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|
; -*- fundamental -*- (asm-mode sucks)
; $Id$
; ****************************************************************************
;
; isolinux.asm
;
; A program to boot Linux kernels off a CD-ROM using the El Torito
; boot standard in "no emulation" mode, making the entire filesystem
; available. It is based on the SYSLINUX boot loader for MS-DOS
; floppies.
;
; Copyright (C) 1994-2001 H. Peter Anvin
;
; This program is free software; you can redistribute it and/or modify
; it under the terms of the GNU General Public License as published by
; the Free Software Foundation, Inc., 675 Mass Ave, Cambridge MA 02139,
; USA; either version 2 of the License, or (at your option) any later
; version; incorporated herein by reference.
;
; ****************************************************************************
; Note: The Makefile builds one version with DEBUG_MESSAGES automatically.
; %define DEBUG_TRACERS ; Uncomment to get debugging tracers
; %define DEBUG_MESSAGES ; Uncomment to get debugging messages
%ifdef DEBUG_TRACERS
%macro TRACER 1
call debug_tracer
db %1
%endmacro
%else ; DEBUG_TRACERS
%macro TRACER 1
%endmacro
%endif ; DEBUG_TRACERS
;
; Some semi-configurable constants... change on your own risk. Most are imposed
; by the kernel.
;
max_cmd_len equ 255 ; Must be odd; 255 is the kernel limit
FILENAME_MAX_LG2 equ 8 ; log2(Max filename size Including final null)
FILENAME_MAX equ (1 << FILENAME_MAX_LG2)
HIGHMEM_MAX equ 037FFFFFFh ; DEFAULT highest address for an initrd
HIGHMEM_SLOP equ 128*1024 ; Avoid this much memory near the top
DEFAULT_BAUD equ 9600 ; Default baud rate for serial port
BAUD_DIVISOR equ 115200 ; Serial port parameter
MAX_OPEN_LG2 equ 6 ; log2(Max number of open files)
MAX_OPEN equ (1 << MAX_OPEN_LG2)
SECTORSIZE_LG2 equ 11 ; 2048 bytes/sector (El Torito requirement)
SECTORSIZE equ (1 << SECTORSIZE_LG2)
;
; Should be updated with every release to avoid bootsector/SYS file mismatch
;
%define version_str VERSION ; Must be 4 characters long!
%define date DATE_STR ; Defined from the Makefile
%define year '2001'
;
; Debgging stuff
;
; %define debug 1 ; Uncomment to enable debugging
;
; ID for SYSLINUX (reported to kernel)
;
syslinux_id equ 033h ; SYSLINUX (3) 3 = ISOLINUX
;
; Segments used by Linux
;
real_mode_seg equ 5000h
fake_setup_seg equ real_mode_seg+020h
struc real_mode_seg_t
resb 20h-($-$$) ; org 20h
kern_cmd_magic resw 1 ; 0020 Magic # for command line
kern_cmd_offset resw 1 ; 0022 Offset for kernel command line
resb 497-($-$$) ; org 497d
bs_setupsecs resb 1 ; 01F1 Sectors for setup code (0 -> 4)
bs_rootflags resw 1 ; 01F2 Root readonly flag
bs_syssize resw 1 ; 01F4
bs_swapdev resw 1 ; 01F6 Swap device (obsolete)
bs_ramsize resw 1 ; 01F8 Ramdisk flags, formerly ramdisk size
bs_vidmode resw 1 ; 01FA Video mode
bs_rootdev resw 1 ; 01FC Root device
bs_bootsign resw 1 ; 01FE Boot sector signature (0AA55h)
su_jump resb 1 ; 0200 0EBh
su_jump2 resb 1 ; 0201 Size of following header
su_header resd 1 ; 0202 New setup code: header
su_version resw 1 ; 0206 See linux/arch/i386/boot/setup.S
su_switch resw 1 ; 0208
su_setupseg resw 1 ; 020A
su_startsys resw 1 ; 020C
su_kver resw 1 ; 020E Kernel version pointer
su_loader resb 1 ; 0210 Loader ID
su_loadflags resb 1 ; 0211 Load high flag
su_movesize resw 1 ; 0212
su_code32start resd 1 ; 0214 Start of code loaded high
su_ramdiskat resd 1 ; 0218 Start of initial ramdisk
su_ramdisklen equ $ ; Length of initial ramdisk
su_ramdisklen1 resw 1 ; 021C
su_ramdisklen2 resw 1 ; 021E
su_bsklugeoffs resw 1 ; 0220
su_bsklugeseg resw 1 ; 0222
su_heapend resw 1 ; 0224
su_pad1 resw 1 ; 0226
su_cmd_line_ptr resd 1 ; 0228
su_ramdisk_max resd 1 ; 022C
resb (9000h-12)-($-$$) ; Were bootsect.S puts it...
linux_stack equ $ ; 8FF4
linux_fdctab equ $
resb 9000h-($-$$)
cmd_line_here equ $ ; 9000 Should be out of the way
endstruc
;
; Kernel command line signature
;
CMD_MAGIC equ 0A33Fh ; Command line magic
;
; Magic number of su_header field
;
HEADER_ID equ 'HdrS' ; HdrS (in littleendian hex)
;
; Flags for the su_loadflags field
;
LOAD_HIGH equ 01h ; Large kernel, load high
CAN_USE_HEAP equ 80h ; Boot loader reports heap size
;
; The following structure is used for "virtual kernels"; i.e. LILO-style
; option labels. The options we permit here are `kernel' and `append
; Since there is no room in the bottom 64K for all of these, we
; stick them at vk_seg:0000 and copy them down before we need them.
;
; Note: this structure can be added to, but it must
;
%define vk_power 6 ; log2(max number of vkernels)
%define max_vk (1 << vk_power) ; Maximum number of vkernels
%define vk_shift (16-vk_power) ; Number of bits to shift
%define vk_size (1 << vk_shift) ; Size of a vkernel buffer
struc vkernel
vk_vname: resb FILENAME_MAX ; Virtual name **MUST BE FIRST!**
vk_rname: resb FILENAME_MAX ; Real name
vk_appendlen: resw 1
alignb 4
vk_append: resb max_cmd_len+1 ; Command line
alignb 4
vk_end: equ $ ; Should be <= vk_size
endstruc
%if (vk_end > vk_size) || (vk_size*max_vk > 65536)
%error "Too many vkernels defined, reduce vk_power"
%endif
;
; Segment assignments in the bottom 640K
; 0000h - main code/data segment (and BIOS segment)
; 5000h - real_mode_seg
;
vk_seg equ 4000h ; Virtual kernels
xfer_buf_seg equ 3000h ; Bounce buffer for I/O to high mem
comboot_seg equ 2000h ; COMBOOT image loading zone
;
; File structure. This holds the information for each currently open file.
;
struc open_file_t
file_sector resd 1 ; Sector pointer (0 = structure free)
file_left resd 1 ; Number of sectors left
endstruc
%if (open_file_t_size & (open_file_t_size-1))
%error "open_file_t is not a power of 2"
%endif
;
; For our convenience: define macros for jump-over-unconditinal jumps
;
%macro jmpz 1
jnz %%skip
jmp %1
%%skip:
%endmacro
%macro jmpnz 1
jz %%skip
jmp %1
%%skip:
%endmacro
%macro jmpe 1
jne %%skip
jmp %1
%%skip:
%endmacro
%macro jmpne 1
je %%skip
jmp %1
%%skip:
%endmacro
%macro jmpc 1
jnc %%skip
jmp %1
%%skip:
%endmacro
%macro jmpnc 1
jc %%skip
jmp %1
%%skip:
%endmacro
%macro jmpb 1
jnb %%skip
jmp %1
%%skip:
%endmacro
%macro jmpnb 1
jb %%skip
jmp %1
%%skip:
%endmacro
;
; Macros similar to res[bwd], but which works in the code segment (after
; section .text)
;
%macro zb 1
times %1 db 0
%endmacro
%macro zw 1
times %1 dw 0
%endmacro
%macro zd 1
times %1 dd 0
%endmacro
; ---------------------------------------------------------------------------
; BEGIN THE BIOS/CODE/DATA SEGMENT
; ---------------------------------------------------------------------------
absolute 0400h
serial_base resw 4 ; Base addresses for 4 serial ports
absolute 0413h
BIOS_fbm resw 1 ; Free Base Memory (kilobytes)
absolute 046Ch
BIOS_timer resw 1 ; Timer ticks
absolute 0472h
BIOS_magic resw 1 ; BIOS reset magic
absolute 0484h
BIOS_vidrows resb 1 ; Number of screen rows
;
; Memory below this point is reserved for the BIOS and the MBR
;
absolute 1000h
trackbuf resb 8192 ; Track buffer goes here
trackbufsize equ $-trackbuf
; trackbuf ends at 3000h
;
; Constants for the xfer_buf_seg
;
; The xfer_buf_seg is also used to store message file buffers. We
; need two trackbuffers (text and graphics), plus a work buffer
; for the graphics decompressor.
;
xbs_textbuf equ 0 ; Also hard-coded, do not change
xbs_vgabuf equ trackbufsize
xbs_vgatmpbuf equ 2*trackbufsize
struc dir_t
dir_lba resd 1 ; Directory start (LBA)
dir_len resd 1 ; Length in bytes
dir_clust resd 1 ; Length in clusters
endstruc
absolute 5000h ; Here we keep our BSS stuff
VKernelBuf: resb vk_size ; "Current" vkernel
alignb 4
AppendBuf resb max_cmd_len+1 ; append=
KbdMap resb 256 ; Keyboard map
FKeyName resb 10*FILENAME_MAX ; File names for F-key help
NumBuf resb 15 ; Buffer to load number
NumBufEnd resb 1 ; Last byte in NumBuf
ISOFileName resb 64 ; ISO filename canonicalization buffer
ISOFileNameEnd equ $
alignb 32
KernelName resb FILENAME_MAX ; Mangled name for kernel
KernelCName resb FILENAME_MAX ; Unmangled kernel name
InitRDCName resb FILENAME_MAX ; Unmangled initrd name
MNameBuf resb FILENAME_MAX
InitRD resb FILENAME_MAX
PartInfo resb 16 ; Partition table entry
E820Buf resd 5 ; INT 15:E820 data buffer
InitRDat resd 1 ; Load address (linear) for initrd
HiLoadAddr resd 1 ; Address pointer for high load loop
HighMemSize resd 1 ; End of memory pointer (bytes)
RamdiskMax resd 1 ; Highest address for a ramdisk
KernelSize resd 1 ; Size of kernel (bytes)
RootDir resb dir_t_size ; Root directory
CurDir resb dir_t_size ; Current directory
SavedSSSP resd 1 ; Our SS:SP while running a COMBOOT image
KernelClust resd 1 ; Kernel size in clusters
InitRDClust resd 1 ; Ramdisk size in clusters
InitStack resd 1 ; Initial stack pointer (SS:SP)
FirstSecSum resd 1 ; Checksum of bytes 64-2048
ImageDwords resd 1 ; isolinux.bin size, dwords
FBytes equ $ ; Used by open/getc
FBytes1 resw 1
FBytes2 resw 1
FClust resw 1 ; Number of clusters in open/getc file
FNextClust resw 1 ; Pointer to next cluster in d:o
FPtr resw 1 ; Pointer to next char in buffer
CmdOptPtr resw 1 ; Pointer to first option on cmd line
KernelCNameLen resw 1 ; Length of unmangled kernel name
InitRDCNameLen resw 1 ; Length of unmangled initrd name
NextCharJump resw 1 ; Routine to interpret next print char
SetupSecs resw 1 ; Number of setup sectors
A20Test resw 1 ; Counter for testing status of A20
CmdLineLen resw 1 ; Length of command line including null
GraphXSize resw 1 ; Width of splash screen file
VGAPos resw 1 ; Pointer into VGA memory
VGACluster resw 1 ; Cluster pointer for VGA image file
VGAFilePtr resw 1 ; Pointer into VGAFileBuf
ConfigFile resw 1 ; Socket for config file
PktTimeout resw 1 ; Timeout for current packet
KernelExtPtr resw 1 ; During search, final null pointer
LocalBootType resw 1 ; Local boot return code
ImageSectors resw 1 ; isolinux.bin size, sectors
TextAttrBX equ $
TextAttribute resb 1 ; Text attribute for message file
TextPage resb 1 ; Active display page
CursorDX equ $
CursorCol resb 1 ; Cursor column for message file
CursorRow resb 1 ; Cursor row for message file
ScreenSize equ $
VidCols resb 1 ; Columns on screen-1
VidRows resb 1 ; Rows on screen-1
FlowControl equ $
FlowOutput resb 1 ; Outputs to assert for serial flow
FlowInput resb 1 ; Input bits for serial flow
FlowIgnore resb 1 ; Ignore input unless these bits set
RetryCount resb 1 ; Used for disk access retries
KbdFlags resb 1 ; Check for keyboard escapes
LoadFlags resb 1 ; Loadflags from kernel
A20Tries resb 1 ; Times until giving up on A20
FuncFlag resb 1 ; == 1 if <Ctrl-F> pressed
DisplayMask resb 1 ; Display modes mask
ISOFlags resb 1 ; Flags for ISO directory search
DiskError resb 1 ; Error code for disk I/O
DriveNo resb 1 ; CD-ROM BIOS drive number
TextColorReg resb 17 ; VGA color registers for text mode
VGAFileBuf resb FILENAME_MAX ; Unmangled VGA image name
VGAFileBufEnd equ $
VGAFileMBuf resb FILENAME_MAX ; Mangled VGA image name
alignb open_file_t_size
Files resb MAX_OPEN*open_file_t_size
section .text
org 7C00h
;;
;; Primary entry point. Because BIOSes are buggy, we only load the first
;; CD-ROM sector (2K) of the file, so the number one priority is actually
;; loading the rest.
;;
bootsec equ $
_start: ; Far jump makes sure we canonicalize the address
cli
jmp 0:_start1
times 8-($-$$) nop ; Pad to file offset 8
; This table gets filled in by mkisofs using the
; -boot-info-table option
bi_pvd: dd 0xdeadbeef ; LBA of primary volume descriptor
bi_file: dd 0xdeadbeef ; LBA of boot file
bi_length: dd 0xdeadbeef ; Length of boot file
bi_csum: dd 0xdeadbeef ; Checksum of boot file
bi_reserved: times 10 dd 0xdeadbeef ; Reserved
_start1: mov [cs:InitStack],sp ; Save initial stack pointer
mov ax,ss
mov [cs:InitStack+2],ax
xor ax,ax
mov ss,ax
mov sp,_start ; Set up stack
mov ds,ax
mov es,ax
mov fs,ax
mov gs,ax
sti
cld
; Show signs of life
mov si,isolinux_banner
call writestr
%ifdef DEBUG_MESSAGES
mov si,copyright_str
call writestr
%endif
;
; Before modifying any memory, get the checksum of bytes
; 64-2048
;
initial_csum: xor edi,edi
mov si,_start1
mov cx,(SECTORSIZE-64) >> 2
.loop: lodsd
add edi,eax
loop .loop
mov [FirstSecSum],edi
; Set up boot file sizes
mov eax,[bi_length]
sub eax,SECTORSIZE-3
shr eax,2 ; bytes->dwords
mov [ImageDwords],eax ; boot file dwords
add eax,(2047 >> 2)
shr eax,9 ; dwords->sectors
mov [ImageSectors],ax ; boot file sectors
mov [DriveNo],dl
%ifdef DEBUG_MESSAGES
mov si,startup_msg
call writemsg
mov al,dl
call writehex2
call crlf
%endif
; Now figure out what we're actually doing
; Note: use passed-in DL value rather than 7Fh because
; at least some BIOSes will get the wrong value otherwise
mov ax,4B01h ; Get disk emulation status
mov dl,[DriveNo]
mov si,spec_packet
int 13h
jc near spec_query_failed ; Shouldn't happen (BIOS bug)
mov dl,[DriveNo]
cmp [sp_drive],dl ; Should contain the drive number
jne near spec_query_failed
%ifdef DEBUG_MESSAGES
mov si,spec_ok_msg
call writemsg
mov al,byte [sp_drive]
call writehex2
call crlf
%endif
found_drive:
; Get drive information
mov ah,48h
mov dl,[DriveNo]
mov si,drive_params
int 13h
jnc params_ok
mov si,nosecsize_msg
call writemsg
params_ok:
; Check for the sector size (should be 2048, but
; some BIOSes apparently think we're 512-byte media)
;
; FIX: We need to check what the proper behaviour
; is for getlinsec when the BIOS thinks the sector
; size is 512!!! For that, we need such a BIOS, though...
%ifdef DEBUG_MESSAGES
mov si,secsize_msg
call writemsg
mov ax,[dp_secsize]
call writehex4
call crlf
%endif
load_image:
; Some BIOSes apparently have limitations on the size
; that may be loaded (despite the El Torito spec being very
; clear on the fact that it must all be loaded.) Therefore,
; we load it ourselves, and *bleep* the BIOS.
mov eax,[bi_file] ; Address of code to load
inc eax ; Don't reload bootstrap code
%ifdef DEBUG_MESSAGES
mov si,offset_msg
call writemsg
call writehex8
call crlf
%endif
; Just in case some BIOSes have problems with
; segment wraparound, use the normalized address
mov bx,((7C00h+2048) >> 4)
mov es,bx
xor bx,bx
mov bp,[ImageSectors]
%ifdef DEBUG_MESSAGES
push ax
mov si,size_msg
call writemsg
mov ax,bp
call writehex4
call crlf
pop ax
%endif
call getlinsec
push ds
pop es
%ifdef DEBUG_MESSAGES
mov si,loaded_msg
call writemsg
%endif
; Verify the checksum on the loaded image.
verify_image:
mov si,7C00h+2048
mov bx,es
mov ecx,[ImageDwords]
mov edi,[FirstSecSum] ; First sector checksum
.loop es lodsd
add edi,eax
dec ecx
jz .done
and si,si
jnz .loop
; SI wrapped around, advance ES
add bx,1000h
mov es,bx
jmp short .loop
.done: mov ax,ds
mov es,ax
cmp [bi_csum],edi
je integrity_ok
mov si,checkerr_msg
call writemsg
jmp kaboom
integrity_ok:
%ifdef DEBUG_MESSAGES
mov si,allread_msg
call writemsg
%endif
jmp all_read ; Jump to main code
; INT 13h, AX=4B01h, DL=<passed in value> failed.
; Try to scan the entire 80h-FFh from the end.
spec_query_failed:
mov si,spec_err_msg
call writemsg
mov dl,0FFh
.test_loop: pusha
mov ax,4B01h
mov si,spec_packet
mov byte [si],13 ; Size of buffer
int 13h
popa
jc .still_broken
mov si,maybe_msg
call writemsg
mov al,dl
call writehex2
call crlf
cmp byte [sp_drive],dl
jne .maybe_broken
; Okay, good enough...
mov si,alright_msg
call writemsg
mov [DriveNo],dl
.found_drive: jmp found_drive
; Award BIOS 4.51 apparently passes garbage in sp_drive,
; but if this was the drive number originally passed in
; DL then consider it "good enough"
.maybe_broken:
cmp byte [DriveNo],dl
je .found_drive
.still_broken: dec dx
cmp dl, 80h
jnb .test_loop
fatal_error:
mov si,nothing_msg
call writemsg
.norge: jmp short .norge
; Information message (DS:SI) output
; Prefix with "isolinux: "
;
writemsg: push ax
push si
mov si,isolinux_str
call writestr
pop si
call writestr
pop ax
ret
;
; crlf: Print a newline
;
crlf: mov si,crlf_msg
; Fall through
;
; cwritestr: write a null-terminated string to the console, saving
; registers on entry.
;
; Note: writestr and cwritestr are distinct in SYSLINUX, not in ISOLINUX
;
cwritestr:
pushfd
pushad
.top: lodsb
and al,al
jz .end
call writechr
jmp short .top
.end: popad
popfd
ret
writestr equ cwritestr
;
; writehex[248]: Write a hex number in (AL, AX, EAX) to the console
;
writehex2:
pushfd
pushad
shl eax,24
mov cx,2
jmp short writehex_common
writehex4:
pushfd
pushad
shl eax,16
mov cx,4
jmp short writehex_common
writehex8:
pushfd
pushad
mov cx,8
writehex_common:
.loop: rol eax,4
push eax
and al,0Fh
cmp al,10
jae .high
.low: add al,'0'
jmp short .ischar
.high: add al,'A'-10
.ischar: call writechr
pop eax
loop .loop
popad
popfd
ret
;
; Write a character to the screen. There is a more "sophisticated"
; version of this in the subsequent code, so we patch the pointer
; when appropriate.
;
writechr:
jmp near writechr_simple ; NOT "short"!!!!
writechr_simple:
pushfd
pushad
mov ah,0Eh
xor bx,bx
int 10h
popad
popfd
ret
;
; Get one sector. Convenience entry point.
;
getonesec:
mov bp,1
; Fall through to getlinsec
;
; Get linear sectors - EBIOS LBA addressing, 2048-byte sectors.
;
; Note that we can't always do this as a single request, because at least
; Phoenix BIOSes has a 127-sector limit. To be on the safe side, stick
; to 32 sectors (64K) per request.
;
; Input:
; EAX - Linear sector number
; ES:BX - Target buffer
; BP - Sector count
;
getlinsec:
mov si,dapa ; Load up the DAPA
mov [si+4],bx
mov bx,es
mov [si+6],bx
mov [si+8],eax
.loop:
push bp ; Sectors left
cmp bp,byte 32
jbe .bp_ok
mov bp,32
.bp_ok:
mov [si+2],bp
push si
mov dl,[DriveNo]
mov ah,42h ; Extended Read
call xint13
pop si
pop bp
movzx eax,word [si+2] ; Sectors we read
add [si+8],eax ; Advance sector pointer
sub bp,ax ; Sectors left
shl ax,SECTORSIZE_LG2-4 ; 2048-byte sectors -> segment
add [si+6],ax ; Advance buffer pointer
and bp,bp
jnz .loop
mov eax,[si+8] ; Next sector
ret
; INT 13h with retry
xint13: mov byte [RetryCount], 6
.try: pushad
int 13h
jc .error
add sp,byte 8*4 ; Clean up stack
ret
.error: mov [DiskError],ah ; Save error code
popad
dec byte [RetryCount]
jnz .try
.real_error: mov si,diskerr_msg
call writemsg
mov al,[DiskError]
call writehex2
mov si,ondrive_str
call writestr
mov al,dl
call writehex2
call crlf
; Fall through to kaboom
;
; kaboom: write a message and bail out. Wait for a user keypress,
; then do a hard reboot.
;
kaboom:
lss sp,[cs:Stack]
mov ax,cs
mov ds,ax
mov es,ax
mov fs,ax
mov gs,ax
sti
mov si,err_bootfailed
call cwritestr
call getchar
cli
mov word [BIOS_magic],0 ; Cold reboot
jmp 0F000h:0FFF0h ; Reset vector address
;
; Data that needs to be in the first sector
;
isolinux_banner db CR, LF, 'ISOLINUX ', version_str, ' ', date, ' ', 0
copyright_str db ' Copyright (C) 1994-', year, ' H. Peter Anvin'
db CR, LF, 0
isolinux_str db 'isolinux: ', 0
%ifdef DEBUG_MESSAGES
startup_msg: db 'Starting up, DL = ', 0
spec_ok_msg: db 'Loaded spec packet OK, drive = ', 0
secsize_msg: db 'Sector size appears to be ', 0
offset_msg: db 'Loading main image from LBA = ', 0
size_msg: db 'Sectors to load = ', 0
loaded_msg: db 'Loaded boot image, verifying...', CR, LF, 0
verify_msg: db 'Image checksum verified.', CR, LF, 0
allread_msg db 'Main image read, jumping to main code...', CR, LF, 0
%endif
spec_err_msg: db 'Loading spec packet failed, trying to wing it...', CR, LF, 0
maybe_msg: db 'Found something at drive = ', 0
alright_msg: db 'Looks like it might be right, continuing...', CR, LF, 0
nosecsize_msg: db 'Failed to get sector size, assuming 0800', CR, LF, 0
diskerr_msg: db 'Disk error ', 0
ondrive_str: db ', drive ', 0
nothing_msg: db 'Failed to locate CD-ROM device; boot failed.', CR, LF, 0
checkerr_msg: db 'Image checksum error, sorry...', CR, LF, 0
err_bootfailed db CR, LF, 'Boot failed: press a key to retry...'
bailmsg equ err_bootfailed
crlf_msg db CR, LF, 0
;
; El Torito spec packet
;
align 8, db 0
spec_packet: db 13h ; Size of packet
sp_media: db 0 ; Media type
sp_drive: db 0 ; Drive number
sp_controller: db 0 ; Controller index
sp_lba: dd 0 ; LBA for emulated disk image
sp_devspec: dw 0 ; IDE/SCSI information
sp_buffer: dw 0 ; User-provided buffer
sp_loadseg: dw 0 ; Load segment
sp_sectors: dw 0 ; Sector count
sp_chs: db 0,0,0 ; Simulated CHS geometry
sp_dummy: db 0 ; Scratch, safe to overwrite
;
; Spec packet for disk image emulation
;
align 8, db 0
dspec_packet: db 13h ; Size of packet
dsp_media: db 0 ; Media type
dsp_drive: db 0 ; Drive number
dsp_controller: db 0 ; Controller index
dsp_lba: dd 0 ; LBA for emulated disk image
dsp_devspec: dw 0 ; IDE/SCSI information
dsp_buffer: dw 0 ; User-provided buffer
dsp_loadseg: dw 0 ; Load segment
dsp_sectors: dw 1 ; Sector count
dsp_chs: db 0,0,0 ; Simulated CHS geometry
dsp_dummy: db 0 ; Scratch, safe to overwrite
;
; EBIOS drive parameter packet
;
align 8, db 0
drive_params: dw 30 ; Buffer size
dp_flags: dw 0 ; Information flags
dp_cyl: dd 0 ; Physical cylinders
dp_head: dd 0 ; Physical heads
dp_sec: dd 0 ; Physical sectors/track
dp_totalsec: dd 0,0 ; Total sectors
dp_secsize: dw 0 ; Bytes per sector
dp_dpte: dd 0 ; Device Parameter Table
dp_dpi_key: dw 0 ; 0BEDDh if rest valid
dp_dpi_len: db 0 ; DPI len
db 0
dw 0
dp_bus: times 4 db 0 ; Host bus type
dp_interface: times 8 db 0 ; Interface type
db_i_path: dd 0,0 ; Interface path
db_d_path: dd 0,0 ; Device path
db 0
db_dpi_csum: db 0 ; Checksum for DPI info
;
; EBIOS disk address packet
;
align 8, db 0
dapa: dw 16 ; Packet size
.count: dw 0 ; Block count
.off: dw 0 ; Offset of buffer
.seg: dw 0 ; Segment of buffer
.lba: dd 0 ; LBA (LSW)
dd 0 ; LBA (MSW)
alignb 4, db 0
Stack dw _start, 0 ; SS:SP for stack reset
rl_checkpt equ $ ; Must be <= 800h
rl_checkpt_off equ ($-$$)
%if rl_checkpt_off > 0x800
%error "Sector 0 overflow"
%endif
; ----------------------------------------------------------------------------
; End of code and data that have to be in the first sector
; ----------------------------------------------------------------------------
all_read:
;
; Initialize screen (if we're using one)
;
; Now set up screen parameters
call adjust_screen
; Patch the writechr routine to point to the full code
mov word [writechr+1], writechr_full-(writechr+3)
; Tell the user we got this far...
%ifndef DEBUG_MESSAGES ; Gets messy with debugging on
mov si,copyright_str
call writestr
%endif
; Test tracers
TRACER 'T'
TRACER '>'
;
; Clear Files structures
;
mov di,Files
mov cx,(MAX_OPEN*open_file_t_size)/4
xor eax,eax
rep stosd
;
; Check that no moron is trying to boot Linux on a 286 or so. According
; to Intel, the way to check is to see if the high 4 bits of the FLAGS
; register are either all stuck at 1 (8086/8088) or all stuck at 0
; (286 in real mode), if not it is a 386 or higher. They didn't
; say how to check for a 186/188, so I *hope* it falls out as a 8086
; or 286 in this test.
;
; Also, provide an escape route in case it doesn't work.
;
check_escapes:
mov ah,02h ; Check keyboard flags
int 16h
mov [KbdFlags],al ; Save for boot prompt check
test al,04h ; Ctrl->skip 386 check
jnz skip_checks
test_8086:
pushf ; Get flags
pop ax
and ax,0FFFh ; Clear top 4 bits
push ax ; Load into FLAGS
popf
pushf ; And load back
pop ax
and ax,0F000h ; Get top 4 bits
cmp ax,0F000h ; If set -> 8086/8088
je not_386
test_286:
pushf ; Get flags
pop ax
or ax,0F000h ; Set top 4 bits
push ax
popf
pushf
pop ax
and ax,0F000h ; Get top 4 bits
jnz is_386 ; If not clear -> 386
not_386:
mov si,err_not386
call writestr
jmp kaboom
is_386:
; Now we know it's a 386 or higher
;
; Now check that there is at least 384K of low (DOS) memory
;
int 12h
cmp ax,384
jae enough_ram
mov si,err_noram
call writestr
jmp kaboom
enough_ram:
skip_checks:
;
; Check if we're 386 (as opposed to 486+); if so we need to blank out
; the WBINVD instruction
;
; We check for 486 by setting EFLAGS.AC
;
pushfd ; Save the good flags
pushfd
pop eax
mov ebx,eax
xor eax,(1 << 18) ; AC bit
push eax
popfd
pushfd
pop eax
popfd ; Restore the original flags
xor eax,ebx
jnz is_486
;
; 386 - Looks like we better blot out the WBINVD instruction
;
mov byte [try_wbinvd],0c3h ; Near RET
is_486:
;
; Now we're all set to start with our *real* business. First load the
; configuration file (if any) and parse it.
;
; In previous versions I avoided using 32-bit registers because of a
; rumour some BIOSes clobbered the upper half of 32-bit registers at
; random. I figure, though, that if there are any of those still left
; they probably won't be trying to install Linux on them...
;
; The code is still ripe with 16-bitisms, though. Not worth the hassle
; to take'm out. In fact, we may want to put them back if we're going
; to boot ELKS at some point.
;
mov si,linuxauto_cmd ; Default command: "linux auto"
mov di,default_cmd
mov cx,linuxauto_len
rep movsb
mov di,KbdMap ; Default keymap 1:1
xor al,al
mov cx,256
mkkeymap: stosb
inc al
loop mkkeymap
;
; Now, we need to sniff out the actual filesystem data structures.
; mkisofs gave us a pointer to the primary volume descriptor
; (which will be at 16 only for a single-session disk!); from the PVD
; we should be able to find the rest of what we need to know.
;
get_fs_structures:
mov eax,[bi_pvd]
mov bx,trackbuf
call getonesec
mov eax,[trackbuf+156+2]
mov [RootDir+dir_lba],eax
mov [CurDir+dir_lba],eax
%ifdef DEBUG_MESSAGES
mov si,dbg_rootdir_msg
call writemsg
call writehex8
call crlf
%endif
mov eax,[trackbuf+156+10]
mov [RootDir+dir_len],eax
mov [CurDir+dir_len],eax
add eax,SECTORSIZE-1
shr eax,SECTORSIZE_LG2
mov [RootDir+dir_clust],eax
mov [CurDir+dir_clust],eax
; Look for an "isolinux" directory, and if found,
; make it the current directory instead of the root
; directory.
mov di,isolinux_dir
mov al,02h ; Search for a directory
call searchdir_iso
jz .no_isolinux_dir
mov [CurDir+dir_len],eax
mov eax,[si+file_left]
mov [CurDir+dir_clust],eax
xor eax,eax ; Free this file pointer entry
xchg eax,[si+file_sector]
mov [CurDir+dir_lba],eax
%ifdef DEBUG_MESSAGES
push si
mov si,dbg_isodir_msg
call writemsg
pop si
call writehex8
call crlf
%endif
.no_isolinux_dir:
;
; Locate the configuration file
;
load_config:
%ifdef DEBUG_MESSAGES
mov si,dbg_config_msg
call writemsg
%endif
mov di,isolinux_cfg
call open
jz near no_config_file ; Not found or empty
%ifdef DEBUG_MESSAGES
mov si,dbg_configok_msg
call writemsg
%endif
;
; Now we have the config file open
;
parse_config:
call getkeyword
jc near end_config_file ; Config file loaded
cmp ax,'de' ; DEfault
je pc_default
cmp ax,'ap' ; APpend
je pc_append
cmp ax,'ti' ; TImeout
je near pc_timeout
cmp ax,'pr' ; PRompt
je near pc_prompt
cmp ax,'fo' ; FOnt
je near pc_font
cmp ax,'kb' ; KBd
je near pc_kbd
cmp ax,'di' ; DIsplay
je near pc_display
cmp ax,'la' ; LAbel
je near pc_label
cmp ax,'ke' ; KErnel
je near pc_kernel
cmp ax,'im' ; IMplicit
je near pc_implicit
cmp ax,'se' ; SErial
je near pc_serial
cmp ax,'sa' ; SAy
je near pc_say
cmp ax,'lo' ; LOcalboot
je pc_localboot
cmp al,'f' ; F-key
jne parse_config
jmp pc_fkey
pc_default: mov di,default_cmd ; "default" command
call getline
xor al,al
stosb ; null-terminate
jmp short parse_config
pc_append: cmp word [VKernelCtr],byte 0 ; "append" command
ja pc_append_vk
mov di,AppendBuf
call getline
sub di,AppendBuf
pc_app1: mov [AppendLen],di
jmp short parse_config_2
pc_append_vk: mov di,VKernelBuf+vk_append ; "append" command (vkernel)
call getline
sub di,VKernelBuf+vk_append
cmp di,byte 2
jne pc_app2
cmp byte [VKernelBuf+vk_append],'-'
jne pc_app2
mov di,0 ; If "append -" -> null string
pc_app2: mov [VKernelBuf+vk_appendlen],di
jmp short parse_config_2
pc_localboot: call getint ; "localboot" command
cmp word [VKernelCtr],byte 0 ; ("label" section only)
je parse_config_2
mov [VKernelBuf+vk_rname], byte 0 ; Null kernel name
mov [VKernelBuf+vk_rname+1], bx ; Return type
jmp short parse_config_2
pc_kernel: cmp word [VKernelCtr],byte 0 ; "kernel" command
je parse_config_2 ; ("label" section only)
mov di,trackbuf
push di
call getline
pop si
mov di,VKernelBuf+vk_rname
call mangle_name
jmp short parse_config_2
pc_timeout: call getint ; "timeout" command
jc parse_config_2
mov ax,0D215h ; There are approx 1.D215h
mul bx ; clock ticks per 1/10 s
add bx,dx
mov [KbdTimeOut],bx
parse_config_2: jmp parse_config
pc_display: call pc_getfile ; "display" command
jz parse_config_2 ; File not found?
call get_msg_file ; Load and display file
jmp short parse_config_2
pc_prompt: call getint ; "prompt" command
jc parse_config_2
mov [ForcePrompt],bx
jmp short parse_config_2
pc_implicit: call getint ; "implicit" command
jc parse_config_2
mov [AllowImplicit],bx
jmp short parse_config_2
pc_serial: call getint ; "serial" command
jc parse_config_2
push bx ; Serial port #
call skipspace
jc parse_config_2
call ungetc
call getint
mov [FlowControl], word 0 ; Default to no flow control
jc .nobaud
.valid_baud:
push ebx
call skipspace
jc .no_flow
call ungetc
call getint ; Hardware flow control?
jnc .valid_flow
.no_flow:
xor bx,bx ; Default -> no flow control
.valid_flow:
and bh,0Fh ; FlowIgnore
shl bh,4
mov [FlowIgnore],bh
mov bh,bl
and bx,0F003h ; Valid bits
mov [FlowControl],bx
pop ebx ; Baud rate
jmp short .parse_baud
.nobaud:
mov ebx,DEFAULT_BAUD ; No baud rate given
.parse_baud:
pop di ; Serial port #
cmp ebx,byte 75
jb parse_config_2 ; < 75 baud == bogus
mov eax,BAUD_DIVISOR
cdq
div ebx
push ax ; Baud rate divisor
cmp di,3
ja .port_is_io ; If port > 3 then port is I/O addr
shl di,1
mov di,[di+serial_base] ; Get the I/O port from the BIOS
.port_is_io:
mov [SerialPort],di
lea dx,[di+3] ; DX -> LCR
mov al,83h ; Enable DLAB
call slow_out
pop ax ; Divisor
mov dx,di ; DX -> LS
call slow_out
inc dx ; DX -> MS
mov al,ah
call slow_out
mov al,03h ; Disable DLAB
add dx,byte 2 ; DX -> LCR
call slow_out
in al,dx ; Read back LCR (detect missing hw)
cmp al,03h ; If nothing here we'll read 00 or FF
jne .serial_port_bad ; Assume serial port busted
sub dx,byte 2 ; DX -> IER
xor al,al ; IRQ disable
call slow_out
add dx,byte 3 ; DX -> MCR
in al,dx
or al,[FlowOutput] ; Assert bits
call slow_out
; Show some life
mov si,isolinux_banner
call write_serial_str
mov si,copyright_str
call write_serial_str
jmp short parse_config_3
.serial_port_bad:
mov [SerialPort], word 0
jmp short parse_config_3
pc_fkey: sub ah,'1'
jnb pc_fkey1
mov ah,9 ; F10
pc_fkey1: xor cx,cx
mov cl,ah
push cx
mov ax,1
shl ax,cl
or [FKeyMap], ax ; Mark that we have this loaded
mov di,trackbuf
push di
call getline ; Get filename to display
pop si
pop di
shl di,FILENAME_MAX_LG2 ; Convert to offset
add di,FKeyName
call mangle_name ; Mangle file name
jmp short parse_config_3
pc_label: call commit_vk ; Commit any current vkernel
mov di,trackbuf ; Get virtual filename
push di
call getline
pop si
mov di,VKernelBuf+vk_vname
call mangle_name ; Mangle virtual name
inc word [VKernelCtr] ; One more vkernel
mov si,VKernelBuf+vk_vname ; By default, rname == vname
mov di,VKernelBuf+vk_rname
mov cx,FILENAME_MAX
rep movsb
mov si,AppendBuf ; Default append==global append
mov di,VKernelBuf+vk_append
mov cx,[AppendLen]
mov [VKernelBuf+vk_appendlen],cx
rep movsb
jmp near parse_config_3
pc_font: call pc_getfile ; "font" command
jz parse_config_3 ; File not found?
call loadfont ; Load and install font
jmp short parse_config_3
pc_kbd: call pc_getfile ; "kbd" command
jz parse_config_3
call loadkeys
parse_config_3: jmp parse_config
pc_say: mov di,trackbuf ; "say" command
push di
call getline
xor al,al
stosb ; Null-terminate
pop si
call writestr
call crlf
jmp short parse_config_3
;
; pc_getfile: For command line options that take file argument, this
; routine decodes the file argument and runs it through searchdir
;
pc_getfile: mov di,trackbuf
push di
call getline
pop si
mov di,MNameBuf
push di
call mangle_name
pop di
jmp searchdir ; Tailcall
;
; commit_vk: Store the current VKernelBuf into buffer segment
;
commit_vk:
cmp word [VKernelCtr],byte 0
je cvk_ret ; No VKernel = return
cmp word [VKernelCtr],max_vk ; Above limit?
ja cvk_overflow
mov di,[VKernelCtr]
dec di
shl di,vk_shift
mov si,VKernelBuf
mov cx,(vk_size >> 2)
push es
push word vk_seg
pop es
rep movsd ; Copy to buffer segment
pop es
cvk_ret: ret
cvk_overflow: mov word [VKernelCtr],max_vk ; No more than max_vk, please
ret
;
; End of configuration file
;
end_config_file:
call commit_vk ; Commit any current vkernel
no_config_file:
;
; Check whether or not we are supposed to display the boot prompt.
;
check_for_key:
cmp word [ForcePrompt],byte 0 ; Force prompt?
jnz enter_command
test byte [KbdFlags],5Bh ; Caps, Scroll, Shift, Alt
jz near auto_boot ; If neither, default boot
enter_command:
mov si,boot_prompt
call cwritestr
mov byte [FuncFlag],0 ; <Ctrl-F> not pressed
mov di,command_line
;
; get the very first character -- we can either time
; out, or receive a character press at this time. Some dorky BIOSes stuff
; a return in the buffer on bootup, so wipe the keyboard buffer first.
;
clear_buffer: mov ah,1 ; Check for pending char
int 16h
jz get_char_time
xor ax,ax ; Get char
int 16h
jmp short clear_buffer
get_char_time:
call vgashowcursor
mov cx,[KbdTimeOut]
and cx,cx
jz get_char ; Timeout == 0 -> no timeout
inc cx ; The first loop will happen
; immediately as we don't
; know the appropriate DX value
time_loop: push cx
tick_loop: push dx
call pollchar
jnz get_char_pop
mov dx,[BIOS_timer] ; Get time "of day"
pop ax
cmp dx,ax ; Has the timer advanced?
je tick_loop
pop cx
loop time_loop ; If so, decrement counter
call vgahidecursor
jmp command_done ; Timeout!
get_char_pop: pop eax ; Clear stack
get_char:
call vgashowcursor
call getchar
call vgahidecursor
and al,al
jz func_key
got_ascii: cmp al,7Fh ; <DEL> == <BS>
je backspace
cmp al,' ' ; ASCII?
jb not_ascii
ja enter_char
cmp di,command_line ; Space must not be first
je get_char
enter_char: test byte [FuncFlag],1
jz .not_ctrl_f
mov byte [FuncFlag],0
cmp al,'0'
jb .not_ctrl_f
je ctrl_f_0
cmp al,'9'
jbe ctrl_f
.not_ctrl_f: cmp di,max_cmd_len+command_line ; Check there's space
jnb get_char
stosb ; Save it
call writechr ; Echo to screen
get_char_2: jmp short get_char
not_ascii: mov byte [FuncFlag],0
cmp al,0Dh ; Enter
je near command_done
cmp al,06h ; <Ctrl-F>
je set_func_flag
cmp al,08h ; Backspace
jne get_char
backspace: cmp di,command_line ; Make sure there is anything
je get_char ; to erase
dec di ; Unstore one character
mov si,wipe_char ; and erase it from the screen
call cwritestr
jmp short get_char_2
set_func_flag:
mov byte [FuncFlag],1
jmp short get_char_2
ctrl_f_0: add al,10 ; <Ctrl-F>0 == F10
ctrl_f: push di
sub al,'1'
xor ah,ah
jmp short show_help
func_key:
push di
cmp ah,68 ; F10
ja get_char_2
sub ah,59 ; F1
jb get_char_2
shr ax,8
show_help: ; AX = func key # (0 = F1, 9 = F10)
mov cl,al
shl ax,FILENAME_MAX_LG2 ; Convert to offset
mov bx,1
shl bx,cl
and bx,[FKeyMap]
jz get_char_2 ; Undefined F-key
mov di,ax
add di,FKeyName
call searchdir
jz fk_nofile
push si
call crlf
pop si
call get_msg_file
jmp short fk_wrcmd
fk_nofile:
call crlf
fk_wrcmd:
mov si,boot_prompt
call cwritestr
pop di ; Command line write pointer
push di
mov byte [di],0 ; Null-terminate command line
mov si,command_line
call cwritestr ; Write command line so far
pop di
jmp short get_char_2
auto_boot:
mov si,default_cmd
mov di,command_line
mov cx,(max_cmd_len+4) >> 2
rep movsd
jmp short load_kernel
command_done:
call crlf
cmp di,command_line ; Did we just hit return?
je auto_boot
xor al,al ; Store a final null
stosb
load_kernel: ; Load the kernel now
;
; First we need to mangle the kernel name the way DOS would...
;
mov si,command_line
mov di,KernelName
push si
push di
call mangle_name
pop di
pop si
;
; Fast-forward to first option (we start over from the beginning, since
; mangle_name doesn't necessarily return a consistent ending state.)
;
clin_non_wsp: lodsb
cmp al,' '
ja clin_non_wsp
clin_is_wsp: and al,al
jz clin_opt_ptr
lodsb
cmp al,' '
jbe clin_is_wsp
clin_opt_ptr: dec si ; Point to first nonblank
mov [CmdOptPtr],si ; Save ptr to first option
;
; Now check if it is a "virtual kernel"
;
mov cx,[VKernelCtr]
push ds
push word vk_seg
pop ds
cmp cx,byte 0
je not_vk
xor si,si ; Point to first vkernel
vk_check: pusha
mov cx,FILENAME_MAX
repe cmpsb ; Is this it?
je near vk_found
popa
add si,vk_size
loop vk_check
not_vk: pop ds
;
; Not a "virtual kernel" - check that's OK and construct the command line
;
cmp word [AllowImplicit],byte 0
je bad_implicit
push es
push si
push di
mov di,real_mode_seg
mov es,di
mov si,AppendBuf
mov di,cmd_line_here
mov cx,[AppendLen]
rep movsb
mov [CmdLinePtr],di
pop di
pop si
pop es
;
; Find the kernel on disk
;
get_kernel: mov byte [KernelName+FILENAME_MAX],0 ; Zero-terminate filename/extension
mov di,KernelName
xor al,al
mov cx,FILENAME_MAX-5 ; Need 4 chars + null
repne scasb ; Scan for final null
jne .no_skip
dec di ; Point to final null
.no_skip: mov [KernelExtPtr],di
mov bx,exten_table
.search_loop: push bx
mov di,KernelName ; Search on disk
call searchdir
pop bx
jnz near kernel_good
mov eax,[bx] ; Try a different extension
mov si,[KernelExtPtr]
mov [si],eax
mov byte [si+4],0
add bx,byte 4
cmp bx,exten_table_end
jna .search_loop ; allow == case (final case)
bad_kernel:
mov si,KernelName
mov di,KernelCName
push di
call unmangle_name ; Get human form
mov si,err_notfound ; Complain about missing kernel
call cwritestr
pop si ; KernelCName
call cwritestr
mov si,crlf_msg
jmp abort_load ; Ask user for clue
;
; bad_implicit: The user entered a nonvirtual kernel name, with "implicit 0"
;
bad_implicit: mov si,KernelName ; For the error message
mov di,KernelCName
call unmangle_name
jmp short bad_kernel
;
; vk_found: We *are* using a "virtual kernel"
;
vk_found: popa
push di
mov di,VKernelBuf
mov cx,vk_size >> 2
rep movsd
push es ; Restore old DS
pop ds
push es
push word real_mode_seg
pop es
mov di,cmd_line_here
mov si,VKernelBuf+vk_append
mov cx,[VKernelBuf+vk_appendlen]
rep movsb
mov [CmdLinePtr],di ; Where to add rest of cmd
pop es
pop di ; DI -> KernelName
push di
mov si,VKernelBuf+vk_rname
mov cx,FILENAME_MAX ; We need ECX == CX later
rep movsb
pop di
xor bx,bx ; Try only one version
; Is this a "localboot" pseudo-kernel?
cmp byte [VKernelBuf+vk_rname], 0
jne near get_kernel ; No, it's real, go get it
mov ax, [VKernelBuf+vk_rname+1]
jmp local_boot
;
; kernel_corrupt: Called if the kernel file does not seem healthy
;
kernel_corrupt: mov si,err_notkernel
jmp abort_load
;
; This is it! We have a name (and location on the disk)... let's load
; that sucker!! First we have to decide what kind of file this is; base
; that decision on the file extension. The following extensions are
; recognized; case insensitive:
;
; .com - COMBOOT image
; .cbt - COMBOOT image
; .bs - Boot sector (SYSLINUX only)
; .bss - DOS boot sector (SYSLINUX only)
; .img - Disk image (ISOLINUX only)
;
; Anything else is assumed to be a Linux kernel.
;
kernel_good:
pusha
mov si,KernelName
mov di,KernelCName
call unmangle_name
sub di,KernelCName
mov [KernelCNameLen],di
popa
push di
push ax
mov di,KernelName
xor al,al
mov cx,FILENAME_MAX
repne scasb
jne .one_step
dec di
.one_step: mov ecx,[di-4] ; 4 bytes before end
pop ax
pop di
;
; At this point, DX:AX contains the size of the kernel, and SI contains
; the file handle/cluster pointer.
;
or ecx,20202000h ; Force lower case
cmp ecx,'.com'
je near is_comboot_image
cmp ecx,'.cbt'
je near is_comboot_image
cmp ecx,'.img'
je near is_disk_image
cmp ecx,'.bss'
je near is_bss_sector
and ecx, 00ffffffh
cmp ecx,'.bs'
je near is_bootsector
; Otherwise Linux kernel
;
; A Linux kernel consists of three parts: boot sector, setup code, and
; kernel code. The boot sector is never executed when using an external
; booting utility, but it contains some status bytes that are necessary.
;
; First check that our kernel is at least 1K and less than 8M (if it is
; more than 8M, we need to change the logic for loading it anyway...)
;
; We used to require the kernel to be 64K or larger, but it has gotten
; popular to use the Linux kernel format for other things, which may
; not be so large.
;
is_linux_kernel:
cmp dx,80h ; 8 megs
ja kernel_corrupt
and dx,dx
jnz kernel_sane
cmp ax,1024 ; Bootsect + 1 setup sect
jb near kernel_corrupt
kernel_sane: push ax
push dx
push si
mov si,loading_msg
call cwritestr
;
; Now start transferring the kernel
;
push word real_mode_seg
pop es
movzx eax,ax ; Fix this by using a 32-bit
shl edx,16 ; register for the kernel size
or eax,edx
mov [KernelSize],eax
xor edx,edx
div dword [ClustSize] ; # of clusters total
; Round up...
add edx,byte -1 ; Sets CF if EDX >= 1
adc eax,byte 0 ; Add 1 to EAX if CF set
mov [KernelClust],eax
;
; Now, if we transfer these straight, we'll hit 64K boundaries. Hence we
; have to see if we're loading more than 64K, and if so, load it step by
; step.
;
;
; Start by loading the bootsector/setup code, to see if we need to
; do something funky. It should fit in the first 32K (loading 64K won't
; work since we might have funny stuff up near the end of memory).
; If we have larger than 32K clusters, yes, we're hosed.
;
call abort_check ; Check for abort key
mov ecx,[ClustPerMoby]
shr ecx,1 ; Half a moby
cmp ecx,[KernelClust]
jna .normalkernel
mov ecx,[KernelClust]
.normalkernel:
sub [KernelClust],ecx
xor bx,bx
pop si ; Cluster pointer on stack
call getfssec
cmp word [es:bs_bootsign],0AA55h
jne near kernel_corrupt ; Boot sec signature missing
;
; Get the BIOS' idea of what the size of high memory is.
;
push si ; Save our cluster pointer!
;
; First, try INT 15:E820 (get BIOS memory map)
;
get_e820:
push es
xor ebx,ebx ; Start with first record
mov es,bx ; Need ES = DS = 0 for now
jmp short .do_e820 ; Skip "at end" check first time!
.int_loop: and ebx,ebx ; If we're back at beginning...
jz no_e820 ; ... bail; nothing found
.do_e820: mov eax,0000E820h
mov edx,534D4150h ; "SMAP" backwards
mov ecx,20
mov di,E820Buf
int 15h
jc no_e820
cmp eax,534D4150h
jne no_e820
;
; Look for a memory block starting at <= 1 MB and continuing upward
;
cmp dword [E820Buf+4], byte 0
ja .int_loop ; Start >= 4 GB?
mov edx, (1 << 20)
sub edx, [E820Buf]
jb .int_loop ; Start >= 1 MB?
mov eax, 0FFFFFFFFh
cmp dword [E820Buf+12], byte 0
ja .huge ; Size >= 4 GB
mov eax, [E820Buf+8]
.huge: sub eax, edx ; Adjust size to start at 1 MB
jbe .int_loop ; Completely below 1 MB?
; Now EAX contains the size of memory 1 MB...up
cmp dword [E820Buf+16], byte 1
jne near err_nohighmem ; High memory isn't usable memory!!!!
; We're good!
pop es
jmp short got_highmem_add1mb ; Still need to add low 1 MB
;
; INT 15:E820 failed. Try INT 15:E801.
;
no_e820: pop es
mov ax,0e801h ; Query high memory (semi-recent)
int 15h
jc no_e801
cmp ax,3c00h
ja no_e801 ; > 3C00h something's wrong with this call
jb e801_hole ; If memory hole we can only use low part
mov ax,bx
shl eax,16 ; 64K chunks
add eax,(16 << 20) ; Add first 16M
jmp short got_highmem
;
; INT 15:E801 failed. Try INT 15:88.
;
no_e801:
mov ah,88h ; Query high memory (oldest)
int 15h
cmp ax,14*1024 ; Don't trust memory >15M
jna e801_hole
mov ax,14*1024
e801_hole:
and eax,0ffffh
shl eax,10 ; Convert from kilobytes
got_highmem_add1mb:
add eax,(1 << 20) ; First megabyte
got_highmem:
sub eax,HIGHMEM_SLOP
mov [HighMemSize],eax
;
; Construct the command line (append options have already been copied)
;
construct_cmdline:
mov di,[CmdLinePtr]
mov si,boot_image ; BOOT_IMAGE=
mov cx,boot_image_len
rep movsb
mov si,KernelCName ; Unmangled kernel name
mov cx,[KernelCNameLen]
rep movsb
mov al,' ' ; Space
stosb
.noipappend:
mov si,[CmdOptPtr] ; Options from user input
mov cx,(kern_cmd_len+3) >> 2
rep movsd
;
; Scan through the command line for anything that looks like we might be
; interested in. The original version of this code automatically assumed
; the first option was BOOT_IMAGE=, but that is no longer certain.
;
mov si,cmd_line_here
mov byte [initrd_flag],0
push es ; Set DS <- real_mode_seg
pop ds
get_next_opt: lodsb
and al,al
jz near cmdline_end
cmp al,' '
jbe get_next_opt
dec si
mov eax,[si]
cmp eax,'vga='
je is_vga_cmd
cmp eax,'mem='
je is_mem_cmd
push es ; Save ES -> real_mode_seg
push cs
pop es ; Set ES <- normal DS
mov di,initrd_cmd
mov cx,initrd_cmd_len
repe cmpsb
jne not_initrd
mov di,InitRD
push si ; mangle_dir mangles si
call mangle_name ; Mangle ramdisk name
pop si
cmp byte [es:InitRD],0 ; Null filename?
seta byte [es:initrd_flag] ; Set flag if not
not_initrd: pop es ; Restore ES -> real_mode_seg
skip_this_opt: lodsb ; Load from command line
cmp al,' '
ja skip_this_opt
dec si
jmp short get_next_opt
is_vga_cmd:
add si,byte 4
mov eax,[si]
mov bx,-1
cmp eax, 'norm' ; vga=normal
je vc0
and eax,0ffffffh ; 3 bytes
mov bx,-2
cmp eax, 'ext' ; vga=ext
je vc0
mov bx,-3
cmp eax, 'ask' ; vga=ask
je vc0
call parseint ; vga=<number>
jc skip_this_opt ; Not an integer
vc0: mov [bs_vidmode],bx ; Set video mode
jmp short skip_this_opt
is_mem_cmd:
add si,byte 4
call parseint
jc skip_this_opt ; Not an integer
sub ebx,HIGHMEM_SLOP
mov [cs:HighMemSize],ebx
jmp short skip_this_opt
cmdline_end:
push cs ; Restore standard DS
pop ds
sub si,cmd_line_here
mov [CmdLineLen],si ; Length including final null
;
; Now check if we have a large kernel, which needs to be loaded high
;
mov dword [RamdiskMax], HIGHMEM_MAX ; Default initrd limit
cmp dword [es:su_header],HEADER_ID ; New setup code ID
jne near old_kernel ; Old kernel, load low
cmp word [es:su_version],0200h ; Setup code version 2.0
jb near old_kernel ; Old kernel, load low
cmp word [es:su_version],0201h ; Version 2.01+?
jb new_kernel ; If 2.00, skip this step
mov word [es:su_heapend],linux_stack ; Set up the heap
or byte [es:su_loadflags],80h ; Let the kernel know we care
cmp word [es:su_version],0203h ; Version 2.03+?
jb new_kernel ; Not 2.03+
mov eax,[es:su_ramdisk_max]
mov [RamdiskMax],eax ; Set the ramdisk limit
;
; We definitely have a new-style kernel. Let the kernel know who we are,
; and that we are clueful
;
new_kernel:
mov byte [es:su_loader],syslinux_id ; Show some ID
movzx ax,byte [es:bs_setupsecs] ; Variable # of setup sectors
mov [SetupSecs],ax
;
; About to load the kernel. This is a modern kernel, so use the boot flags
; we were provided.
;
mov al,[es:su_loadflags]
mov [LoadFlags],al
;
; Load the kernel. We always load it at 100000h even if we're supposed to
; load it "low"; for a "low" load we copy it down to low memory right before
; jumping to it.
;
read_kernel:
mov si,KernelCName ; Print kernel name part of
call cwritestr ; "Loading" message
mov si,dotdot_msg ; Print dots
call cwritestr
mov eax,[HighMemSize]
sub eax,100000h ; Load address
cmp eax,[KernelSize]
jb near no_high_mem ; Not enough high memory
;
; Move the stuff beyond the setup code to high memory at 100000h
;
movzx esi,word [SetupSecs] ; Setup sectors
inc esi ; plus 1 boot sector
shl esi,9 ; Convert to bytes
mov ecx,108000h ; 108000h = 1M + 32K
sub ecx,esi ; Adjust pointer to 2nd block
mov [HiLoadAddr],ecx
sub ecx,100000h ; Turn into a counter
shr ecx,2 ; Convert to dwords
add esi,(real_mode_seg << 4) ; Pointer to source
mov edi,100000h ; Copy to address 100000h
call bcopy ; Transfer to high memory
push word xfer_buf_seg ; Transfer buffer segment
pop es
high_load_loop:
mov si,dot_msg ; Progress report
call cwritestr
call abort_check
mov ecx,[KernelClust]
and ecx,ecx
jz high_load_done ; Zero left (tiny kernel?)
cmp ecx,[ClustPerMoby]
jna high_last_moby
mov ecx,[ClustPerMoby]
high_last_moby:
sub [KernelClust],ecx
xor bx,bx ; Load at offset 0
pop si ; Restore cluster pointer
call getfssec
push si ; Save cluster pointer
pushf ; Save EOF
xor bx,bx
mov esi,(xfer_buf_seg << 4)
mov edi,[HiLoadAddr] ; Destination address
mov ecx,4000h ; Cheating - transfer 64K
call bcopy ; Transfer to high memory
mov [HiLoadAddr],edi ; Point to next target area
popf ; Restore EOF
jc high_load_done ; If EOF we are done
cmp dword [KernelClust],byte 0 ; Are we done?
jne high_load_loop ; Apparently not
high_load_done:
pop si ; No longer needed
mov ax,real_mode_seg ; Set to real mode seg
mov es,ax
mov si,dot_msg
call cwritestr
call crlf
;
; Now see if we have an initial RAMdisk; if so, do requisite computation
; We know we have a new kernel; the old_kernel code already will have objected
; if we tried to load initrd using an old kernel
;
load_initrd:
test byte [initrd_flag],1
jz near nk_noinitrd
push es ; ES->real_mode_seg
push ds
pop es ; We need ES==DS
mov si,InitRD
mov di,InitRDCName
call unmangle_name ; Create human-readable name
sub di,InitRDCName
mov [InitRDCNameLen],di
mov di,InitRD
call searchdir ; Look for it in directory
pop es
jz initrd_notthere
mov [initrd_ptr],si ; Save cluster pointer
mov [es:su_ramdisklen1],ax ; Ram disk length
mov [es:su_ramdisklen2],dx
movzx eax,ax
shl edx,16
or eax,edx
xor edx,edx
div dword [ClustSize]
; Round up...
add edx,byte -1 ; Sets CF if EDX >= 1
adc eax,byte 0 ; Add 1 to EAX if CF set
mov [InitRDClust],eax ; Ramdisk clusters
mov edx,[HighMemSize] ; End of memory
dec edx
mov eax,[RamdiskMax] ; Highest address allowed by kernel
cmp edx,eax
jna memsize_ok
mov edx,eax ; Adjust to fit inside limit
memsize_ok:
inc edx
sub edx,[es:su_ramdisklen] ; Subtract size of ramdisk
xor dx,dx ; Round down to 64K boundary
mov [InitRDat],edx ; Load address
call loadinitrd ; Load initial ramdisk
jmp short initrd_end
initrd_notthere:
mov si,err_noinitrd
call cwritestr
mov si,InitRDCName
call cwritestr
mov si,crlf_msg
jmp abort_load
no_high_mem: mov si,err_nohighmem ; Error routine
jmp abort_load
initrd_end:
nk_noinitrd:
;
; Abandon hope, ye that enter here! We do no longer permit aborts.
;
call abort_check ; Last chance!!
mov si,ready_msg
call cwritestr
call vgaclearmode ; We can't trust ourselves after this
cli
xor ax,ax
mov ss,ax
mov sp,7C00h ; Set up a more normal stack
;
; Now, if we were supposed to load "low", copy the kernel down to 10000h
; and the real mode stuff to 90000h. We assume that all bzImage kernels are
; capable of starting their setup from a different address.
;
mov bx,real_mode_seg ; Real mode segment
mov fs,bx ; FS -> real_mode_seg
;
; Copy command line. Unfortunately, the kernel boot protocol requires
; the command line to exist in the 9xxxxh range even if the rest of the
; setup doesn't.
;
cli ; In case of hooked interrupts
test byte [LoadFlags],LOAD_HIGH
jz need_high_cmdline
cmp word [fs:su_version],0202h ; Support new cmdline protocol?
jb need_high_cmdline
; New cmdline protocol
; Store 32-bit (flat) pointer to command line
mov dword [fs:su_cmd_line_ptr],(real_mode_seg << 4) + cmd_line_here
jmp short in_proper_place
need_high_cmdline:
;
; Copy command line up to 90000h
;
mov ax,9000h
mov es,ax
mov si,cmd_line_here
mov di,si
mov [fs:kern_cmd_magic],word CMD_MAGIC ; Store magic
mov [fs:kern_cmd_offset],di ; Store pointer
mov cx,[CmdLineLen]
add cx,byte 3
shr cx,2 ; Convert to dwords
fs rep movsd
test byte [LoadFlags],LOAD_HIGH
; Note bx -> real_mode_seg still
jnz in_proper_place ; If high load, we're done
;
; Loading low; we can't assume it's safe to run in place.
;
; Copy real_mode stuff up to 90000h
;
mov ax,real_mode_seg
mov fs,ax
mov ax,9000h
mov es,ax
mov cx,[SetupSecs]
inc cx ; Setup + boot sector
shl cx,7 ; Sectors -> dwords
xor si,si
xor di,di
fs rep movsd ; Copy setup + boot sector
;
; Some kernels in the 1.2 ballpark but pre-bzImage have more than 4
; setup sectors, but the boot protocol had not yet been defined. They
; rely on a signature to figure out if they need to copy stuff from
; the "protected mode" kernel area. Unfortunately, we used that area
; as a transfer buffer, so it's going to find the signature there.
; Hence, zero the low 32K beyond the setup area.
;
mov di,[SetupSecs]
inc di ; Setup + boot sector
mov cx,32768/512 ; Sectors/32K
sub cx,di ; Remaining sectors
shl di,9 ; Sectors -> bytes
shl cx,7 ; Sectors -> dwords
xor eax,eax
rep stosd ; Clear region
;
mov ecx,[KernelSize]
add ecx,3 ; Round upwards
shr ecx,2 ; Bytes -> dwords
mov esi,100000h
mov edi,10000h
call bcopy
mov bx,9000h ; Real mode segment
;
; Now everything is where it needs to be...
;
in_proper_place:
mov es,bx ; Real mode segment
;
; If the default root device is set to FLOPPY (0000h), change to
; /dev/fd0 (0200h)
;
cmp word [es:bs_rootdev],byte 0
jne root_not_floppy
mov word [es:bs_rootdev],0200h
root_not_floppy:
;
; Copy the disk table to high memory, then re-initialize the floppy
; controller
;
; This needs to be moved before the copy
;
%if 0
push ds
push bx
lds si,[fdctab]
mov di,linux_fdctab
mov cx,3 ; 12 bytes
push di
rep movsd
pop di
mov [fdctab1],di ; Save new floppy tab pos
mov [fdctab2],es
xor ax,ax
xor dx,dx
int 13h
pop bx
pop ds
%endif
;
; Linux wants the floppy motor shut off before starting the kernel,
; at least bootsect.S seems to imply so
;
kill_motor:
mov dx,03F2h
xor al,al
call slow_out
;
; If we're debugging, wait for a keypress so we can read any debug messages
;
%ifdef debug
xor ax,ax
int 16h
%endif
;
; Set up segment registers and the Linux real-mode stack
; Note: bx == the real mode segment
;
cli
; es is already == real mode segment
mov ds,bx
mov fs,bx
mov gs,bx
mov ss,bx
mov sp,linux_stack
;
; We're done... now RUN THAT KERNEL!!!!
; Setup segment == real mode segment + 020h; we need to jump to offset
; zero in the real mode segment.
;
add bx,020h
push bx
push word 0h
retf
;
; Load an older kernel. Older kernels always have 4 setup sectors, can't have
; initrd, and are always loaded low.
;
old_kernel:
test byte [initrd_flag],1 ; Old kernel can't have initrd
jz load_old_kernel
mov si,err_oldkernel
jmp abort_load
load_old_kernel:
mov word [SetupSecs],4 ; Always 4 setup sectors
mov byte [LoadFlags],0 ; Always low
jmp read_kernel
;
; Load a COMBOOT image. A COMBOOT image is basically a DOS .COM file,
; except that it may, of course, not contain any DOS system calls. We
; do, however, allow the execution of INT 20h to return to SYSLINUX.
;
is_comboot_image:
and dx,dx
jnz near comboot_too_large
cmp ax,0ff00h ; Max size in bytes
jae comboot_too_large
;
; Set up the DOS vectors in the IVT (INT 20h-3fh)
;
mov dword [4*0x20],comboot_return ; INT 20h vector
mov eax,comboot_bogus
mov di,4*0x21
mov cx,31 ; All remaining DOS vectors
rep stosd
mov cx,comboot_seg
mov es,cx
mov bx,100h ; Load at <seg>:0100h
mov cx,[ClustPerMoby] ; Absolute maximum # of clusters
call getfssec
xor di,di
mov cx,64 ; 256 bytes (size of PSP)
xor eax,eax ; Clear PSP
rep stosd
mov word [es:0], 020CDh ; INT 20h instruction
; First non-free paragraph
mov word [es:02h], comboot_seg+1000h
; Copy the command line from high memory
mov cx,125 ; Max cmdline len (minus space and CR)
mov si,[CmdOptPtr]
mov di,081h ; Offset in PSP for command line
mov al,' ' ; DOS command lines begin with a space
stosb
comboot_cmd_cp: lodsb
and al,al
jz comboot_end_cmd
stosb
loop comboot_cmd_cp
comboot_end_cmd: mov al,0Dh ; CR after last character
stosb
mov al,126 ; Include space but not CR
sub al,cl
mov [es:80h], al ; Store command line length
mov [SavedSSSP],sp
mov ax,ss ; Save away SS:SP
mov [SavedSSSP+2],ax
call vgaclearmode ; Reset video
mov ax,es
mov ds,ax
mov ss,ax
xor sp,sp
push word 0 ; Return to address 0 -> exit
jmp comboot_seg:100h ; Run it
; Looks like a COMBOOT image but too large
comboot_too_large:
mov si,err_comlarge
call cwritestr
cb_enter: jmp enter_command
; Proper return vector
comboot_return: cli ; Don't trust anyone
xor ax,ax
mov ds,ax
mov es,ax
lss sp,[SavedSSSP]
sti
cld
jmp short cb_enter
; Attempted to execute DOS system call
comboot_bogus: cli ; Don't trust anyone
xor ax,ax
mov ds,ax
mov es,ax
lss sp,[SavedSSSP]
sti
cld
mov si,KernelCName
call cwritestr
mov si,err_notdos
call cwritestr
jmp short cb_enter
;
; Load a boot sector
;
is_bootsector:
is_bss_sector:
; Can't load these from the network, dang it!
.badness: jmp short .badness
;
; Enable disk emulation. The kind of disk we emulate is dependent on the size of
; the file: 1200K, 1440K or 2880K floppy, otherwise harddisk.
;
is_disk_image:
TRACER CR
TRACER LF
TRACER 'D'
TRACER ':'
shl edx,16
mov dx,ax ; Set EDX <- file size
mov di,img_table
mov cx,img_table_count
mov eax,[si+file_sector] ; Starting LBA of file
mov [dsp_lba],eax ; Location of file
mov byte [dsp_drive], 0 ; 00h floppy, 80h hard disk
.search_table:
TRACER 't'
mov eax,[di+4]
cmp edx,[di]
je near .type_found
add di,8
loop .search_table
; Hard disk image. Need to examine the partition table
; in order to deduce the C/H/S geometry. Sigh.
.hard_disk_image:
TRACER 'h'
cmp edx,512
jb near .bad_image
mov bx,trackbuf
mov cx,1 ; Load 1 sector
call getfssec
cmp word [trackbuf+510],0aa55h ; Boot signature
jne near .bad_image ; Image not bootable
mov cx,4 ; 4 partition entries
mov di,trackbuf+446 ; Start of partition table
xor ax,ax ; Highest sector(al) head(ah)
.part_scan:
cmp byte [di+4], 0
jz .part_loop
lea si,[di+1]
call .hs_check
add si,byte 4
call .hs_check
.part_loop:
add di,byte 16
loop .part_scan
push eax ; H/S
push edx ; File size
mov bl,ah
xor bh,bh
inc bx ; # of heads in BX
xor ah,ah ; # of sectors in AX
cwde ; EAX[31:16] <- 0
mul bx
shl eax,9 ; Convert to bytes
; Now eax contains the number of bytes per cylinder
pop ebx ; File size
xor edx,edx
div ebx
and edx,edx
jz .no_remainder
inc eax ; Fractional cylinder...
; Now (e)ax contains the number of cylinders
.no_remainder: cmp eax,1024
jna .ok_cyl
mov ax,1024 ; Max possible #
.ok_cyl: dec ax ; Convert to max cylinder no
pop ebx ; S(bl) H(bh)
shl ah,6
or bl,ah
xchg ax,bx
shl eax,16
mov ah,bl
mov al,4 ; Hard disk boot
mov byte [dsp_drive], 80h ; Drive 80h = hard disk
.type_found:
TRACER 'T'
mov bl,[sp_media]
and bl,0F0h ; Copy controller info bits
or al,bl
mov [dsp_media],al ; Emulation type
shr eax,8
mov [dsp_chs],eax ; C/H/S geometry
mov ax,[sp_devspec] ; Copy device spec
mov [dsp_devspec],ax
mov al,[sp_controller] ; Copy controller index
mov [dsp_controller],al
TRACER 'V'
call vgaclearmode ; Reset video
mov ax,4C00h ; Enable emulation and boot
mov si,dspec_packet
mov dl,[DriveNo]
lss sp,[InitStack]
TRACER 'X'
int 13h
; If this returns, we have problems
.bad_image:
mov si,err_disk_image
call cwritestr
jmp enter_command
;
; Look for the highest seen H/S geometry
; We compute cylinders separately
;
.hs_check:
mov bl,[si] ; Head #
cmp bl,ah
jna .done_track
mov ah,bl ; New highest head #
.done_track: mov bl,[si+1]
and bl,3Fh ; Sector #
cmp bl,al
jna .done_sector
mov al,bl
.done_sector: ret
;
; Boot a specified local disk. AX specifies the BIOS disk number; or
; 0xFFFF in case we should execute INT 18h ("next device.")
;
local_boot:
call vgaclearmode
lss sp,[cs:Stack] ; Restore stack pointer
xor dx,dx
mov ds,dx
mov es,dx
mov fs,dx
mov gs,dx
mov si,localboot_msg
call writestr
cmp ax,-1
je .int18
; Load boot sector from the specified BIOS device and jump to it.
mov dl,al
xor dh,dh
push dx
xor ax,ax ; Reset drive
call xint13
mov ax,0201h ; Read one sector
mov cx,0001h ; C/H/S = 0/0/1 (first sector)
mov bx,trackbuf
call xint13
pop dx
cli ; Abandon hope, ye who enter here
mov si,trackbuf
mov di,07C00h
mov cx,512 ; Probably overkill, but should be safe
rep movsd
lss sp,[cs:InitStack]
jmp 0:07C00h ; Jump to new boot sector
.int18:
int 18h ; Hope this does the right thing...
jmp kaboom ; If we returned, oh boy...
;
; 32-bit bcopy routine for real mode
;
; We enter protected mode, set up a flat 32-bit environment, run rep movsd
; and then exit. IMPORTANT: This code assumes cs == ss == 0.
;
; This code is probably excessively anal-retentive in its handling of
; segments, but this stuff is painful enough as it is without having to rely
; on everything happening "as it ought to."
;
align 4
bcopy_gdt: dw bcopy_gdt_size-1 ; Null descriptor - contains GDT
dd bcopy_gdt ; pointer for LGDT instruction
dw 0
dd 0000ffffh ; Code segment, use16, readable,
dd 00009b00h ; present, dpl 0, cover 64K
dd 0000ffffh ; Data segment, use16, read/write,
dd 008f9300h ; present, dpl 0, cover all 4G
dd 0000ffffh ; Data segment, use16, read/write,
dd 00009300h ; present, dpl 0, cover 64K
bcopy_gdt_size: equ $-bcopy_gdt
bcopy: push eax
pushf ; Saves, among others, the IF flag
push gs
push fs
push ds
push es
mov [cs:SavedSSSP],sp
mov ax,ss
mov [cs:SavedSSSP+2],ax
cli
call enable_a20
o32 lgdt [bcopy_gdt]
mov eax,cr0
or al,1
mov cr0,eax ; Enter protected mode
jmp 08h:.in_pm
.in_pm: mov ax,10h ; Data segment selector
mov es,ax
mov ds,ax
mov al,18h ; "Real-mode-like" data segment
mov ss,ax
mov fs,ax
mov gs,ax
a32 rep movsd ; Do our business
mov es,ax ; Set to "real-mode-like"
mov ds,ax
mov eax,cr0
and al,~1
mov cr0,eax ; Disable protected mode
jmp 0:.in_rm
.in_rm: ; Back in real mode
lss sp,[cs:SavedSSSP]
pop es
pop ds
pop fs
pop gs
call disable_a20
popf ; Re-enables interrupts
pop eax
ret
;
; Routines to enable and disable (yuck) A20. These routines are gathered
; from tips from a couple of sources, including the Linux kernel and
; http://www.x86.org/. The need for the delay to be as large as given here
; is indicated by Donnie Barnes of RedHat, the problematic system being an
; IBM ThinkPad 760EL.
;
; We typically toggle A20 twice for every 64K transferred.
;
%define io_delay call _io_delay
%define IO_DELAY_PORT 80h ; Invalid port (we hope!)
%define disable_wait 32 ; How long to wait for a disable
%define A20_DUNNO 0 ; A20 type unknown
%define A20_NONE 1 ; A20 always on?
%define A20_BIOS 2 ; A20 BIOS enable
%define A20_KBC 3 ; A20 through KBC
%define A20_FAST 4 ; A20 through port 92h
slow_out: out dx, al ; Fall through
_io_delay: out IO_DELAY_PORT,al
out IO_DELAY_PORT,al
ret
enable_a20:
pushad
mov byte [cs:A20Tries],255 ; Times to try to make this work
try_enable_a20:
;
; Flush the caches
;
; call try_wbinvd
;
; If the A20 type is known, jump straight to type
;
mov bp,[cs:A20Type]
add bp,bp ; Convert to word offset
jmp word [cs:bp+A20List]
;
; First, see if we are on a system with no A20 gate
;
a20_dunno:
a20_none:
mov byte [cs:A20Type], A20_NONE
call a20_test
jnz a20_done
;
; Next, try the BIOS (INT 15h AX=2401h)
;
a20_bios:
mov byte [cs:A20Type], A20_BIOS
mov ax,2401h
pushf ; Some BIOSes muck with IF
int 15h
popf
call a20_test
jnz a20_done
;
; Enable the keyboard controller A20 gate
;
a20_kbc:
mov dl, 1 ; Allow early exit
call empty_8042
jnz a20_done ; A20 live, no need to use KBC
mov byte [cs:A20Type], A20_KBC ; Starting KBC command sequence
mov al,0D1h ; Command write
out 064h, al
call empty_8042_uncond
mov al,0DFh ; A20 on
out 060h, al
call empty_8042_uncond
; Verify that A20 actually is enabled. Do that by
; observing a word in low memory and the same word in
; the HMA until they are no longer coherent. Note that
; we don't do the same check in the disable case, because
; we don't want to *require* A20 masking (SYSLINUX should
; work fine without it, if the BIOS does.)
.kbc_wait: push cx
xor cx,cx
.kbc_wait_loop:
call a20_test
jnz a20_done_pop
loop .kbc_wait_loop
pop cx
;
; Running out of options here. Final attempt: enable the "fast A20 gate"
;
a20_fast:
mov byte [cs:A20Type], A20_FAST ; Haven't used the KBC yet
in al, 092h
or al,02h
and al,~01h ; Don't accidentally reset the machine!
out 092h, al
.fast_wait: push cx
xor cx,cx
.fast_wait_loop:
call a20_test
jnz a20_done_pop
loop .fast_wait_loop
pop cx
;
; Oh bugger. A20 is not responding. Try frobbing it again; eventually give up
; and report failure to the user.
;
dec byte [cs:A20Tries]
jnz try_enable_a20
mov si, err_a20
jmp abort_load
;
; A20 unmasked, proceed...
;
a20_done_pop: pop cx
a20_done: popad
ret
;
; This routine tests if A20 is enabled (ZF = 0). This routine
; must not destroy any register contents.
;
a20_test:
push es
push cx
push ax
mov cx,0FFFFh ; HMA = segment 0FFFFh
mov es,cx
mov cx,32 ; Loop count
mov ax,[cs:A20Test]
.a20_wait: inc ax
mov [cs:A20Test],ax
io_delay ; Serialize, and fix delay
cmp ax,[es:A20Test+10h]
loopz .a20_wait
.a20_done: pop ax
pop cx
pop es
ret
disable_a20:
pushad
;
; Flush the caches
;
; call try_wbinvd
mov bp,[cs:A20Type]
add bp,bp ; Convert to word offset
jmp word [cs:bp+A20DList]
a20d_bios:
mov ax,2400h
pushf ; Some BIOSes muck with IF
int 15h
popf
jmp short a20d_snooze
;
; Disable the "fast A20 gate"
;
a20d_fast:
in al, 092h
and al,~03h
out 092h, al
jmp short a20d_snooze
;
; Disable the keyboard controller A20 gate
;
a20d_kbc:
call empty_8042_uncond
mov al,0D1h
out 064h, al ; Command write
call empty_8042_uncond
mov al,0DDh ; A20 off
out 060h, al
call empty_8042_uncond
; Wait a bit for it to take effect
a20d_snooze:
push cx
mov cx, disable_wait
.delayloop: call a20_test
jz .disabled
loop .delayloop
.disabled: pop cx
a20d_dunno:
a20d_none:
popad
ret
;
; Routine to empty the 8042 KBC controller. If dl != 0
; then we will test A20 in the loop and exit if A20 is
; suddenly enabled.
;
empty_8042_uncond:
xor dl,dl
empty_8042:
call a20_test
jz .a20_on
and dl,dl
jnz .done
.a20_on: io_delay
in al, 064h ; Status port
test al,1
jz .no_output
io_delay
in al, 060h ; Read input
jmp short empty_8042
.no_output:
test al,2
jnz empty_8042
io_delay
.done: ret
;
; WBINVD instruction; gets auto-eliminated on 386 CPUs
;
try_wbinvd:
wbinvd
ret
;
; Load RAM disk into high memory
;
loadinitrd:
push es ; Save ES on entry
mov ax,real_mode_seg
mov es,ax
mov si,[initrd_ptr]
mov edi,[InitRDat] ; initrd load address
mov [es:su_ramdiskat],edi ; Offset for ram disk
push si
mov si,loading_msg
call cwritestr
mov si,InitRDCName ; Write ramdisk name
call cwritestr
mov si,dotdot_msg ; Write dots
call cwritestr
rd_load_loop:
mov si,dot_msg ; Progress report
call cwritestr
pop si ; Restore cluster pointer
call abort_check
mov ecx,[InitRDClust]
cmp ecx,[ClustPerMoby]
jna rd_last_moby
mov ecx,[ClustPerMoby]
rd_last_moby:
sub [InitRDClust],ecx
xor bx,bx ; Load at offset 0
push word xfer_buf_seg ; Bounce buffer segment
pop es
push cx
call getfssec
pop cx
push si ; Save cluster pointer
mov esi,(xfer_buf_seg << 4)
mov edi,[InitRDat]
mov ecx,4000h ; Copy 64K
call bcopy ; Does not change flags!!
jc rd_load_done ; EOF?
add dword [InitRDat],10000h ; Point to next 64K
cmp dword [InitRDClust],byte 0 ; Are we done?
jne rd_load_loop ; Apparently not
rd_load_done:
pop si ; Clean up the stack
call crlf
pop es ; Restore original ES
ret
;
; abort_check: let the user abort with <ESC> or <Ctrl-C>
;
abort_check:
call pollchar
jz ac_ret1
pusha
call getchar
cmp al,27 ; <ESC>
je ac_kill
cmp al,3 ; <Ctrl-C>
jne ac_ret2
ac_kill: mov si,aborted_msg
;
; abort_load: Called by various routines which wants to print a fatal
; error message and return to the command prompt. Since this
; may happen at just about any stage of the boot process, assume
; our state is messed up, and just reset the segment registers
; and the stack forcibly.
;
; SI = offset (in _text) of error message to print
;
abort_load:
mov ax,cs ; Restore CS = DS = ES
mov ds,ax
mov es,ax
cli
lss sp,[cs:Stack] ; Reset the stack
sti
call cwritestr ; Expects SI -> error msg
al_ok: jmp enter_command ; Return to command prompt
;
; End of abort_check
;
ac_ret2: popa
ac_ret1: ret
;
; searchdir:
;
; Open a file
;
; On entry:
; DS:DI = filename
; If successful:
; ZF clear
; SI = file pointer
; DX:AX or EAX = file length in bytes
; If unsuccessful
; ZF set
;
;
; searchdir_iso is a special entry point for ISOLINUX only. In addition
; to the above, searchdir_iso passes a file flag mask in AL. This is useful
; for searching for directories.
;
alloc_failure:
xor ax,ax ; ZF <- 1
ret
searchdir:
xor al,al
searchdir_iso:
mov [ISOFlags],al
TRACER 'S'
call allocate_file ; Temporary file structure for directory
jnz alloc_failure
push es
push ds
pop es ; ES = DS
mov si,CurDir
cmp byte [di],'/' ; If filename begins with slash
jne .not_rooted
inc di ; Skip leading slash
mov si,RootDir ; Reference root directory instead
.not_rooted:
mov eax,[si+dir_clust]
mov [bx+file_left],eax
mov eax,[si+dir_lba]
mov [bx+file_sector],eax
mov edx,[si+dir_len]
.look_for_slash:
mov ax,di
.scan:
mov cl,[di]
inc di
and cl,cl
jz .isfile
cmp cl,'/'
jne .scan
mov [di-1],byte 0 ; Terminate at directory name
mov cl,02h ; Search for directory
xchg cl,[ISOFlags]
push di
push cx
push word .resume ; Where to "return" to
push es
.isfile: xchg ax,di
.getsome:
; Get a chunk of the directory
mov si,trackbuf
TRACER 'g'
pushad
xchg bx,si
mov cx,[BufSafe]
dec cx ; ... minus one sector
call getfssec
popad
.compare:
movzx eax,byte [si] ; Length of directory entry
cmp al,33
jb .next_sector
TRACER 'c'
mov cl,[si+25]
xor cl,[ISOFlags]
test cl, byte 8Eh ; Unwanted file attributes!
jnz .not_file
pusha
movzx cx,byte [si+32] ; File identifier length
add si,byte 33 ; File identifier offset
TRACER 'i'
call iso_compare_names
popa
je .success
.not_file:
sub edx,eax ; Decrease bytes left
jbe .failure
add si,ax ; Advance pointer
.check_overrun:
; Did we finish the buffer?
cmp si,trackbuf+trackbufsize
jb .compare ; No, keep going
jmp short .getsome ; Get some more directory
.next_sector:
; Advance to the beginning of next sector
lea ax,[si+SECTORSIZE-1]
and ax,~(SECTORSIZE-1)
sub ax,si
jmp short .not_file ; We still need to do length checks
.failure: xor eax,eax ; ZF = 1
mov [bx+file_sector],eax
pop es
ret
.success:
mov eax,[si+2] ; Location of extent
mov [bx+file_sector],eax
mov eax,[si+10] ; Data length
push eax
add eax,SECTORSIZE-1
shr eax,SECTORSIZE_LG2
mov [bx+file_left],eax
pop eax
mov edx,eax
shr edx,16
and bx,bx ; ZF = 0
mov si,bx
pop es
ret
.resume: ; We get here if we were only doing part of a lookup
; This relies on the fact that .success returns bx == si
xchg edx,eax ; Directory length in edx
pop cx ; Old ISOFlags
pop di ; Next filename pointer
mov [ISOFlags],cl ; Restore the flags
jz .failure ; Did we fail? If so fail for real!
jmp .look_for_slash ; Otherwise, next level
;
; allocate_file: Allocate a file structure
;
; If successful:
; ZF set
; BX = file pointer
; In unsuccessful:
; ZF clear
;
allocate_file:
TRACER 'a'
push cx
mov bx,Files
mov cx,MAX_OPEN
.check: cmp dword [bx], byte 0
je .found
add bx,open_file_t_size ; ZF = 0
loop .check
; ZF = 0 if we fell out of the loop
.found: pop cx
ret
;
; iso_compare_names:
; Compare the names DS:SI and DS:DI and report if they are
; equal from an ISO 9660 perspective. SI is the name from
; the filesystem; CX indicates its length, and ';' terminates.
; DI is expected to end with a null.
;
; Note: clobbers AX, CX, SI, DI; assumes DS == ES == base segment
;
iso_compare_names:
; First, terminate and canonicalize input filename
push di
mov di,ISOFileName
.canon_loop: jcxz .canon_end
lodsb
dec cx
cmp al,';'
je .canon_end
and al,al
je .canon_end
stosb
cmp di,ISOFileNameEnd-1 ; Guard against buffer overrun
jb .canon_loop
.canon_end:
cmp di,ISOFileName
jbe .canon_done
cmp byte [di-1],'.' ; Remove terminal dots
jne .canon_done
dec di
jmp short .canon_end
.canon_done:
mov [di],byte 0 ; Null-terminate string
pop di
mov si,ISOFileName
.compare:
lodsb
mov ah,[di]
inc di
and ax,ax
jz .success ; End of string for both
and al,al ; Is either one end of string?
jz .failure ; If so, failure
and ah,ah
jz .failure
or ax,2020h ; Convert to lower case
cmp al,ah
je .compare
.failure: and ax,ax ; ZF = 0 (at least one will be nonzero)
.success: ret
;
; strcpy: Copy DS:SI -> ES:DI up to and including a null byte
;
strcpy: push ax
.loop: lodsb
stosb
and al,al
jnz .loop
pop ax
lf_ret: ret
;
; loadfont: Load a .psf font file and install it onto the VGA console
; (if we're not on a VGA screen then ignore.) It is called with
; SI and DX:AX set by routine searchdir
;
loadfont:
mov bx,trackbuf ; The trackbuf is >= 16K; the part
mov cx,[BufSafe] ; of a PSF file we care about is no
call getfssec ; more than 8K+4 bytes
mov ax,[trackbuf] ; Magic number
cmp ax,0436h
jne lf_ret
mov al,[trackbuf+2] ; File mode
cmp al,5 ; Font modes 0-5 supported
ja lf_ret
mov bh,byte [trackbuf+3] ; Height of font
cmp bh,2 ; VGA minimum
jb lf_ret
cmp bh,32 ; VGA maximum
ja lf_ret
; Copy to font buffer
mov si,trackbuf+4 ; Start of font data
mov [VGAFontSize],bh
mov di,vgafontbuf
mov cx,(32*256) >> 2 ; Maximum size
rep movsd
mov [UserFont], byte 1 ; Set font flag
; Fall through to use_font
;
; use_font:
; This routine activates whatever font happens to be in the
; vgafontbuf, and updates the adjust_screen data.
; Must be called with CS = DS = ES
;
use_font:
test [UserFont], byte 1 ; Are we using a user-specified font?
jz adjust_screen ; If not, just do the normal stuff
mov bp,vgafontbuf
mov bh,[VGAFontSize]
xor bl,bl ; Needed by both INT 10h calls
cmp [UsingVGA], byte 1 ; Are we in graphics mode?
jne .text
.graphics:
xor cx,cx
mov cl,bh ; CX = bytes/character
mov ax,480
div cl ; Compute char rows per screen
mov dl,al
dec al
mov [VidRows],al
mov ax,1121h ; Set user character table
int 10h
mov [VidCols], byte 79 ; Always 80 bytes/line
mov [TextPage], byte 0 ; Always page 0
ret ; No need to call adjust_screen
.text:
mov cx,256
xor dx,dx
mov ax,1110h
int 10h ; Load into VGA RAM
xor bl,bl
mov ax,1103h ; Select page 0
int 10h
; Fall through to adjust_screen
;
; adjust_screen: Set the internal variables associated with the screen size.
; This is a subroutine in case we're loading a custom font.
;
adjust_screen:
mov al,[BIOS_vidrows]
and al,al
jnz vidrows_is_ok
mov al,24 ; No vidrows in BIOS, assume 25
; (Remember: vidrows == rows-1)
vidrows_is_ok: mov [VidRows],al
mov ah,0fh
int 10h ; Read video state
mov [TextPage],bh
dec ah ; Store count-1 (same as rows)
mov [VidCols],ah
ret
;
; loadkeys: Load a LILO-style keymap; SI and DX:AX set by searchdir
;
loadkeys:
and dx,dx ; Should be 256 bytes exactly
jne loadkeys_ret
cmp ax,256
jne loadkeys_ret
mov bx,trackbuf
mov cx,1 ; 1 cluster should be >= 256 bytes
call getfssec
mov si,trackbuf
mov di,KbdMap
mov cx,256 >> 2
rep movsd
loadkeys_ret: ret
;
; get_msg_file: Load a text file and write its contents to the screen,
; interpreting color codes. Is called with SI and DX:AX
; set by routine searchdir
;
get_msg_file:
push es
shl edx,16 ; EDX <- DX:AX (length of file)
mov dx,ax
mov ax,xfer_buf_seg ; Use for temporary storage
mov es,ax
mov byte [TextAttribute],07h ; Default grey on white
mov byte [DisplayMask],07h ; Display text in all modes
call msg_initvars
get_msg_chunk: push edx ; EDX = length of file
xor bx,bx ; == xbs_textbuf
mov cx,[BufSafe]
call getfssec
pop edx
push si ; Save current cluster
xor si,si ; == xbs_textbuf
mov cx,[BufSafeBytes] ; Number of bytes left in chunk
print_msg_file:
push cx
push edx
es lodsb
cmp al,1Ah ; DOS EOF?
je msg_done_pop
push si
mov cl,[UsingVGA]
inc cl ; 01h = text mode, 02h = graphics
call [NextCharJump] ; Do what shall be done
pop si
pop edx
pop cx
dec edx
jz msg_done
loop print_msg_file
pop si
jmp short get_msg_chunk
msg_done_pop:
add sp,byte 6 ; Drop pushed EDX, CX
msg_done:
pop si
pop es
ret
msg_putchar: ; Normal character
cmp al,0Fh ; ^O = color code follows
je msg_ctrl_o
cmp al,0Dh ; Ignore <CR>
je msg_ignore
cmp al,0Ah ; <LF> = newline
je msg_newline
cmp al,0Ch ; <FF> = clear screen
je msg_formfeed
cmp al,19h ; <EM> = return to text mode
je near msg_novga
cmp al,18h ; <CAN> = VGA filename follows
je near msg_vga
jnb .not_modectl
cmp al,10h ; 10h to 17h are mode controls
jae near msg_modectl
.not_modectl:
msg_normal: call write_serial_displaymask ; Write to serial port
test [DisplayMask],cl
jz msg_ignore ; Not screen
mov bx,[TextAttrBX]
mov ah,09h ; Write character/attribute
mov cx,1 ; One character only
int 10h ; Write to screen
mov al,[CursorCol]
inc ax
cmp al,[VidCols]
ja msg_line_wrap ; Screen wraparound
mov [CursorCol],al
msg_gotoxy: mov bh,[TextPage]
mov dx,[CursorDX]
mov ah,02h ; Set cursor position
int 10h
msg_ignore: ret
msg_ctrl_o: ; ^O = color code follows
mov word [NextCharJump],msg_setbg
ret
msg_newline: ; Newline char or end of line
mov si,crlf_msg
call write_serial_str_displaymask
msg_line_wrap: ; Screen wraparound
test [DisplayMask],cl
jz msg_ignore
mov byte [CursorCol],0
mov al,[CursorRow]
inc ax
cmp al,[VidRows]
ja msg_scroll
mov [CursorRow],al
jmp short msg_gotoxy
msg_scroll: xor cx,cx ; Upper left hand corner
mov dx,[ScreenSize]
mov [CursorRow],dh ; New cursor at the bottom
mov bh,[ScrollAttribute]
mov ax,0601h ; Scroll up one line
int 10h
jmp short msg_gotoxy
msg_formfeed: ; Form feed character
mov si,crff_msg
call write_serial_str_displaymask
test [DisplayMask],cl
jz msg_ignore
xor cx,cx
mov [CursorDX],cx ; Upper lefthand corner
mov dx,[ScreenSize]
mov bh,[TextAttribute]
mov ax,0600h ; Clear screen region
int 10h
jmp short msg_gotoxy
msg_setbg: ; Color background character
call unhexchar
jc msg_color_bad
shl al,4
test [DisplayMask],cl
jz .dontset
mov [TextAttribute],al
.dontset:
mov word [NextCharJump],msg_setfg
ret
msg_setfg: ; Color foreground character
call unhexchar
jc msg_color_bad
test [DisplayMask],cl
jz .dontset
or [TextAttribute],al ; setbg set foreground to 0
.dontset:
jmp short msg_putcharnext
msg_vga:
mov word [NextCharJump],msg_filename
mov di, VGAFileBuf
jmp short msg_setvgafileptr
msg_color_bad:
mov byte [TextAttribute],07h ; Default attribute
msg_putcharnext:
mov word [NextCharJump],msg_putchar
ret
msg_filename: ; Getting VGA filename
cmp al,0Ah ; <LF> = end of filename
je msg_viewimage
cmp al,' '
jbe msg_ret ; Ignore space/control char
mov di,[VGAFilePtr]
cmp di,VGAFileBufEnd
jnb msg_ret
mov [di],al ; Can't use stosb (DS:)
inc di
msg_setvgafileptr:
mov [VGAFilePtr],di
msg_ret: ret
msg_novga:
call vgaclearmode
jmp short msg_initvars
msg_viewimage:
push es
push ds
pop es ; ES <- DS
mov si,VGAFileBuf
mov di,VGAFileMBuf
push di
call mangle_name
pop di
call searchdir
pop es
jz msg_putcharnext ; Not there
call vgadisplayfile
; Fall through
; Subroutine to initialize variables, also needed
; after loading a graphics file
msg_initvars:
pusha
mov bh,[TextPage]
mov ah,03h ; Read cursor position
int 10h
mov [CursorDX],dx
popa
jmp short msg_putcharnext ; Initialize state machine
msg_modectl:
and al,07h
mov [DisplayMask],al
jmp short msg_putcharnext
;
; write_serial: If serial output is enabled, write character on serial port
; write_serial_displaymask: d:o, but ignore if DisplayMask & 04h == 0
;
write_serial_displaymask:
test byte [DisplayMask], 04h
jz write_serial.end
write_serial:
pushfd
pushad
mov bx,[SerialPort]
and bx,bx
je .noserial
push ax
mov ah,[FlowInput]
.waitspace:
; Wait for space in transmit register
lea dx,[bx+5] ; DX -> LSR
in al,dx
test al,20h
jz .waitspace
; Wait for input flow control
inc dx ; DX -> MSR
in al,dx
and al,ah
cmp al,ah
jne .waitspace
.no_flow:
xchg dx,bx ; DX -> THR
pop ax
call slow_out ; Send data
.noserial: popad
popfd
.end: ret
;
; write_serial_str: write_serial for strings
; write_serial_str_displaymask: d:o, but ignore if DisplayMask & 04h == 0
;
write_serial_str_displaymask:
test byte [DisplayMask], 04h
jz write_serial_str.end
write_serial_str:
.loop lodsb
and al,al
jz .end
call write_serial
jmp short .loop
.end: ret
;
; writechr: Write a single character in AL to the console without
; mangling any registers. This does raw console writes,
; since some PXE BIOSes seem to interfere regular console I/O.
;
writechr_full:
call write_serial ; write to serial port if needed
pushfd
pushad
mov bh,[TextPage]
push ax
mov ah,03h ; Read cursor position
int 10h
pop ax
cmp al,8
je .bs
cmp al,13
je .cr
cmp al,10
je .lf
push dx
mov bh,[TextPage]
mov bl,07h ; White on black
mov cx,1 ; One only
mov ah,09h ; Write char and attribute
int 10h
pop dx
inc dl
cmp dl,[VidCols]
jna .curxyok
xor dl,dl
.lf: inc dh
cmp dh,[VidRows]
ja .scroll
.curxyok: mov bh,[TextPage]
mov ah,02h ; Set cursor position
int 10h
.ret: popad
popfd
ret
.scroll: dec dh
mov bh,[TextPage]
mov ah,02h
int 10h
mov ax,0601h ; Scroll up one line
mov bh,[ScrollAttribute]
xor cx,cx
mov dx,[ScreenSize] ; The whole screen
int 10h
jmp short .ret
.cr: xor dl,dl
jmp short .curxyok
.bs: sub dl,1
jnc .curxyok
mov dl,[VidCols]
sub dh,1
jnc .curxyok
xor dh,dh
jmp short .curxyok
;
; debug hack to print a character with minimal code impact
;
debug_tracer: pushad
pushfd
mov bp,sp
mov bx,[bp+9*4] ; Get return address
mov al,[cs:bx] ; Get data byte
inc word [bp+9*4] ; Return to after data byte
call writechr
popfd
popad
ret
;
; pollchar: check if we have an input character pending (ZF = 0)
;
pollchar:
pushad
mov ah,1 ; Poll keyboard
int 16h
jnz .done ; Keyboard response
mov dx,[SerialPort]
and dx,dx
jz .done ; No serial port -> no input
add dx,byte 5 ; DX -> LSR
in al,dx
test al,1 ; ZF = 0 if data pending
jz .done
inc dx ; DX -> MSR
mov ah,[FlowIgnore] ; Required status bits
in al,dx
and al,ah
cmp al,ah
setne al
dec al ; Set ZF = 0 if equal
.done: popad
ret
;
; getchar: Read a character from keyboard or serial port
;
getchar:
.again: mov ah,1 ; Poll keyboard
int 16h
jnz .kbd ; Keyboard input?
mov bx,[SerialPort]
and bx,bx
jz .again
lea dx,[bx+5] ; DX -> LSR
in al,dx
test al,1
jz .again
inc dx ; DX -> MSR
mov ah,[FlowIgnore]
in al,dx
and al,ah
cmp al,ah
jne .again
.serial: xor ah,ah ; Avoid confusion
xchg dx,bx ; Data port
in al,dx
ret
.kbd: xor ax,ax ; Get keyboard input
int 16h
and al,al
jz .func_key
mov bx,KbdMap ; Convert character sets
xlatb
.func_key: ret
;
; open,getc: Load a file a character at a time for parsing in a manner
; similar to the C library getc routine. Only one simultaneous
; use is supported. Note: "open" trashes the trackbuf.
;
; open: Input: filename in DS:DI
; Output: ZF set on file not found or zero length
;
; openfd: Input: file handle in SI
; Output: none
;
; getc: Output: CF set on end of file
; Character loaded in AL
;
open:
call searchdir
jz open_return
openfd:
pushf
mov [FBytes1],ax
mov [FBytes2],dx
add ax,[ClustSize]
adc dx,byte 0
sub ax,byte 1
sbb dx,byte 0
div word [ClustSize]
mov [FClust],ax ; Number of clusters
mov [FNextClust],si ; Cluster pointer
mov ax,[EndOfGetCBuf] ; Pointer at end of buffer ->
mov [FPtr],ax ; nothing loaded yet
popf ; Restore no ZF
open_return: ret
getc:
stc ; If we exit here -> EOF
mov ecx,[FBytes]
jecxz getc_ret
mov si,[FPtr]
cmp si,[EndOfGetCBuf]
jb getc_loaded
; Buffer empty -- load another set
mov cx,[FClust]
cmp cx,[BufSafe]
jna getc_oksize
mov cx,[BufSafe]
getc_oksize: sub [FClust],cx ; Reduce remaining clusters
mov si,[FNextClust]
push es ; ES may be != DS, save old ES
mov bx,ds
mov es,bx
mov bx,getcbuf
push bx
call getfssec ; Load a trackbuf full of data
mov [FNextClust],si ; Store new next pointer
pop si ; SI -> newly loaded data
pop es ; Restore ES
getc_loaded: lodsb ; Load a byte
mov [FPtr],si ; Update next byte pointer
dec dword [FBytes] ; Update bytes left counter
clc ; Not EOF
getc_ret: ret
;
; ungetc: Push a character (in AL) back into the getc buffer
; Note: if more than one byte is pushed back, this may cause
; bytes to be written below the getc buffer boundary. If there
; is a risk for this to occur, the getcbuf base address should
; be moved up.
;
ungetc:
mov si,[FPtr]
dec si
mov [si],al
mov [FPtr],si
inc dword [FBytes]
ret
;
; skipspace: Skip leading whitespace using "getc". If we hit end-of-line
; or end-of-file, return with carry set; ZF = true of EOF
; ZF = false for EOLN; otherwise CF = ZF = 0.
;
; Otherwise AL = first character after whitespace
;
skipspace:
skipspace_loop: call getc
jc skipspace_eof
cmp al,1Ah ; DOS EOF
je skipspace_eof
cmp al,0Ah
je skipspace_eoln
cmp al,' '
jbe skipspace_loop
ret ; CF = ZF = 0
skipspace_eof: cmp al,al ; Set ZF
stc ; Set CF
ret
skipspace_eoln: add al,0FFh ; Set CF, clear ZF
ret
;
; getkeyword: Get a keyword from the current "getc" file; only the two
; first characters are considered significant.
;
; Lines beginning with ASCII characters 33-47 are treated
; as comments and ignored; other lines are checked for
; validity by scanning through the keywd_table.
;
; The keyword and subsequent whitespace is skipped.
;
; On EOF, CF = 1; otherwise, CF = 0, AL:AH = lowercase char pair
;
getkeyword:
gkw_find: call skipspace
jz gkw_eof ; end of file
jc gkw_find ; end of line: try again
cmp al,'0'
jb gkw_skipline ; skip comment line
push ax
call getc
pop bx
jc gkw_eof
mov bh,al ; Move character pair into BL:BH
or bx,2020h ; Lower-case it
mov si,keywd_table
gkw_check: lodsw
and ax,ax
jz gkw_badline ; Bad keyword, write message
cmp ax,bx
jne gkw_check
push ax
gkw_skiprest:
call getc
jc gkw_eof_pop
cmp al,'0'
ja gkw_skiprest
call ungetc
call skipspace
jz gkw_eof_pop
jc gkw_missingpar ; Missing parameter after keyword
call ungetc ; Return character to buffer
clc ; Successful return
gkw_eof_pop: pop ax
gkw_eof: ret ; CF = 1 on all EOF conditions
gkw_missingpar: pop ax
mov si,err_noparm
call cwritestr
jmp gkw_find
gkw_badline_pop: pop ax
gkw_badline: mov si,err_badcfg
call cwritestr
jmp short gkw_find
gkw_skipline: cmp al,10 ; Scan for LF
je gkw_find
call getc
jc gkw_eof
jmp short gkw_skipline
;
; getint: Load an integer from the getc file.
; Return CF if error; otherwise return integer in EBX
;
getint:
mov di,NumBuf
gi_getnum: cmp di,NumBufEnd ; Last byte in NumBuf
jae gi_loaded
push di
call getc
pop di
jc gi_loaded
stosb
cmp al,'-'
jnb gi_getnum
call ungetc ; Unget non-numeric
gi_loaded: mov byte [di],0
mov si,NumBuf
; Fall through to parseint
;
; parseint: Convert an integer to a number in EBX
; Get characters from string in DS:SI
; Return CF on error
; DS:SI points to first character after number
;
; Syntaxes accepted: [-]dec, [-]0+oct, [-]0x+hex, val+K, val+M
;
parseint:
push eax
push ecx
push bp
xor eax,eax ; Current digit (keep eax == al)
mov ebx,eax ; Accumulator
mov ecx,ebx ; Base
xor bp,bp ; Used for negative flag
pi_begin: lodsb
cmp al,'-'
jne pi_not_minus
xor bp,1 ; Set unary minus flag
jmp short pi_begin
pi_not_minus:
cmp al,'0'
jb pi_err
je pi_octhex
cmp al,'9'
ja pi_err
mov cl,10 ; Base = decimal
jmp short pi_foundbase
pi_octhex:
lodsb
cmp al,'0'
jb pi_km ; Value is zero
or al,20h ; Downcase
cmp al,'x'
je pi_ishex
cmp al,'7'
ja pi_err
mov cl,8 ; Base = octal
jmp short pi_foundbase
pi_ishex:
mov al,'0' ; No numeric value accrued yet
mov cl,16 ; Base = hex
pi_foundbase:
call unhexchar
jc pi_km ; Not a (hex) digit
cmp al,cl
jae pi_km ; Invalid for base
imul ebx,ecx ; Multiply accumulated by base
add ebx,eax ; Add current digit
lodsb
jmp short pi_foundbase
pi_km:
dec si ; Back up to last non-numeric
lodsb
or al,20h
cmp al,'k'
je pi_isk
cmp al,'m'
je pi_ism
dec si ; Back up
pi_fini: and bp,bp
jz pi_ret ; CF=0!
neg ebx ; Value was negative
pi_done: clc
pi_ret: pop bp
pop ecx
pop eax
ret
pi_err: stc
jmp short pi_ret
pi_isk: shl ebx,10 ; x 2^10
jmp short pi_done
pi_ism: shl ebx,20 ; x 2^20
jmp short pi_done
;
; unhexchar: Convert a hexadecimal digit in AL to the equivalent number;
; return CF=1 if not a hex digit
;
unhexchar:
cmp al,'0'
jb uxc_ret ; If failure, CF == 1 already
cmp al,'9'
ja uxc_1
sub al,'0' ; CF <- 0
ret
uxc_1: or al,20h ; upper case -> lower case
cmp al,'a'
jb uxc_ret ; If failure, CF == 1 already
cmp al,'f'
ja uxc_err
sub al,'a'-10 ; CF <- 0
ret
uxc_err: stc
uxc_ret: ret
;
;
; getline: Get a command line, converting control characters to spaces
; and collapsing streches to one; a space is appended to the
; end of the string, unless the line is empty.
; The line is terminated by ^J, ^Z or EOF and is written
; to ES:DI. On return, DI points to first char after string.
; CF is set if we hit EOF.
;
getline:
call skipspace
mov dl,1 ; Empty line -> empty string.
jz gl_eof ; eof
jc gl_eoln ; eoln
call ungetc
gl_fillloop: push dx
push di
call getc
pop di
pop dx
jc gl_ret ; CF set!
cmp al,' '
jna gl_ctrl
xor dx,dx
gl_store: stosb
jmp short gl_fillloop
gl_ctrl: cmp al,10
je gl_ret ; CF clear!
cmp al,26
je gl_eof
and dl,dl
jnz gl_fillloop ; Ignore multiple spaces
mov al,' ' ; Ctrl -> space
inc dx
jmp short gl_store
gl_eoln: clc ; End of line is not end of file
jmp short gl_ret
gl_eof: stc
gl_ret: pushf ; We want the last char to be space!
and dl,dl
jnz gl_xret
mov al,' '
stosb
gl_xret: popf
ret
;
; mangle_name: Mangle a filename pointed to by DS:SI into a buffer pointed
; to by ES:DI; ends on encountering any whitespace.
;
; This verifies that a filename is < FILENAME_MAX characters,
; doesn't contain whitespace, zero-pads the output buffer,
; and removes trailing dots and redundant slashes,
; so "repe cmpsb" can do a compare, and the
; path-searching routine gets a bit of an easier job.
;
mangle_name:
push bx
xor ax,ax
mov cx,FILENAME_MAX-1
mov bx,di
.mn_loop:
lodsb
cmp al,' ' ; If control or space, end
jna .mn_end
cmp al,ah ; Repeated slash?
je .mn_skip
xor ah,ah
cmp al,'/'
jne .mn_ok
mov ah,al
.mn_ok stosb
.mn_skip: loop .mn_loop
.mn_end:
cmp bx,di ; At the beginning of the buffer?
jbe .mn_zero
cmp byte [di-1],'.' ; Terminal dot?
je .mn_kill
cmp byte [di-1],'/' ; Terminal slash?
jne .mn_zero
.mn_kill: dec di ; If so, remove it
inc cx
jmp short .mn_end
.mn_zero:
inc cx ; At least one null byte
xor ax,ax ; Zero-fill name
rep stosb
pop bx
ret ; Done
;
; unmangle_name: Does the opposite of mangle_name; converts a DOS-mangled
; filename to the conventional representation. This is needed
; for the BOOT_IMAGE= parameter for the kernel.
; NOTE: A 13-byte buffer is mandatory, even if the string is
; known to be shorter.
;
; DS:SI -> input mangled file name
; ES:DI -> output buffer
;
; On return, DI points to the first byte after the output name,
; which is set to a null byte.
;
unmangle_name: call strcpy
dec di ; Point to final null byte
ret
;
; getfssec: Get multiple clusters from a file, given the file pointer.
;
; On entry:
; ES:BX -> Buffer
; SI -> File pointer
; CX -> Cluster count; 0FFFFh = until end of file
; On exit:
; SI -> File pointer (or 0 on EOF)
; CF = 1 -> Hit EOF
;
getfssec:
TRACER 'F'
push ds
push cs
pop ds ; DS <- CS
cmp cx,[si+file_left]
jna .ok_size
mov cx,[si+file_left]
.ok_size:
mov bp,cx
push cx
push si
mov eax,[si+file_sector]
TRACER 'l'
call getlinsec
xor ecx,ecx
pop si
pop cx
add [si+file_sector],ecx
sub [si+file_left],ecx
ja .not_eof ; CF = 0
xor ecx,ecx
mov [si+file_sector],ecx ; Mark as unused
xor si,si
stc
.not_eof:
pop ds
TRACER 'f'
ret
; ----------------------------------------------------------------------------------
; VGA splash screen code
; ----------------------------------------------------------------------------------
;
; vgadisplayfile:
; Display a graphical splash screen.
;
; Input:
;
; SI = cluster/socket pointer
;
vgadisplayfile:
mov [VGACluster],si
push es
; This is a cheap and easy way to make sure the screen is
; cleared in case we were in graphics mode already
call vgaclearmode
call vgasetmode
jnz .error_nz
.graphalready:
mov ax,xfer_buf_seg ; Use as temporary storage
mov es,ax
mov fs,ax
call vgagetchunk ; Get the first chunk
; The header WILL be in the first chunk.
cmp dword [es:xbs_vgabuf],0x1413f33d ; Magic number
.error_nz: jne near .error
mov ax,[es:xbs_vgabuf+4]
mov [GraphXSize],ax
mov dx,xbs_vgabuf+8 ; Color map offset
mov ax,1012h ; Set RGB registers
xor bx,bx ; First register number
mov cx,16 ; 16 registers
int 10h
.movecursor:
mov ax,[es:xbs_vgabuf+6] ; Number of pixel rows
mov dx,[VGAFontSize]
add ax,dx
dec ax
div dl
xor dx,dx ; Set column to 0
cmp al,[VidRows]
jb .rowsok
mov al,[VidRows]
dec al
.rowsok:
mov dh,al
mov ah,2
xor bx,bx
int 10h ; Set cursor below image
mov cx,[es:xbs_vgabuf+6] ; Number of graphics rows
mov si,xbs_vgabuf+8+3*16 ; Beginning of pixel data
mov word [VGAPos],0
.drawpixelrow:
push cx
mov cx,[GraphXSize]
mov di,xbs_vgatmpbuf ; Row buffer
call rledecode ; Decode one row
push si
mov si,xbs_vgatmpbuf
mov di,si
add di,[GraphXSize]
mov cx,640/4
xor eax,eax
rep stosd ; Clear rest of row
mov di,0A000h ; VGA segment
mov es,di
mov di,[VGAPos]
mov bp,640
call packedpixel2vga
add word [VGAPos],byte 80 ; Advance to next pixel row
push fs
pop es
pop si
pop cx
loop .drawpixelrow
.error:
pop es
ret
;
; rledecode:
; Decode a pixel row in RLE16 format.
;
; FS:SI -> input
; CX -> pixel count
; ES:DI -> output (packed pixel)
;
rledecode:
shl esi,1 ; Nybble pointer
xor dl,dl ; Last pixel
.loop:
call .getnybble
cmp al,dl
je .run ; Start of run sequence
stosb
mov dl,al
dec cx
jnz .loop
.done:
shr esi,1
adc si,byte 0
ret
.run:
xor bx,bx
call .getnybble
and al,al
jz .longrun
mov bl,al
.dorun:
push cx
mov cx,bx
mov al,dl
rep stosb
pop cx
sub cx,bx
ja .loop
jmp short .done
.longrun:
call .getnybble
mov ah,al
call .getnybble
shl al,4
or al,ah
mov bl,al
add bx,16
jmp short .dorun
.getnybble:
shr esi,1
fs lodsb
jc .high
dec si
and al,0Fh
stc
rcl esi,1
ret
.high:
shr al,4
cmp si,xbs_vgabuf+trackbufsize ; Chunk overrun
jb .nonewchunk
call vgagetchunk
mov si,xbs_vgabuf ; Start at beginning of buffer
.nonewchunk:
shl esi,1
ret
;
; vgagetchunk:
; Get a new trackbufsize chunk of VGA image data
;
; On input, ES is assumed to point to the buffer segment.
;
vgagetchunk:
pushad
mov si,[VGACluster]
and si,si
jz .eof ; EOF overrun, not much to do...
mov cx,[BufSafe] ; One trackbuf worth of data
mov bx,xbs_vgabuf
call getfssec
jnc .noteof
xor si,si
.noteof: mov [VGACluster],si
.eof: popad
ret
;
; packedpixel2vga:
; Convert packed-pixel to VGA bitplanes
;
; FS:SI -> packed pixel string
; BP -> pixel count (multiple of 8)
; ES:DI -> output
;
packedpixel2vga:
mov dx,3C4h ; VGA Sequencer Register select port
mov al,2 ; Sequencer mask
out dx,al ; Select the sequencer mask
inc dx ; VGA Sequencer Register data port
mov al,1
mov bl,al
.planeloop:
pusha
out dx,al
.loop1:
mov cx,8
.loop2:
xchg cx,bx
fs lodsb
shr al,cl
rcl ch,1 ; VGA is bigendian. Sigh.
xchg cx,bx
loop .loop2
mov al,bh
stosb
sub bp,byte 8
ja .loop1
popa
inc bl
shl al,1
cmp bl,4
jbe .planeloop
ret
;
; vgasetmode:
; Enable VGA graphics, if possible; return ZF=1 on success
; DS must be set to the base segment; ES is set to DS.
;
vgasetmode:
push ds
pop es
mov ax,1A00h ; Get video card and monitor
xor bx,bx
int 10h
cmp bl, 8 ; If not VGA card/VGA monitor, give up
jne .error ; ZF=0
; mov bx,TextColorReg
; mov dx,1009h ; Read color registers
; int 10h
mov ax,0012h ; Set mode = 640x480 VGA 16 colors
int 10h
mov dx,linear_color
mov ax,1002h ; Write color registers
int 10h
mov [UsingVGA], byte 1
call use_font ; Set graphics font/data
mov byte [ScrollAttribute], 00h
xor ax,ax ; Set ZF
.error:
ret
;
; vgaclearmode:
; Disable VGA graphics. It is not safe to assume any value
; for DS or ES.
;
vgaclearmode:
push ds
push es
pushad
mov ax,cs
mov ds,ax
mov es,ax
cmp [UsingVGA], byte 1
jne .done
mov ax,0003h ; Return to normal video mode
int 10h
; mov dx,TextColorReg ; Restore color registers
; mov ax,1002h
; int 10h
mov [UsingVGA], byte 0
call use_font ; Restore text font/data
mov byte [ScrollAttribute], 07h
.done:
popad
pop es
pop ds
ret
;
; vgashowcursor/vgahidecursor:
; If VGA graphics is enabled, draw a cursor/clear a cursor
;
vgashowcursor:
pushad
mov al,'_'
jmp short vgacursorcommon
vgahidecursor:
pushad
mov al,' '
vgacursorcommon:
cmp [UsingVGA], byte 1
jne .done
mov ah,09h
mov bx,0007h
mov cx,1
int 10h
.done:
popad
ret
; Map colors to consecutive DAC registers
linear_color db 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 0
UsingVGA db 0
; ----------------------------------------------------------------------------------
; Begin data section
; ----------------------------------------------------------------------------------
CR equ 13 ; Carriage Return
LF equ 10 ; Line Feed
FF equ 12 ; Form Feed
BS equ 8 ; Backspace
boot_prompt db 'boot: ', 0
wipe_char db BS, ' ', BS, 0
err_notfound db 'Could not find kernel image: ',0
err_notkernel db CR, LF, 'Invalid or corrupt kernel image.', CR, LF, 0
err_not386 db 'It appears your computer uses a 286 or lower CPU.'
db CR, LF
db 'You cannot run Linux unless you have a 386 or higher CPU'
db CR, LF
db 'in your machine. If you get this message in error, hold'
db CR, LF
db 'down the Ctrl key while booting, and I will take your'
db CR, LF
db 'word for it.', CR, LF, 0
err_noram db 'It appears your computer has less than 384K of low ("DOS")'
db 0Dh, 0Ah
db 'RAM. Linux needs at least this amount to boot. If you get'
db 0Dh, 0Ah
db 'this message in error, hold down the Ctrl key while'
db 0Dh, 0Ah
db 'booting, and I will take your word for it.', 0Dh, 0Ah, 0
err_badcfg db 'Unknown keyword in config file.', CR, LF, 0
err_noparm db 'Missing parameter in config file.', CR, LF, 0
err_noinitrd db CR, LF, 'Could not find ramdisk image: ', 0
err_nohighmem db 'Not enough memory to load specified kernel.', CR, LF, 0
err_highload db CR, LF, 'Kernel transfer failure.', CR, LF, 0
err_oldkernel db 'Cannot load a ramdisk with an old kernel image.'
db CR, LF, 0
err_notdos db ': attempted DOS system call', CR, LF, 0
err_comlarge db 'COMBOOT image too large.', CR, LF, 0
err_bootsec db 'Invalid or corrupt boot sector image.', CR, LF, 0
err_a20 db CR, LF, 'A20 gate not responding!', CR, LF, 0
notfound_msg db 'not found', CR, LF, 0
localboot_msg db 'Booting from local disk...', CR, LF, 0
cmdline_msg db 'Command line: ', CR, LF, 0
ready_msg db ' ready.', CR, LF, 0
trying_msg db 'Trying to load: ', 0
loading_msg db 'Loading ', 0
dotdot_msg db '.'
dot_msg db '.', 0
fourbs_msg db BS, BS, BS, BS, 0
aborted_msg db ' aborted.' ; Fall through to crlf_msg!
crff_msg db CR, FF, 0
default_str db 'default', 0
default_len equ ($-default_str)
isolinux_dir db '/isolinux', 0
isolinux_cfg db 'isolinux.cfg', 0
err_disk_image db 'Cannot load disk image (invalid file)?', CR, LF, 0
%ifdef DEBUG_MESSAGES
dbg_rootdir_msg db 'Root directory at LBA = ', 0
dbg_isodir_msg db 'isolinux directory at LBA = ', 0
dbg_config_msg db 'About to load config file...', CR, LF, 0
dbg_configok_msg db 'Configuration file opened...', CR, LF, 0
%endif
;
; Command line options we'd like to take a look at
;
; mem= and vga= are handled as normal 32-bit integer values
initrd_cmd db 'initrd='
initrd_cmd_len equ 7
;
; Config file keyword table
;
align 2, db 0
keywd_table db 'ap' ; append
db 'de' ; default
db 'ti' ; timeout
db 'fo' ; font
db 'kb' ; kbd
db 'di' ; display
db 'pr' ; prompt
db 'la' ; label
db 'im' ; implicit
db 'ke' ; kernel
db 'se' ; serial
db 'sa' ; say
db 'f1' ; F1
db 'f2' ; F2
db 'f3' ; F3
db 'f4' ; F4
db 'f5' ; F5
db 'f6' ; F6
db 'f7' ; F7
db 'f8' ; F8
db 'f9' ; F9
db 'f0' ; F10
; PXELINUX specific options...
db 'ip' ; ipappend
db 'lo' ; localboot
dw 0
;
; Extensions to search for (in *forward* order).
;
align 4, db 0
exten_table: db '.cbt' ; COMBOOT (specific)
db '.img' ; Disk image
db '.com' ; COMBOOT (same as DOS)
exten_table_end:
dd 0, 0 ; Need 8 null bytes here
;
; Floppy image table
;
align 4, db 0
img_table_count equ 3
img_table:
dd 1200*1024 ; 1200K floppy
db 1 ; Emulation type
db 80-1 ; Max cylinder
db 15 ; Max sector
db 2-1 ; Max head
dd 1440*1024 ; 1440K floppy
db 2 ; Emulation type
db 80-1 ; Max cylinder
db 18 ; Max sector
db 2-1 ; Max head
dd 2880*1024 ; 2880K floppy
db 3 ; Emulation type
db 80-1 ; Max cylinder
db 36 ; Max sector
db 2-1 ; Max head
;
; Misc initialized (data) variables
;
AppendLen dw 0 ; Bytes in append= command
KbdTimeOut dw 0 ; Keyboard timeout (if any)
FKeyMap dw 0 ; Bitmap for F-keys loaded
CmdLinePtr dw cmd_line_here ; Command line advancing pointer
initrd_flag equ $
initrd_ptr dw 0 ; Initial ramdisk pointer/flag
VKernelCtr dw 0 ; Number of registered vkernels
ForcePrompt dw 0 ; Force prompt
AllowImplicit dw 1 ; Allow implicit kernels
SerialPort dw 0 ; Serial port base (or 0 for no serial port)
NextSocket dw 49152 ; Counter for allocating socket numbers
A20List dw a20_dunno, a20_none, a20_bios, a20_kbc, a20_fast
A20DList dw a20d_dunno, a20d_none, a20d_bios, a20d_kbc, a20d_fast
A20Type dw A20_DUNNO ; A20 type unknown
VGAFontSize dw 16 ; Defaults to 16 byte font
UserFont db 0 ; Using a user-specified font
ScrollAttribute db 07h ; White on black (for text mode)
;
; Variables that are uninitialized in SYSLINUX but initialized here
;
; **** ISOLINUX:: We may have to make this flexible, based on what the
; **** BIOS expects our "sector size" to be.
;
alignb 4, db 0
ClustSize dd SECTORSIZE ; Bytes/cluster
ClustPerMoby dd 65536/SECTORSIZE ; Clusters per 64K
SecPerClust dw 1 ; Same as bsSecPerClust, but a word
BufSafe dw trackbufsize/SECTORSIZE ; Clusters we can load into trackbuf
BufSafeSec dw trackbufsize/SECTORSIZE ; = how many sectors?
BufSafeBytes dw trackbufsize ; = how many bytes?
EndOfGetCBuf dw getcbuf+trackbufsize ; = getcbuf+BufSafeBytes
%if ( trackbufsize % SECTORSIZE ) != 0
%error trackbufsize must be a multiple of SECTORSIZE
%endif
;
; Stuff for the command line; we do some trickery here with equ to avoid
; tons of zeros appended to our file and wasting space
;
linuxauto_cmd db 'linux auto',0
linuxauto_len equ $-linuxauto_cmd
boot_image db 'BOOT_IMAGE='
boot_image_len equ $-boot_image
align 4, db 0 ; For the good of REP MOVSD
command_line equ $
default_cmd equ $+(max_cmd_len+2)
ldlinux_end equ default_cmd+(max_cmd_len+1)
kern_cmd_len equ ldlinux_end-command_line
;
; Put the getcbuf right after the code, aligned on a sector boundary
;
end_of_code equ (ldlinux_end-bootsec)+7C00h
getcbuf equ (end_of_code + 511) & 0FE00h
; VGA font buffer at the end of memory (so loading a font works even
; in graphics mode.)
vgafontbuf equ 0E000h
; This is a compile-time assert that we didn't run out of space
%if (getcbuf+trackbufsize) > vgafontbuf
%error "Out of memory, better reorganize something..."
%endif
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