# How do I do assembly language encrypt/decrypt programming?

This is an encryption routine to encrypt a character:

Can anybody shine some light on the decryption routine?

-
Would it be possible for you to tell us more details on the parameters? What values do EAX and ECX contain, which of them contains the character to encode? – Kosi2801 Mar 30 '11 at 9:23
I think I came late, but.. what was the question? – BlackBear Apr 5 '11 at 20:36

This is the first block that we can decrypt :

``````xor eax,edx
xor eax,ecx
rol al,1
``````

That is because the values are poped from stack. This is reversible like :

``````ror al,1
xor eax, ecx (eax = the one we had in the end)
xor eax, edx
``````

Then edx = eax (mov edx,eax). And now :

``````dec eax
rol eax, 1
rol eax, 1
``````

and the last AND cannot be reversed because :

``````? AND 0 = 0
? AND 1 = 1  => ? = 1
? AND 1 = 0  => ? = 0
``````

? can not be identified UNLESS there is no ? AND 0 = 0 combination.

-
Sure? The original values are preserved with the PUSHes and re-introduced later with the POPs... The part with the AND looks to me somehow if it's calculating a "key" for the encryption. – Kosi2801 Mar 30 '11 at 8:56
editing my answer for more detail – Spyros Mar 30 '11 at 9:01
Thought about it a bit more. Could it be, that eax contains the encryption key and ecx is the character to encode? I did not have the time yet to verify but do you think it would be possible to re-calculate the ecx if eax is given on the decryption? – Kosi2801 Mar 30 '11 at 9:22
ecx is most probably a given attribute, probably the key. eax seems to be the ch code. Still, i don't see how AND can be reversed. – Spyros Mar 30 '11 at 9:27
but if ecx is the character code, reversing is very easy, since ecx is popped in the very end. But i don't think that's the case. – Spyros Mar 30 '11 at 9:29

Let's see: In order to decrypt the message we want to reverse the encryption procedure, so let's start at the end of the method:

the last part of the transformation is `rol al, 1`. This we can reverse as `ror al, 1`.

The rest of the encryption consists of two xors, one of the message and with a modified key and one with the immediate result and the original key. Since xor is self inverting we can reverse this by xoring the encrypted message once with the original key and once with the modified key (using the same key modification function).

All in all the follwing should reverse the encryption:

``````decrypt: ror cl,1 //reverse rol al, 1
xor ecx, eax //reverse xor message, original key
and eax,0x3C //calculate modified key
ror eax,1
ror eax,1
inc eax      //end calculate modified key
xor eax, ecx //reverse xor message modified key
ret
``````
-

Without the `ROL` the encryption decryption could have been used for decryption, too. Assuming the encrypted character is in `ecx` and the key in `eax`, it only needs a small modification:

``````  decrypt5:
push eax
push ecx
``````

This part generates an internal key in `edx` from the input key in `eax`:

``````      and eax,0x3C
ror eax,1
ror eax,1
inc eax
mov edx,eax
``````

Pop the input character from `ecx` into `eax`:

``````      pop eax
``````

Reverse the `ROL AL,1`:

``````      ror al,1
``````

Undo the XOR-ing. XOR is an involution, that is it is its own inverse. It is also commutative, so the order doesn't matter:

``````      xor eax,edx
``````

Pop the input key from `eax` into `ecx` and XOR:

``````      pop ecx
xor eax,ecx

ret
``````

I hope is correct, my x86 assembly is rather rusty.

Note that it is a bit of a stretch to call this encryption. It is so weak I'd rather call it obfuscation.

-