•How are the sectors iterated through?
To iterate over many sectors using CHS CylinderHeadSector notation, we
first have to retrieve the actual limits on these parameters. BIOS has function
int 13h that gives us the maximum values as well as some extra
info that we don't need for now.
The sector number in CL ranges from 1 to 63.
The head number in DH ranges from 0 to 255, although 255 is seldom used.
The cylinder number in CL ranges from 0 to 1023. Since this cannot be held in
a single byte, the 2 highest bits of this 10-bit number are stored in bits 6
and 7 of the CL register!
How the iteration works
Think of the CHS notation as if it were some kind of number where C is the
most significant part and S is the least significant part.
To get to the next sector on the disk we start our incrementation of this
number at its least significant end.
If by incrementing the S part we overflow its range, we reset it to its
smallest value (1) and start incrementing the next more significant part which
is H in this case.
If by incrementing the H part we overflow its range, we reset it to its
smallest value (0) and start incrementing the most significant part which
is C in this case.
If by incrementing the C part we overflow its range, we reset it to its
smallest value (0). This will make for a wraparound on the disk. If on input
a correct SectorCount was given then normally at this point reading will have
; INPUT: DL=Drive
; OUTPUT: CF=0 AH = 0
; CH,DH,CL = CHS of following sector
; CF=1 AH = Error status
; CH,DH,CL = CHS of problem sector
mov bp,sp ;Local variables:
push ax ;[bp-2]=SectorCount
push cx ;[bp-4]=MaxSector
push dx ;[bp-6]=MaxHead
push bx ;[bp-8]=MaxCylinder
int 13h ;ReturnDiskDriveParameters
mov bx,cx ;10-bit cylinder info -> BX
xchg [bp-8],bx ;Store MaxCylinder and get input BX back
movzx dx,dh ;8-bit head info -> DX
xchg [bp-6],dx ;Store MaxHead and get input DX back
and cx,003Fh ;6-bit sector info -> CX
xchg [bp-4],cx ;Store MaxSector and get input CX back
mov di,5 ;Max 5 tries per sector
mov ax,0201h ;Read 1 sector
int 13h ;ReadDiskSectors
push ax ;Save error status byte in AH
int 13h ;ResetDiskSystem
dec word ptr [bp-2] ;SectorCount
mov ax,es ;Move buffer 512 bytes up
call NextCHS ;Return useful CHS values to support reads
xor ah,ah ; -> CF=0 ... that are longer than memory
mov al,cl ;Calculate the 6-bit sector number
cmp al,[bp-4] ;MaxSector
cmp dh,[bp-6] ;MaxHead
mov ax,cx ;Calculate the 10-bit cylinder number
cmp ax,[bp-8] ;MaxCylinder
mov cx,1 ;Wraparound to very first sector on disk
shl ah,6 ;Split 10-bit cylinder number over CL and CH
A note on sector size
Although it's perfectly alright to have sectors that are not 512 bytes in
length, it's a save assumption that they will be that size.
After decades of programming I've never seen any disk that hadn't 512-byte
If you insisted on supporting different sizes, you can look at the 4th byte
of the DisketteParameterTable for which you recieved a pointer in ES:DI from
the BIOS function ReturnDiskDriveParameters.
•How does iteration differ between emulation and direct execution?
I suppose that by direct execution you understand real hardware.
For real hardware BIOS will return you the geometry in CHS notation and the sectors exist ... well just because they are real!
Under emulation the emulator will do its best to also provide you will these geometry values but it will be up to you to make sure that enough sectors exist on the concerned drive. This is exactly what @Jester said when he asked you: "Do you even have that sector in the image file?" You resolved this issue by enlarging the image file using
times 0xFFFF db 0x00
Some extra advice
You didn't setup the stack. Since you load your kernel above the bootsector at 7C00h, I suggest you initialize SS:SP to 0000h:7C00h for a stack beneath the bootsector.
xor ax, ax
mov ds, ax
mov es, ax
mov ss, ax
mov sp, 7C00h
As @Fifoernik commented you would better put the
jmp halt before the
yay db "kernel", CR, LF, NUL to prevent the execution of this data!
yay db "kernel", CR, LF, NUL