Difference between revisions of "CSC231 Bash Tutorial 5"

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--[[User:Thiebaut|D. Thiebaut]] ([[User talk:Thiebaut|talk]]) 08:04, 3 March 2017 (EST)
 
--[[User:Thiebaut|D. Thiebaut]] ([[User talk:Thiebaut|talk]]) 08:04, 3 March 2017 (EST)
 
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__TOC__
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<br />
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<bluebox>
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This lab will introduce you to using Nasm as a tool for better understanding instructions.  You will also look at a different way of redirecting standard out (stdout), and to the powerful '''for-loop''' in bash.
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</bluebox>
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<br />
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<br />
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<br />
  
=Testing Instructions=
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=Using '''Nasm''' to Test Instructions=
 
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<br />
 
Writing a short assembly program to answer quick questions is simple and can be quick.  We'll do a couple examples.
 
Writing a short assembly program to answer quick questions is simple and can be quick.  We'll do a couple examples.

Revision as of 09:25, 3 March 2017

--D. Thiebaut (talk) 08:04, 3 March 2017 (EST)


This lab will introduce you to using Nasm as a tool for better understanding instructions. You will also look at a different way of redirecting standard out (stdout), and to the powerful for-loop in bash.




Using Nasm to Test Instructions


Writing a short assembly program to answer quick questions is simple and can be quick. We'll do a couple examples.

Testing how DIV works


  • Get a copy of test_skel.asm
getcopy test_skel.asm
  • Its code is shown below for completeness:
;;; Testing sandbox
	        extern  _printDec
	        extern  _printString
	        extern  _println
	        extern  _getInput
		extern	_printRegs
	
	section	.data
a		dd	100
b		dd	33
c		dd	0
ans		dd	0
	
		section	.text
		global	_start
_start: ;-------------------------------------------------

	
;;; exit -------------------------------------------------
		mov	ebx, 0
		mov	eax, 1
		int     0x80


  • It has everything needed to test how short pieces of code work.
  • Put the following code between the dashed lines:


 		mov	edx, 0
		mov	eax, dword[a]
 		div	dword[b]
 
 		call	_printRegs
  • (If the lines are already there, but commented out, just remove the semi-colons.)
  • See what the program does. What quantity will be divided by what other quantity.
  • Assembly, link and run:
 nasm -f elf test_skel.asm
 ld -melf_i386 -o test_skel test_skel.o 231Lib.o
 ./test_skel
  • Do you see the quotient and remainder in the registers? Does it make sense?


You should practice doing this simple exercise every time you are not sure about a particular set of instructions. If you start with a skeleton program, such as test_skel.asm, all you have to do is fill in the middle part, assemble, link and run, and you will have your answer.


Hex, Binary, and 2's Complement


  • You can use the same method for testing number representations.
  • Go to this URL http://www.nasm.us/doc/nasmdoc3.html, and locate Section 3.4.1. Look at the instructions and the different ways Nasm accepts literals.
  • Nasm accepts numbers in decimal, hex, binary, octal, and 2's complements.
  • Let's try a few:
  • Edit your test_skel.asm program and add the following lines between the dashed lines:


		mov	eax, 0x0000FFFF
		mov	ebx, 00000000111111110000000011111111b
		mov	ecx, 1111_1111_1111_1111_1111_1111_1111_1111b
		call	_printRegs


  • Assemble, Link and run. You should see eax, ebx, and ecx, as hex, unsigned, and signed (2's complement) integers.


Bash Loops


Bash supports loops! It is a powerful way of repeating commands.

  • Try this at the Bash prompt:


 for i in 1 2 3 4 5 6 7 8 9 10 ; do
      echo "i = $i"
 done
  • Explanations:
  • i is used as the index of the loop. It is declared by putting it right after the for keyword.
  • i will take all the values in whatever list is given after the in keyword.
  • the semi-colon ends the declaration, and is followed by do
  • the next lines will be repeated for every value i will take. In our case, just the echo command, which is Bash's print command.
  • we close the body of the for-loop with done


Note that when you want to use the loop variable inside the body of the loop, you write $i. Variables are declared without $ but are prefixed with $ when used.


Several Different Kinds of Loops


  • Try these different variations of loops. They contain new features and constructs, and you will figure out how they work by playing with them.


Loop 2


for i in `seq 1 10` ; do
    echo "i is $i"
done
  • Note: you need to use backquotes around the seq 1 10 command. With Bash, putting backquotes around a string means that it is a command that should be executed, and the output of this command becomes a list of lines through which the for command will iterate.


Loop 3


for i in `seq 1 10` ; do
    echo "i is $i"
done


Loop 4


for i in `seq 1 10` ; do echo "i is $i" ;  done


  • Loops can be written on one line only. The semi-colon marks the end of commands. Make sure you put spaces around the semi-colons!



Challenge #1:

QuestionMark1.jpg


Use the man page for seq and figure out a way to make your loop print all the numbers from 20 down to 1.






Loop 5 -- Nested for-loops!


for i in a b c d e f ; do  
    for j in 0 1 2 3 4 5 ; do   
       echo -n "$i$j "  
    done  
    echo ""  
done


  • The "-n" switch for the first echo indicates that the cursor should not go to the next line after printing the string.
  • The echo "" is a way to go to the next line.




Challenge #2:

QuestionMark2.jpg


Use a nested for-loop to print this pattern of 10 lines with 1 to 10 stars: 

*
**
***
****
*****
******
*******
********
*********
**********



Loop 6 -- Looping through files


You can loop through files by using "*", or "*.asm", or some combination of string and "*" character to generate a list of files and iterate through them. Try the following examples:
for i in *.asm ; do 
    echo "file = $i"  
done

for i in *hello* ; do 
    echo "file = $i"  
done

for i in *.java ; do 
    echo "file = $i"  
done

More Complex Looping


Assume that you want to create a text file that contains all your assembly program, with the name of the program between two dashed lines, followed by the contents of the program. This is how you could do this:


  • First let's make the output of the command go to the display, so that we can see the output:


for i in *.asm ; do
         echo "-------------------------------------------"
         echo "$i"
         echo "-------------------------------------------"
         cat $i
         echo ""
done
  • Try it!
  • Now let's redirect the output of all the commands to a file we'll call allAsmFiles.txt
for i in *.asm ; do
         echo "-------------------------------------------" >> allAsmFiles.txt
         echo "$i" >> allAsmFiles.txt
         echo "-------------------------------------------" >> allAsmFiles.txt
         cat $i >> allAsmFiles.txt
         echo "" >> allAsmFiles.txt
done


  • Try this as well, and look at allAsmFiles.txt with emacs or less. See how quickly you created this? This can be used to generate quick Jupyter or RStudio notebooks, with the correct header information, for those of you using these packages.

Solutions

<showafterdate after="20170303 11:45" before="20170601 00:00">

Challenge 1

for i in `seq 10 -1 1` ; do echo "i is $i"; done

Challenge 2

for i in `seq 10` ; do
for j in `seq $i` ; do
echo -n "*"
done
echo ""
done

</showafterdate>

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