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Huo Encryption / Decryption Assembly Program

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20 Sep 2012CPOL7 min read 60.8K   2.4K   24   8
x8086 assembly program that encrypts/decrypts text input from the keyboard by using basic assembly language ideas
HuoEncryptionDecryption/Huo_Codec_1.jpg

Introduction

Assembly language is a programming language which allows you to communicate with the computer at a more fundamental level. The purpose of this article is to present a small project in Assembly for encrypting / decrypting text. This is not an in depth manual of assembly in any way. Only the more fundamental aspects of assembly will be discussed briefly here.

This project will present the use of very basic assembly instructions for 8/16 bit processors. The programs shown here are a twin set of encryption / decryption programs. The user just writes and the Huo11.exe program encrypts what he writes instantly. The user can use the decryption program (Huo12.exe) to do the opposite (decrypt the encrypted message). Pressing ‘q’ terminates the program.

Why should you read this? Well, there is an old Buddhist proverb saying "When the student is ready, the master appears". I am no master. And if you are not willing to be a student, then just go away and read something else. Graphics and sound are usually much more interesting...

Prerequisites

In order to be able to use this program, you will need:

  • NASM Assembler which can be downloaded from http://www.nasm.us/.
  • ALINK Linker which can be downloaded from http://alink.sourceforge.net/.
  • A simple text editor (e.g. Notepad) to write your program.
  • A DOS emulator for your hyper-modern computer (which can do a lot of things, but does not allow you to do a lot of things on your own...) 

Note that for recent Windows versions, you might need a DOS emulator to be able to run these programs. A good such emulator is DoxBox, which can be downloaded from http://www.dosbox.com/. See the picture in the beginning of the article to see how you can mount a drive to DosBox and start NASM in cmd. 

Distribution

You can download the following from here:

  • The code for the “Encryption” program (Huo11.asm) and the final executable (Huo11.exe)
  • The code for the “Decryption” program (Huo12.asm) and the final executable (Huo12.exe)
  • The ALINK Linker and NASM16 Assembler which I used to compile and link the programs (along with manuals)

A Brief Introduction to Assembly

In order to control a computer, you have to control its memory. Its circuits are where the infamous 0s and 1s are stored and if you change them, you change the way the computer “thinks”. Memory in computers is stored in a specific way. Learn that way and you will know how to program. How to do that? Simple! Read the manual. It may sound like stupid advice, but it is not. Each processor has its own way of storing the data into its memory and its own memory schema. You just have to read the manufacturer’s manual in order to learn it.

What I will describe here is how memory was organized in the old DOS era for the 8086 processors. Why is that useful? Because it does not matter how memory is ACTUALLY organized. Technologies change every day! The main thing one has to learn is to be adaptable in that world of changes. Learn the memory model of a x8086 processor and you will have no trouble learning the memory model of a x80386 processor. Do that and going into Windows 7 / Pentium era will be no problem either. The key is not learning by heart how things work now, since tomorrow they will work in a different way. The key is to learn how to not be afraid to learn new things.

Memory Segments

Memory of an 8086/8088 processor was organized in great segments. Inside those segments, smaller sections existed. So in order to refer to a specific section of the memory, all you had to do was write down the “address” of the great segment and the displacement inside that segment so as to get to the specific section you want.

A memory address was in the form of TTTT:MMMM, where TTTT is the section and MMMM the displacement inside that section.

Registers

Some important sections of the memory had names. Those special places are called Registers. The main registers for 8086/8088 processors family are:

Registers set for 8086/8088 processors

Name Category Purpose
AX General purpose Accumulator
BX General purpose Base
CX General purpose Counter
DX General purpose Data
SI Index Source index
DI Index Ευρετήριο προορισμού
SP Stack Stack pointer
BP Stack Base pointer
CS Section Code section
DS Section Data Section
SS Section Stack section
ES Section Extra section
IP Instruction pointer
FLAGS Function flags

You can move data into those registers (i.e. the section segments that those registers represent), with the move command. For example, the command...

ASM
mov DS, AX 

...moves the data which reside into the AX memory section into the DS section.

These registers can be used to perform specific things. For example:

  • DS register points to the data section of the program. If we load in the DS register, the section of our program’s data (e.g. with the commands mov ax,data and mov ds,ax) and in the register DX, we load the displacement of a specific data element (variable) of our data (e.g. a variable named help with a command like mov dx,hello), then the address DS:DX points to the specific memory address of the hello variable.

Another important section of memory is the Stack. In that section, you can push data or pop them out in order to use them again.

Interrupts

The operating system of DOS or the BIOS had some specific commands which were called interrupts and could be called with the… (surprise surprise) INT command!

For example, the command...

ASM
INT 21h

...tells the program to look at the value stored in the AH register to see what it will do.

In order to print a text message to the screen, you have to use the commands in bold in the section that follows:

Segment code 

start:
mov ax,data
mov ds,ax
mov ax,stack
mov ss,ax
mov sp,stacktop

mov dx, hello
mov ah,9
int 0x21

mov ax,0x4c00
int 0x21

segment data
hello: db 'hello, world', 13, 10, '$'

segment stack 
stackresb 64
stacktop: 

We load value 9 to AX register and then we call interrupt 0x21 (21h). The calling routine 9 of interrupt 21h is a DOC procedure which presents on the screen the data stored in the memory address stored in the DS:DX address.

I. The Encryption Program

The code of this program is here:

ASM
segment code

start:
mov ax,data
mov ds,ax
mov ax,stack
mov ss,ax
mov sp,stacktop

%define encoderkey 'hello'
%strlen enkey encoderkey

main1: 
	mov ah,00 
	int 16h 

	mov dl,al 

	cmp al, 'q' 
	jz done 

	mov ah,enkey 
	add dl, ah 

	mov ah,2 
	int 0x21

jmp main1

done: 
	mov ax,0x4c00 
	int 0x21

segment data

segment stack stack
resb 64
stacktop: 

Let me explain a bit.

The commands...

ASM
mov ah,00
int 16h 

...instruct the program to wait for a key input from the user (this is what interrupt 16h does when 0x00 is stored in AH register). The key entered is stored in DL register with the command: mov dl,al.

The command...

ASM
cmp al, 'q' 
jz done 

...checks the value of the key pressed and if user pressed ‘q’ then the program jumps to the command which terminated it (see below).

Commands...

ASM
mov ax,0x4c00
int 0x21 

...are the ones which terminate the program (this is what interrupt 0x21 does with 0 in AX register).

If the user has entered a character different than ‘q’, then the program alters the value stored in DL by adding the value of 5 to it (it actually transfers the length of the enkey variable, which is 5 – this I did just for my own experimenting purposes):

ASM
mov ah,enkey
add dl, ah

and then it shows the resulting new character value in the screen:

ASM
mov ah,2
int 0x21 

II. The Decryption Program

In order to decrypt the message, you just have to do the opposite: Just subtract the value of 5 from the character input! The code of the program is here:

ASM
segment code

start:
mov ax,data
mov ds,ax
mov ax,stack
mov ss,ax
mov sp,stacktop

%define encoderkey 'hello'
%strlen enkey encoderkey

main1:

	mov ah,00
	int 16h

	mov dl,al
        
        cmp al, 'q'           
        jz done

	mov ah,-5
	add dl, ah

	mov ah,2
	int 0x21

jmp main1

done:
	mov ax,0x4c00
	int 0x21

segment data


segment stack stack
resb 64
stacktop: 

Generally, you can create a simple assembly code file in Notepad and save it file with the name you want, using “.asm" as an extension. After you have written the program, all you have to do is compile it and then link it.

III. HuoCodec 

I have merged both encryption and decryption functions in one program named HuoCodec. The source code of this program is actually a super-set of the programs presented above.

ASM
segment code

start:
mov ax,data
mov ds,ax
mov ax,stack
mov ss,ax
mov sp,stacktop

%define encoderkey 'hello'
%strlen enkey encoderkey

main1:

	mov dx,info1
	mov ah,9
	int 0x21

	mov dx,info2
	mov ah,9
	int 0x21

	mov dx,blankline
	mov ah,9
	int 0x21

	mov dx,message1
	mov ah,9
	int 0x21

	mov dx,message2
	mov ah,9
	int 0x21

	mov dx,blankline
	mov ah,9
	int 0x21

select:

	mov ah,00
	int 16h

	mov dl,al
        
      	cmp al, '1'           
	jz encrypt

	cmp al,'2'
	jz decrypt

encrypt:

	mov dx,message3
	mov ah,9
	int 0x21

	mov dx,blankline
	mov ah,9
	int 0x21

main_encrypt:
	mov ah,00
	int 16h

	mov dl,al
        
      	cmp al, 'q'           
	jz done

	mov ah,enkey
	add dl, ah

	mov ah,2
	int 0x21

jmp main_encrypt

decrypt:

	mov dx,message4
	mov ah,9
	int 0x21

	mov dx,blankline
	mov ah,9
	int 0x21

main_decrypt:
	mov ah,00
	int 16h

	mov dl,al
        
      	cmp al, 'q'           
	jz done

	mov ah,-enkey
	add dl, ah

	mov ah,2
	int 0x21

jmp main_decrypt

done:
	mov ax,0x4c00
	int 0x21

segment data

info1: db 'Huo CoDec - Programmed by Spiros Kakos (Huo)', 13, 10, '$'
info2: db '(c) Copyright 2005 - All rights reserved', 13, 10, '$'
blankline: db ' ', 13, 10, '$'
message1: db '1 - Encrypt message', 13, 10, '$'
message2: db '2 - Decrypt message', 13, 10, '$'
message3: db 'Encrypting mode (q to exit)...', 13, 10, '$'
message4: db 'Decrypting mode (q to exit)...', 13, 10, '$'

segment stack stack
resb 64
stacktop: 

Compile the Programs  

In DOS command line environment (that black and white screen which our children will unfortunately see only in encyclopedias, since all that kids do today with computers is browse, browse and.. oh, browse...), you must enter the appropriate command to compile the program that is written in assembly language (asm) in an objective file (.obj file which consists of assembly instruction mnemonics into opcodes). The assembly file must be located in the same directory with the assembler (which is NASM in our case).

NASM command for compiling:

nasm-f obj [filename] (e.g. nasm-f obj hello. asm) 

Link the Program

Use ALINK to link the object files into one executable, by writing the command ALINK file2.obj file3.obj –oEXE (or just ALINK [filename]) so as to link the file2.obj and file3.obj files into one EXE file (e.g. ALINK hello.obj)

Conclusion

Just keep experimenting! And remember to play with the code a little bit before you ask another programmer how to do it. Because this is what actually makes a good programmer.

License

This article, along with any associated source code and files, is licensed under The Code Project Open License (CPOL)


Written By
Software Developer Kakos Bros Solutions
Greece Greece
Spiros [Spyridon or Spyros are also used] Kakos (huo) lives in Athens, Greece. He is currently working as an IT consultant in a large firm. Begun programming during the Commodore era in MS Basic and is still trying to learn (mostly in C++ and C#)...
He likes chess and has recently bought a new (old) modem for one of his Commodores 128 (yes, he has two of them!) to set up a server based on 8-bit technology. He thinks that when the World Wide Web crashes completely by an alien cyber attack, he will be the only one capable of surfing with his Commodore computer and will eventually save the day...
He likes reading and writting philosophy and is a fond admirer of Aristotle and Alfred Russel Wallace. His main heritage is Harmonia Philosophica.
At his free time he is researching the application of polypyrrole (PPy) in the PCB manufacturing process (through-hole plating) at the National Technical University of Athens - Advanced Materials section.

Comments and Discussions

 
GeneralMy vote of 5 Pin
mohsen.keshavarzi10-Nov-14 3:44
mohsen.keshavarzi10-Nov-14 3:44 
GeneralMy vote of 5 Pin
musicm12225-Oct-11 3:05
professionalmusicm12225-Oct-11 3:05 
GeneralRe: My vote of 5 Pin
Palavos26-Oct-11 12:33
Palavos26-Oct-11 12:33 
GeneralMy vote of 5 Pin
fredatcodeproject5-Oct-11 23:31
professionalfredatcodeproject5-Oct-11 23:31 
GeneralRe: My vote of 5 Pin
Palavos6-Oct-11 1:10
Palavos6-Oct-11 1:10 
QuestionComments are welcome Pin
Palavos5-Oct-11 9:04
Palavos5-Oct-11 9:04 
AnswerRe: Comments are welcome Pin
emperon5-Oct-11 22:50
emperon5-Oct-11 22:50 
GeneralRe: Comments are welcome Pin
Palavos6-Oct-11 1:10
Palavos6-Oct-11 1:10 
I agree. Unfortunatelly time is limited. As soon as I have a more up-to-date example I will post. Thanks for the comment!
Per ardua ad astra, per ignem vincimus!
http://www.kakos.com.gr[^]

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