check for an APM BIOS...
|
|
# %ds points to the bootsector
|
|
movw $0, 0x40 # version = 0 means no APM BIOS
|
|
movw $0x05300, %ax # APM BIOS installation check
|
|
xorw %bx, %bx
|
|
int $0x15
|
|
jc done_apm_bios # Nope, no APM BIOS
|
|
|
|
cmpw $0x0504d, %bx # Check for "PM" signature
|
|
jne done_apm_bios # No signature, no APM BIOS
|
|
|
|
andw $0x02, %cx # Is 32 bit supported?
|
|
je done_apm_bios # No 32-bit, no (good) APM BIOS
|
|
|
|
movw $0x05304, %ax # Disconnect first just in case
|
|
xorw %bx, %bx
|
|
int $0x15 # ignore return code
|
|
movw $0x05303, %ax # 32 bit connect
|
|
xorl %ebx, %ebx
|
|
xorw %cx, %cx # paranoia :-)
|
|
xorw %dx, %dx # ...
|
|
xorl %esi, %esi # ...
|
|
xorw %di, %di # ...
|
|
int $0x15
|
|
jc no_32_apm_bios # Ack, error.
|
|
|
|
movw %ax, (66) # BIOS code segment
|
|
movl %ebx, (68) # BIOS entry point offset
|
|
movw %cx, (72) # BIOS 16 bit code segment
|
|
movw %dx, (74) # BIOS data segment
|
|
movl %esi, (78) # BIOS code segment lengths
|
|
movw %di, (82) # BIOS data segment length
|
|
# Redo the installation check as the 32 bit connect
|
|
# modifies the flags returned on some BIOSs
|
|
movw $0x05300, %ax # APM BIOS installation check
|
|
xorw %bx, %bx
|
|
xorw %cx, %cx # paranoia
|
|
int $0x15
|
|
jc apm_disconnect # error -> shouldn't happen
|
|
|
|
cmpw $0x0504d, %bx # check for "PM" signature
|
|
jne apm_disconnect # no sig -> shouldn't happen
|
|
|
|
movw %ax, (64) # record the APM BIOS version
|
|
movw %cx, (76) # and flags
|
|
jmp done_apm_bios
|
|
|
|
apm_disconnect: # Tidy up
|
|
movw $0x05304, %ax # Disconnect
|
|
xorw %bx, %bx
|
|
int $0x15 # ignore return code
|
|
|
|
jmp done_apm_bios
|
|
|
|
no_32_apm_bios:
|
|
andw $0xfffd, (76) # remove 32 bit support bit
|
|
done_apm_bios:
|
|
#endif
|
|
|
|
#include "edd.S"
|
|
|
|
# Now we want to move to protected mode ...
|
|
cmpw $0, %cs:realmode_swtch
|
|
jz rmodeswtch_normal
|
|
|
|
lcall *%cs:realmode_swtch
|
|
|
|
jmp rmodeswtch_end
|
|
|
|
rmodeswtch_normal:
|
|
pushw %cs
|
|
call default_switch
|
|
|
|
rmodeswtch_end:
|
|
# we get the code32 start address and modify the below 'jmpi'
|
|
# (loader may have changed it)
|
|
movl %cs:code32_start, %eax
|
|
movl %eax, %cs:code32
|
|
|
|
# Now we move the system to its rightful place ... but we check if we have a
|
|
# big-kernel. In that case we *must* not move it ...
|
|
testb $LOADED_HIGH, %cs:loadflags
|
|
jz do_move0 # .. then we have a normal low
|
|
# loaded zImage
|
|
# .. or else we have a high
|
|
# loaded bzImage
|
|
jmp end_move # ... and we skip moving
|
|
|
|
do_move0:
|
|
movw $0x100, %ax # start of destination segment
|
|
movw %cs, %bp # aka SETUPSEG
|
|
subw $DELTA_INITSEG, %bp # aka INITSEG
|
|
movw %cs:start_sys_seg, %bx # start of source segment
|
|
cld
|
|
do_move:
|
|
movw %ax, %es # destination segment
|
|
incb %ah # instead of add ax,#0x100
|
|
movw %bx, %ds # source segment
|
|
addw $0x100, %bx
|
|
subw %di, %di
|
|
subw %si, %si
|
|
movw $0x800, %cx
|
|
rep
|
|
movsw
|
|
cmpw %bp, %bx # assume start_sys_seg > 0x200,
|
|
# so we will perhaps read one
|
|
# page more than needed, but
|
|
# never overwrite INITSEG
|
|
# because destination is a
|
|
# minimum one page below source
|
|
jb do_move
|
|
|
|
end_move:
|
|
# then we load the segment descriptors
|
|
movw %cs, %ax # aka SETUPSEG
|
|
movw %ax, %ds
|
|
|
|
# Check whether we need to be downward compatible with version <=201
|
|
cmpl $0, cmd_line_ptr
|
|
jne end_move_self # loader uses version >=202 features
|
|
cmpb $0x20, type_of_loader
|
|
je end_move_self # bootsect loader, we know of it
|
|
|
|
# Boot loader doesnt support boot protocol version 2.02.
|
|
# If we have our code not at 0x90000, we need to move it there now.
|
|
# We also then need to move the params behind it (commandline)
|
|
# Because we would overwrite the code on the current IP, we move
|
|
# it in two steps, jumping high after the first one.
|
|
movw %cs, %ax
|
|
cmpw $SETUPSEG, %ax
|
|
je end_move_self
|
|
|
|
cli # make sure we really have
|
|
# interrupts disabled !
|
|
# because after this the stack
|
|
# should not be used
|
|
subw $DELTA_INITSEG, %ax # aka INITSEG
|
|
movw %ss, %dx
|
|
cmpw %ax, %dx
|
|
jb move_self_1
|
|
|
|
addw $INITSEG, %dx
|
|
subw %ax, %dx # this will go into %ss after
|
|
# the move
|
|
move_self_1:
|
|
movw %ax, %ds
|
|
movw $INITSEG, %ax # real INITSEG
|
|
movw %ax, %es
|
|
movw %cs:setup_move_size, %cx
|
|
std # we have to move up, so we use
|
|
# direction down because the
|
|
# areas may overlap
|
|
movw %cx, %di
|
|
decw %di
|
|
movw %di, %si
|
|
subw $move_self_here+0x200, %cx
|
|
rep
|
|
movsb
|
|
ljmp $SETUPSEG, $move_self_here
|
|
|
|
move_self_here:
|
|
movw $move_self_here+0x200, %cx
|
|
rep
|
|
movsb
|
|
movw $SETUPSEG, %ax
|
|
movw %ax, %ds
|
|
movw %dx, %ss
|
|
end_move_self: # now we are at the right place
|
|
|
|
#
|
|
# Enable A20. This is at the very best an annoying procedure.
|
|
# A20 code ported from SYSLINUX 1.52-1.63 by H. Peter Anvin.
|
|
# AMD Elan bug fix by Robert Schwebel.
|
|
#
|
|
|
|
#if defined(CONFIG_X86_ELAN)
|
|
movb $0x02, %al # alternate A20 gate
|
|
outb %al, $0x92 # this works on SC410/SC520
|
|
a20_elan_wait:
|
|
call a20_test
|
|
jz a20_elan_wait
|
|
jmp a20_done
|
|
#endif
|
|
|
|
|
|
A20_TEST_LOOPS = 32 # Iterations per wait
|
|
A20_ENABLE_LOOPS = 255 # Total loops to try
|
|
|
|
|
|
#ifndef CONFIG_X86_VOYAGER
|
|
a20_try_loop:
|
|
|
|
# First, see if we are on a system with no A20 gate.
|
|
a20_none:
|
|
call a20_test
|
|
jnz a20_done
|
|
|
|
# Next, try the BIOS (INT 0x15, AX=0x2401)
|
|
a20_bios:
|
|
movw $0x2401, %ax
|
|
pushfl # Be paranoid about flags
|
|
int $0x15
|
|
popfl
|
|
|
|
call a20_test
|
|
jnz a20_done
|
|
|
|
# Try enabling A20 through the keyboard controller
|
|
#endif /* CONFIG_X86_VOYAGER */
|
|
a20_kbc:
|
|
call empty_8042
|
|
|
|
#ifndef CONFIG_X86_VOYAGER
|
|
call a20_test # Just in case the BIOS worked
|
|
jnz a20_done # but had a delayed reaction.
|
|
#endif
|
|
|
|
movb $0xD1, %al # command write
|
|
outb %al, $0x64
|
|
call empty_8042
|
|
|
|
movb $0xDF, %al # A20 on
|
|
outb %al, $0x60
|
|
call empty_8042
|
|
|
|
#ifndef CONFIG_X86_VOYAGER
|
|
# Wait until a20 really *is* enabled; it can take a fair amount of
|
|
# time on certain systems; Toshiba Tecras are known to have this
|
|
# problem.
|
|
a20_kbc_wait:
|
|
xorw %cx, %cx
|
|
a20_kbc_wait_loop:
|
|
call a20_test
|
|
jnz a20_done
|
|
loop a20_kbc_wait_loop
|
|
|
|
# Final attempt: use "configuration port A"
|
|
a20_fast:
|
|
inb $0x92, %al # Configuration Port A
|
|
orb $0x02, %al # "fast A20" version
|
|
andb $0xFE, %al # don't accidentally reset
|
|
outb %al, $0x92
|
|
|
|
# Wait for configuration port A to take effect
|
|
a20_fast_wait:
|
|
xorw %cx, %cx
|
|
a20_fast_wait_loop:
|
|
call a20_test
|
|
jnz a20_done
|
|
loop a20_fast_wait_loop
|
|
|
|
# A20 is still not responding. Try frobbing it again.
|
|
#
|
|
decb (a20_tries)
|
|
jnz a20_try_loop
|
|
|
|
movw $a20_err_msg, %si
|
|
call prtstr
|
|
|
|
a20_die:
|
|
hlt
|
|
jmp a20_die
|
|
|
|
a20_tries:
|
|
.byte A20_ENABLE_LOOPS
|
|
|
|
a20_err_msg:
|
|
.ascii "linux: fatal error: A20 gate not responding!"
|
|
.byte 13, 10, 0
|
|
|
|
# If we get here, all is good
|
|
a20_done:
|
|
|
|
#endif /* CONFIG_X86_VOYAGER */
|
|
# set up gdt and idt
|
|
lidt idt_48 # load idt with 0,0
|
|
xorl %eax, %eax # Compute gdt_base
|
|
movw %ds, %ax # (Convert %ds:gdt to a linear ptr)
|
|
shll $4, %eax
|
|
addl $gdt, %eax
|
|
movl %eax, (gdt_48+2)
|
|
lgdt gdt_48 # load gdt with whatever is
|
|
# appropriate
|
|
|
|
# make sure any possible coprocessor is properly reset..
|
|
xorw %ax, %ax
|
|
outb %al, $0xf0
|
|
call delay
|
|
|
|
outb %al, $0xf1
|
|
call delay
|
|
|
|
# well, that went ok, I hope. Now we mask all interrupts - the rest
|
|
# is done in init_IRQ().
|
|
movb $0xFF, %al # mask all interrupts for now
|
|
outb %al, $0xA1
|
|
call delay
|
|
|
|
movb $0xFB, %al # mask all irq's but irq2 which
|
|
outb %al, $0x21 # is cascaded
|
|
|
|
# Well, that certainly wasn't fun :-(. Hopefully it works, and we don't
|
|
# need no steenking BIOS anyway (except for the initial loading :-).
|
|
# The BIOS-routine wants lots of unnecessary data, and it's less
|
|
# "interesting" anyway. This is how REAL programmers do it.
|
|
#
|
|
# Well, now's the time to actually move into protected mode. To make
|
|
# things as simple as possible, we do no register set-up or anything,
|
|
# we let the gnu-compiled 32-bit programs do that. We just jump to
|
|
# absolute address 0x1000 (or the loader supplied one),
|
|
# in 32-bit protected mode.
|
|
#
|
|
# Note that the short jump isn't strictly needed, although there are
|
|
# reasons why it might be a good idea. It won't hurt in any case.
|
|
movw $1, %ax # protected mode (PE) bit
|
|
lmsw %ax # This is it!
|
|
jmp flush_instr
|
|
|
|
flush_instr:
|
|
xorw %bx, %bx # Flag to indicate a boot
|
|
xorl %esi, %esi # Pointer to real-mode code
|
|
movw %cs, %si
|
|
subw $DELTA_INITSEG, %si
|
|
shll $4, %esi # Convert to 32-bit pointer
|
|
|
|
# jump to startup_32 in arch/i386/boot/compressed/head.S
|
|
#
|
|
# NOTE: For high loaded big kernels we need a
|
|
# jmpi 0x100000,__BOOT_CS
|
|
#
|
|
# but we yet haven't reloaded the CS register, so the default size
|
|
# of the target offset still is 16 bit.
|
|
# However, using an operand prefix (0x66), the CPU will properly
|
|
# take our 48 bit far pointer. (INTeL 80386 Programmer's Reference
|
|
# Manual, Mixing 16-bit and 32-bit code, page 16-6)
|
|
|
|
.byte 0x66, 0xea # prefix + jmpi-opcode
|
|
code32: .long 0x1000 # will be set to 0x100000
|
|
# for big kernels
|
|
.word __BOOT_CS
|
|
|
|
# Here's a bunch of information about your current kernel..
|
|
kernel_version: .ascii UTS_RELEASE
|
|
.ascii " ("
|
|
.ascii LINUX_COMPILE_BY
|
|
.ascii "@"
|
|
.ascii LINUX_COMPILE_HOST
|
|
.ascii ") "
|
|
.ascii UTS_VERSION
|
|
.byte 0
|
|
|
|
# This is the default real mode switch routine.
|
|
# to be called just before protected mode transition
|
|
default_switch:
|
|
cli # no interrupts allowed !
|
|
movb $0x80, %al # disable NMI for bootup
|
|
# sequence
|
|
outb %al, $0x70
|
|
lret
|
|
|
|
|
|
#ifndef CONFIG_X86_VOYAGER
|
|
# This routine tests whether or not A20 is enabled. If so, it
|
|
# exits with zf = 0.
|
|
#
|
|
# The memory address used, 0x200, is the int $0x80 vector, which
|
|
# should be safe.
|
|
|
|
A20_TEST_ADDR = 4*0x80
|
|
|
|
a20_test:
|
|
pushw %cx
|
|
pushw %ax
|
|
xorw %cx, %cx
|
|
movw %cx, %fs # Low memory
|
|
decw %cx
|
|
movw %cx, %gs # High memory area
|
|
movw $A20_TEST_LOOPS, %cx
|
|
movw %fs:(A20_TEST_ADDR), %ax
|
|
pushw %ax
|
|
a20_test_wait:
|
|
incw %ax
|
|
movw %ax, %fs:(A20_TEST_ADDR)
|
|
call delay # Serialize and make delay constant
|
|
cmpw %gs:(A20_TEST_ADDR+0x10), %ax
|
|
loope a20_test_wait
|
|
|
|
popw %fs:(A20_TEST_ADDR)
|
|
popw %ax
|
|
popw %cx
|
|
ret
|
|
|
|
#endif /* CONFIG_X86_VOYAGER */
|
|
|
|
# This routine checks that the keyboard command queue is empty
|
|
# (after emptying the output buffers)
|
|
#
|
|
# Some machines have delusions that the keyboard buffer is always full
|
|
# with no keyboard attached...
|
|
#
|
|
# If there is no keyboard controller, we will usually get 0xff
|
|
# to all the reads. With each IO taking a microsecond and
|
|
# a timeout of 100,000 iterations, this can take about half a
|
|
# second ("delay" == outb to port 0x80). That should be ok,
|
|
# and should also be plenty of time for a real keyboard controller
|
|
# to empty.
|
|
#
|
|
|
|
empty_8042:
|
|
pushl %ecx
|
|
movl $100000, %ecx
|
|
|
|
empty_8042_loop:
|
|
decl %ecx
|
|
jz empty_8042_end_loop
|
|
|
|
call delay
|
|
|
|
inb $0x64, %al # 8042 status port
|
|
testb $1, %al # output buffer?
|
|
jz no_output
|
|
|
|
call delay
|
|
inb $0x60, %al # read it
|
|
jmp empty_8042_loop
|
|
|
|
no_output:
|
|
testb $2, %al # is input buffer full?
|
|
jnz empty_8042_loop # yes - loop
|
|
empty_8042_end_loop:
|
|
popl %ecx
|
|
ret
|
|
|
|
# Read the cmos clock. Return the seconds in al
|
|
gettime:
|
|
pushw %cx
|
|
movb $0x02, %ah
|
|
int $0x1a
|
|
movb %dh, %al # %dh contains the seconds
|
|
andb $0x0f, %al
|
|
movb %dh, %ah
|
|
movb $0x04, %cl
|
|
shrb %cl, %ah
|
|
aad
|
|
popw %cx
|
|
ret
|
|
|
|
# Delay is needed after doing I/O
|
|
delay:
|
|
outb %al,$0x80
|
|
ret
|
|
|
|
# Descriptor tables
|
|
#
|
|
# NOTE: The intel manual says gdt should be sixteen bytes aligned for
|
|
# efficiency reasons. However, there are machines which are known not
|
|
# to boot with misaligned GDTs, so alter this at your peril! If you alter
|
|
# GDT_ENTRY_BOOT_CS (in asm/segment.h) remember to leave at least two
|
|
# empty GDT entries (one for NULL and one reserved).
|
|
#
|
|
# NOTE: On some CPUs, the GDT must be 8 byte aligned. This is
|
|
# true for the Voyager Quad CPU card which will not boot without
|
|
# This directive. 16 byte aligment is recommended by intel.
|
|
#
|
|
.align 16
|
|
gdt:
|
|
.fill GDT_ENTRY_BOOT_CS,8,0
|
|
|
|
.word 0xFFFF # 4Gb - (0x100000*0x1000 = 4Gb)
|
|
.word 0 # base address = 0
|
|
.word 0x9A00 # code read/exec
|
|
.word 0x00CF # granularity = 4096, 386
|
|
# (+5th nibble of limit)
|
|
|
|
.word 0xFFFF # 4Gb - (0x100000*0x1000 = 4Gb)
|
|
.word 0 # base address = 0
|
|
.word 0x9200 # data read/write
|
|
.word 0x00CF # granularity = 4096, 386
|
|
# (+5th nibble of limit)
|
|
gdt_end:
|
|
.align 4
|
|
|
|
.word 0 # alignment byte
|
|
idt_48:
|
|
.word 0 # idt limit = 0
|
|
.word 0, 0 # idt base = 0L
|
|
|
|
.word 0 # alignment byte
|
|
gdt_48:
|
|
.word gdt_end - gdt - 1 # gdt limit
|
|
.word 0, 0 # gdt base (filled in later)
|
|
|
|
# Include video setup & detection code
|
|
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#include "video.S"
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# Setup signature -- must be last
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setup_sig1: .word SIG1
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setup_sig2: .word SIG2
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# After this point, there is some free space which is used by the video mode
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# handling code to store the temporary mode table (not used by the kernel).
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modelist:
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.text
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endtext:
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.data
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enddata:
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.bss
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endbss:
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