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|
;
; This boot sector was based on VnutZ's example available online
; at http://www.geocities.com/mvea/bootstrap.htm. It also made use
; of info at http://support.microsoft.com/support/kb/articles/Q140/4/18.asp
; and the source code for geekos.
;
; It searches the root directory of a floppy for two files: boot.com and
; kernel.bin. If either is missing the boot fails. If they are found, they
; are loaded into memory at BOOT1SEG:BOOT1OFF and KERNSEG:KERNOFF. Then
; control is passed to the next stage bootloader, boot.com.
;
%include "../inc/defs.asm"
[BITS 16]
[ORG 0]
START:
jmp AROUND_DATA
szOEM_ID db "SCOTTOS", 0 ; 8 bytes, null not required
wBytesPerSector dw 0x0200 ; bytes per sector
bSectorsPerCluster db 0x01 ; sectors per cluster
wReservedSectors dw 0x0001 ; reserved sectors (boot sector)
bTotalFATs db 0x02 ; num copies of the FAT
wMaxRootEntries dw 0x00E0 ; max num entries in root directory
wTotalSectorsSmall dw 0x0B40 ;
bMediaDescriptor db 0xF0 ;
wSectorsPerFAT dw 0x0009 ; length of single FAT copy in sectors
wSectorsPerTrack dw 0x0012 ; sectors per track
wNumHeads dw 0x0002 ; num heads
dwHiddenSectors dd 0x00000000 ; num hidden sectors
dwTotalSectorsLarge dd 0x00000000 ;
bDriveNumber db 0x00 ; 0x00=A: 0x01=B: 0x80=C: ...
bFlags db 0x00 ;
bSignature db 0x29 ;
dwVolumeID dd 0xFFFFFFFF ;
szVolumeLabel db "SCOTT BOOT", 0 ; 11 bytes, null not required
szSystemID db "FAT12 " ;
AROUND_DATA:
;;; setup segment registers, this code is located at 7C00:0000
mov dx, BOOT0SEG ; 7C00
mov ds, dx
mov es, dx
;;; create a temporary stack at the top of segment 7C00
mov ss, dx
mov sp, 0xFFFF ; top of this segment
LOAD_ROOT_DIRECTORY:
;;;
;;; Compute the length (in number of disk sectors) of the floppy's
;;; root directory information:
;;;
;;; wNumRootDirectorySectors = sizeof(directory_entry) *
;;; wMaxRootEntries / wBytesPerSector
;;;
;;; Store this in cx and in the wNumRootDirectorySectors identifier.
;;;
mov ax, 0x0020 ; sizeof(directory_entry)
mul WORD [wMaxRootEntries]
div WORD [wBytesPerSector]
mov cx, ax ; count of num sectors to read for dir
;;;
;;; Compute the starting location of the root directory (sector number):
;;;
;;; wRootDirectoryStartSector = wReservedSectors +
;;; (bTotalFATs * wSectorsPerFAT)
;;;
mov al, BYTE [bTotalFATs]
mul WORD [wSectorsPerFAT]
add ax, WORD [wReservedSectors]
;;;
;;; Compute the first sector after the root directory -- this is the
;;; sector where real data starts on the floppy.
;;;
mov WORD [wDriveDataStartSector], ax
add WORD [wDriveDataStartSector], cx
;;;
;;; Read the floppy's root directory into memory at BOOT0SEG:0200 by
;;; calling ReadSectors. This function reads cx count (wNumRootDirSectors)
;;; starting at sector ax (wRootDirStartSector) into memory at es:bx
;;;
mov bx, 0x0200
call ReadSectors
SEARCH_ROOT_DIRECTORY:
;;;
;;; Search the root directory for the stage two loader and the kernel.
;;;
mov cx, WORD [wMaxRootEntries]
mov di, 0x0200 ; offset of first directory entry
.LOOP:
push cx ; save current entry count
mov cx, 0x000B ; 11 char name
mov si, szStage2Image ; name we are seeking
push di ; save current entry ptr
rep cmpsb ; test for match
pop di ; restore entry ptr
jne .TRY_KERN ; match? if not see if it matches the kernel
mov dx, WORD [di+1Ah] ; match. save the starting cluster
mov WORD [wStage2Cluster], dx
.TRY_KERN:
mov cx, 0x000B ; 11 char name
mov si, szKernelImage ; name we are seeking
push di ; save current entry ptr
rep cmpsb ; test for match
pop di ; restore entry ptr
jne .NEXT ; match? if not next entry
mov dx, WORD [di+1Ah] ; match. save the starting cluster
mov WORD [wKernelCluster], dx
.NEXT:
pop cx ; cx = entry count again
add di, 0x0020 ; next directory entry (+32 bytes later)
loop .LOOP ; cx -= 1, jmp .LOOP if cx != 0
.DONE:
;;;
;;; Did we find both the kernel and the second stage boot loader? If not
;;; give them a "missing operating system" message.
;;;
mov ax, [wStage2Cluster]
test ax, 0xFFFF
jz .NOOS
mov ax, [wKernelCluster]
test ax, 0xFFFF
jnz LOAD_FAT
.NOOS:
mov si, szNoOperatingSystem
call Write
FAIL: mov ah, 0x00 ; wait for a keystroke and reboot
int 0x16
int 0x19
LOAD_FAT:
;;;
;;; Prepare the load the FAT into memory. Compute the size of the FAT (in
;;; number of sectors) and store in cx for a call to ReadSectors.
;;;
xor ax, ax
mov al, BYTE [bTotalFATs]
mul WORD [wSectorsPerFAT]
mov cx, ax
;;;
;;; Compute location of FAT and store in ax
;;;
mov ax, WORD [wReservedSectors]
;;;
;;; Read the FAT into memory at BOOT0SEG:0200. This overwrites the root
;;; directory information but we already have the cluster number for the
;;; stage two boot loader and the kernel.
;;;
mov bx, 0x0200
call ReadSectors
;;;
;;; Prepare to read the stage two boot loader into memory at
;;; BOOT1SEG:BOOT1OFF
;;;
;; point es:bx at where we want the stage two loader read into memory
mov ax, BOOT1SEG
mov es, ax ; destination for image
mov bx, BOOT1OFF ; destination for image
;; use the starting cluster we found by reading the directory
mov ax, WORD [wStage2Cluster]
mov WORD [wCluster], ax
;; call LOAD_IMAGE to read in the file
call LOAD_IMAGE
;;;
;;; Prepare to read the kernel into memory at KERNSEG:KERNOFF
;;;
;; point es:bx at where we want the kernel read into memory
mov ax, KERNSEG
mov es, ax
mov bx, KERNOFF
;; use the starting cluster we found by reading the directory
mov ax, WORD [wKernelCluster]
mov WORD [wCluster], ax
;; call LOAD_IMAGE to read in the file
call LOAD_IMAGE
DONE:
;;;
;;; We're done, transfer control to the second stage loader which we
;;; put at BOOT1SEG:BOOT1OFF.
;;;
push WORD BOOT1SEG
push WORD BOOT1OFF
retf
;; *************************************************************************
;; PROCEDURE ClusterLBA
;; convert FAT cluster into LBA addressing scheme
;; LBA = (cluster - 2) * sectors per cluster
;; *************************************************************************
ClusterLBA:
sub ax, 0x0002 ; cluster number is zero-based
xor cx, cx
mov cl, BYTE [bSectorsPerCluster]; convert byte to word
mul cx
add ax, WORD [wDriveDataStartSector]; base data sector
ret
;;; *************************************************************************
;;; PROCEDURE LBACHS
;;;
;;; convert ax LBA addressing scheme to CHS addressing scheme using these
;;; formulas:
;;;
;;; absolute sector = (logical sector / sectors per track) + 1
;;; absolute head = (logical sector / sectors per track) MOD number of heads
;;; absolute track = logical sector / (sectors per track * number of heads)
;;; *************************************************************************
LBACHS:
xor dx, dx
div WORD [wSectorsPerTrack]
inc dl ; adjust for sector 0
mov BYTE [bAbsoluteSector], dl
xor dx, dx ; prepare dx:ax for operation
div WORD [wNumHeads]
mov BYTE [bAbsoluteHead], dl
mov BYTE [bAbsoluteTrack], al
ret
;;; *************************************************************************
;;; PROCEDURE ReadSectors
;;;
;;; reads disk sectors ax..ax+cx from the disk into memory at es:bx
;;;
;;; *************************************************************************
ReadSectors:
.MAIN
mov di, 5 ; five retries for disk errors
.SECTORLOOP
push ax
push bx
push cx
call LBACHS ; convert LBA sector in ax into absolute CHT
mov ah, 0x02 ; BIOS read sector
mov al, 0x01 ; read one sector
mov ch, BYTE [bAbsoluteTrack]
mov cl, BYTE [bAbsoluteSector]
mov dh, BYTE [bAbsoluteHead]
mov dl, BYTE [bDriveNumber]
int 0x13
jnc .SUCCESS ; CF=1 on read error
;; read error, reset the disk and try again
xor ax, ax ; BIOS reset disk
int 0x13
dec di ; error counter -= 1
pop cx ; restore registers
pop bx
pop ax
jnz .SECTORLOOP ; if error counter != 0, try to read again
;; give up
mov si, szReadError
call Write
jmp FAIL
;; sector read succeeded
.SUCCESS
pop cx ; restore registers
pop bx
pop ax
inc ax ; next sector
;;; bx += wBytesPerSector
add bx, WORD [wBytesPerSector]
loop .MAIN ; cx -= 1, jmp .MAIN if cx != 0
ret
;;; *************************************************************************
;;; PROCEDURE Write
;;;
;;; display ASCIIZ string at ds:si via BIOS
;;; *************************************************************************
Write:
cld ; make sure direction flag is correct
lodsb ; load char to al, increment si
or al, al ; see if it's null
jz .DONE ; if so, we're finished
mov ah, 0x0E ; service 0x0E: output one char
mov bh, 0x00 ; display page 0
mov bl, 0x07 ; char text attrib (white on black)
int 0x10 ; invoke bios
jmp Write ; next char
.DONE:
ret
LOAD_IMAGE:
mov ax, WORD [wCluster] ; cluster to read
call ClusterLBA ; convert cluster to LBA
xor cx, cx
mov cl, BYTE [bSectorsPerCluster]
call ReadSectors ; this increments bx
;; compute next cluster
mov ax, WORD [wCluster] ; identify current cluster
mov cx, ax ; copy current cluster
mov dx, ax ; copy current cluster
shr dx, 0x0001 ; dx = wCluster / 2
add cx, dx ; cx = wCluster + (wCluster / 2)
push bx
mov bx, 0x0200 ; location of FAT in memory
add bx, cx ; index into FAT
mov dx, WORD [bx] ; read two bytes from FAT
pop bx
test ax, 0x0001 ; is the cluster even or odd?
jnz .ODD
.EVEN:
and dx, 0x0FFF ; take low twelve bits
jmp .DONE
.ODD:
shr dx, 0x0004 ; take high twelve bits
.DONE:
mov WORD [wCluster], dx ; store new cluster
cmp dx, 0x0FF0 ; test for end of file
jb LOAD_IMAGE ; if not, go get the next one
ret
wDriveDataStartSector dw 0x0000
szStage2Image db "BOOT COM", 0
wStage2Cluster dw 0x0000
szKernelImage db "KERNEL BIN", 0
wKernelCluster dw 0x0000
szNoOperatingSystem db "Missing OS File", 13, 10, 0
szReadError db "Disk read error", 13, 10, 0
wCluster dw 0x0000
bAbsoluteSector db 0x00
bAbsoluteHead db 0x00
bAbsoluteTrack db 0x00
szProgress db ".", 0
TIMES 510-($-$$) DB 0 ; 0 padding
DW 0xAA55 ; bootsector signature
|