Difference between revisions of "CSC231 DDD Short Tutorial"

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=The Target Program=
 
=The Target Program=
 
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Create a simple program that adds the contents of two variables and stores the result in a third one.
 
Create a simple program that adds the contents of two variables and stores the result in a third one.
  
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=Test=
 
=Test=
 
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# Click on '''Status''', '''Registers''' to see the register window
 
# Click on '''Status''', '''Registers''' to see the register window
# Set a '''breakpoint''' on the second NOP instruction by clicking right on the instruction, or by setting the cursor on the second NOP and clicking on the breakpoint button in the top menu.
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# Click on '''View''', then '''Machine Code Window''' to see the raw instructions in memory.
# Display the 4 variables: '''Data''', then '''Memory''', then select to display 1 hex double-word at location '''&a'''.  Same thing for '''&b''' and '''&sum'''.  Then similarly for '''&table''', but display 3 hex double-words.
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# To display the 4 variables, click on '''Data''', then '''Memory''', then select to display 1 hex double-word at location '''&a'''.  Same thing for '''&b''' and '''&sum'''.  Then similarly for '''&table''', but display 3 hex double-words.
# Run the program by clicking '''Run''' in the tall grey window pane.  The debugger will execute the first NOP and stop on the second one.
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# Put the cursor on the second '''nop''' instruction and set a '''breakpoint''' there by clicking on the breakpoint button (stop sign) in the top menu.
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# Run the program by clicking '''Program''' in the top menu, then on the '''Run''' option.  A window opens with information about arguments to pass to the programJust click on the '''Run''' button in this new window to close it.  <font color="magenta">The debugger will then execute the first NOP and stop on the second one.</font>
 
# Single step the rest of the program with '''Stepi''', and observe the registers and the memory change.
 
# Single step the rest of the program with '''Stepi''', and observe the registers and the memory change.
 
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=Exercise 1=
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Your ddd windows should look something like this when you have single-stepped the whole program:
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[[Image:dddEndExecution.png|750px|center]]
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=Exercise =
 
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Edit your program so that now it computes the sum of 5 variables, a, b, c, d, and e, and saves the sum in result.
 
Edit your program so that now it computes the sum of 5 variables, a, b, c, d, and e, and saves the sum in result.
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Single step your program and verify that it generates  the correct answer.
 
Single step your program and verify that it generates  the correct answer.
 
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=Buggy ddd=
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<tanbox>
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The current ddd on aurora has a tendency to run once, well, and the second time gets stuck.  If this happens to you, run the command '''cleanupddd''' which will remove a directory called ".ddd" that ddd creates in your account.  This seems to solve the buggy behavior.  Unfortunately, you'll have to go back to the settings and modify the line-numbering and the AT&T/Intel switch.
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=References=
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Here is a good reference for learning more advanced ddd features:
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* [https://www.gnu.org/software/ddd/manual/pdf/ddd.pdf The GNU manual on ddd], see Section 8 on Machine-Level Debugging.
  
 
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Latest revision as of 10:59, 5 April 2017

--D. Thiebaut (talk) 20:25, 4 April 2017 (EDT)


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This tutorial will introduce you to the ddd debugger, and simple steps you can take to debug assembly programs.




The Target Program


Create a simple program that adds the contents of two variables and stores the result in a third one.

The data section should be something like this:

                section .data
a		dd	3
b		dd	5
sum		dd	0
table		dd	6, 7, 8
	
	
                section .text
                global  _start
_start:
		nop			; we put nops to 
		nop			; set a breakpoint first

		mov	eax, dword[a]
		add	eax, dword[b] 	
		mov	dword[sum], eax

		mov	ebx, dword[table]
		add	ebx, dword[table+4]
		mov	dword[table+8], ebx
	
;;; exit                                                                                                                                    
                mov     ebx, 0
                mov     eax, 1
                int     0x80


Save your program as demoDDD.asm, and generate the executable as follows:

         nasm -f elf -F stabs demoDDD.asm
         ld -melf_i386  -o demoDDD demoDDD.o


Test


Run your program...

Do you see anything?

Should you?

You probably figured out that since we are not printing anything, it's impossible to know if it computed what we expected.

The debugger will allow us to figure it out!

The DDD Debugger


Start the Debugger


Start the debugger and instruct it to open the program demoDDD. At the prompt, type:

         ddd  demoDDD  &


The first thing you'll want to do is change a couple default behaviors:

Configuration


Before we can start using DDD, we need to change some of its default settings.

Select "Edit->Preferences" from the main menu. On the window that will appear, open the "Source" tab (top of the window). Then, check the "Display Source Line Numbers" option. Click OK to close the window.


Ddd preferences 2017.png


Next, select "Edit->GDB Settings" from the main menu. In the window that pops up, scroll approximately half way down through the list of options, until you find the option "Disassembly flavor". Change its value to "Intel" and click on CLOSE.


231 ddd preferences2.png


Running the Debugger


  1. Click on Status, Registers to see the register window
  2. Click on View, then Machine Code Window to see the raw instructions in memory.
  3. To display the 4 variables, click on Data, then Memory, then select to display 1 hex double-word at location &a. Same thing for &b and &sum. Then similarly for &table, but display 3 hex double-words.
  4. Put the cursor on the second nop instruction and set a breakpoint there by clicking on the breakpoint button (stop sign) in the top menu.
  5. Run the program by clicking Program in the top menu, then on the Run option. A window opens with information about arguments to pass to the program. Just click on the Run button in this new window to close it. The debugger will then execute the first NOP and stop on the second one.
  6. Single step the rest of the program with Stepi, and observe the registers and the memory change.


Your ddd windows should look something like this when you have single-stepped the whole program:

DddEndExecution.png


Exercise


Edit your program so that now it computes the sum of 5 variables, a, b, c, d, and e, and saves the sum in result.

Single step your program and verify that it generates the correct answer.

Buggy ddd


The current ddd on aurora has a tendency to run once, well, and the second time gets stuck. If this happens to you, run the command cleanupddd which will remove a directory called ".ddd" that ddd creates in your account. This seems to solve the buggy behavior. Unfortunately, you'll have to go back to the settings and modify the line-numbering and the AT&T/Intel switch.


References


Here is a good reference for learning more advanced ddd features: