This provides an basic introduction to shell programming. If you
use Linux much at all, you'll at least occasionally find yourself needing
to use the shell/command line (i.e., what you get when you open the terminal program). Having experience with the shell is extremely useful, as you often
end up needing to, e.g., ssh into a remote or cloud system where you won't
have access to the nice GUI tools. This lab provides an introduction to a
variety of important shell tools and how programming/scripting is done
using shell commands.
You will need to write several different scripts for this lab:
- A script to extract the contents of a
tararchive, and then compile and run the C program it contains - A script to delete a large number of unwanted files, leaving the other files in that directory alone
- A script that separates executable files from non-executable ones, processing the two groups differently
None of these will be very long, but most or all of them will require
you to learn new shell commands or tools. We’ll give you hints and
pointers as to what commands/tools to be using, but you’ll need to
do some digging in the man pages and/or searching on-line to find
the details. Don’t bang your head against any piece of this for too
long. If you’ve spent more than 10 minutes on a single part or command,
you probably need to take a break and ask someone (like your instructor)
for some help. On the other side of the coin, however, don’t immediately
give up and ask at every step. Learning how to find and use this sort
of information is an enormously valuable skill, and will be useful
far longer and more often than the details that you’re actually looking
up. So make a bit of an effort, but know when to stop.
Before you start writing scripts, you’ll need get a copy of this repository to work on. This is a two step process:
- First fork the repository on Github
- Then clone your fork to the machine you're working on
If you're working in pairs or larger groups only one of you needs to fork the repository, but that person then needs to add everyone else as collaborators on the project, and then everyone will need to clone the project to their machine to work on it.
You’ll “turn in” your work simply by having it committed to the repository. We’ll check it out from there to run and grade it. We'll obviously need to be able to find your repository to grade it, so make sure to submit the URL of your forked repository using whatever technique is indicated by your instructor.
Be certain to commit often, and trade places at the keyboard often. At a minimum you should probably trade every time you solve a specific problem that comes out of the test script. You should probably consider committing that often as well.
You should complete the following exercises for this lab:
The tests and any relevant files for each part are in the appropriate sub-directory in this repository:
compilingcleaning
In each case there are tests written using the bats testing tool for bash scripts in a file called tests.bats.
You should be able to run the tests with bats tests.bats, and use the testing
results as a guide to the development of your scripts. If you ever find that you
don't understand what the tests are "telling you", definitely ask; they are
there to help you, and if they aren't communicating effectively then they're
not doing their job.
You should get all the tests to pass before you "turn in" your work. Having the tests pass doesn't guarantee that your scripts are 100% correct, but it's a strong initial indicator.
The tests and data for this problem are in the compiling directory of this project, and the discussion of this problem will all assume that you've cded into that directory. Your goal is to get the tests in tests.bats (in the compiling directory) to pass.
For this you should write a bash script called extract_and_compile.sh that:
- Takes two arguments.
- The first is a number that will be used as an argument when you call the C program that you'll be compiling in a bit.
- The second is the name of a directory that you should do extract the files into and compile the program.
- Extracts the contents of the tar archive
NthPrime.tgzinto the specified directory. This is a compressed tar file (indicated by thegz, forgzip, in the file extension), so you’ll need to uncompress and then extract; thetarcommand can do both things in one step. You might find themanpages fortar. This should create a directoryNthPrimein your scratch directory; thatNthPrimedirectory should contain several*.cand*.hfiles that can be compiled to create an executable. - Goes into the
NthPrimedirectory that thetarextraction created. - Compiles the C program that gets extracted, generating an executable
called
NthPrime(still in theNthPrimedirectory in your specified temporary directory). - Call the resulting executable (
NthPrime).NthPrimerequires a single number as a command line argument; you should pass it the first of the two command line arguments your script received.
As an example, imagine your script is called using:
./extract_and_compile.sh 17 /tmp/tmp.7dMpfowoGFThen it should
- Extract the contents of
NthPrime.tgzinto/tmp/tmp.7dMpfowoGFcreating a directory/tmp/tmp.7dMpfowoGF/NthPrime - Compile the files in
/tmp/tmp.7dMpfowoGF/NthPrimeto generate the binary/tmp/tmp.7dMpfowoGF/NthPrime/NthPrime. - Run that binary with the argument
17(the first argument in this example); this should generate the outputPrime 17 = 59.
The final file structure in the example above (as
displayed by the tree program) should be:
$ tree /tmp/tmp.7dMpfowoGF/
/tmp/tmp.7dMpfowoGF/
└── NthPrime
├── NthPrime
├── main.c
├── nth_prime.c
└── nth_prime.h
1 directory, 4 files
Remember that you can call your script "by hand" as a debugging aid so you can see exactly what it's doing and where. So you could do something like
mkdir /tmp/frogs
./extract_and_compile.sh 8 /tmp/frogsand then go look in /tmp/frogs and see what your script did there. It's
important that the scratch directory exist before you call your script (hence
the mkdir call first). You would want to empty the contents of the scratch
directory before calling your script a second time, or you won't be able to
tell what was left over from the first call. You probably want to delete
/tmp/frogs (or whatever you called it) when you're done just as a politness
so you don't clutter up /tmp/ unnecessarily.
The C compiler in the lab is gcc.
There are two .c files in this program, both of which will need to be
compiled and linked. You can do this in a single line (handing gcc both
.c files) or you can compile them separately and then link them.
You can tell gcc what you want the executable called, or you can take
the default output and rename it.
Most of you have never compiled a C program before, so this might be a
good time to ask me to say a little about how that works. Alternately,
you might see what you can figure out with man gcc.
❗ When you run the program you compiled (NthPrime) you need give NthPrime a single
command line argument. The value you should pass it is
the number your script received as its second command
line argument.
The .tgz version of the tar archive will be in the specified directory
when you’re done. This means that if you first gunzip and then, in a
separate step, untar, the test is likely to fail since you’ll end up
with a .tar file instead of a .tgz file. So you should use the appropriate tar flags that uncompress and untar in a single step.
The tests also assume that your script generates no
"extraneous" output. If, for example, you use the -v
flag with tar, you'll generate a bunch of output that
will cause some of the tests to fail. You may want to have
"extra" output as a debugging tool while you're working
on the script, but you'll need to remove all that to get
the tests to pass. This is consistent with standard
practice in Unix shell programming, where most commands
provide little to no output if things went fine, making it
much easier for you to chain them together into more
complex behaviors.
Your goal here is to get the tests in tests.bats to pass. For this you should write a bash script named big_clean.sh that:
- Takes two arguments:
- The first will be the name of a compressed
tararchive (.tgzfile) that contains the files you'll process. - The second will be the name of a scratch directory you can do your work in.
- The first will be the name of a compressed
- Extracts the contents of the
tararchive into the specified scratch directory. This will take a few seconds forbig_dir.tgzsince that has over 1000 files in it. - Removes all the files from the scratch directory (i.e., the files that came from your
tararchive) containing the line “DELETE ME!”, while leaving all the others alone. (There are quite a few ways to do this. Thegrepfamily of tools is probably the easiest way to see if a file has the “DELETE ME!” line. You could then use a shell loop to loop through all the files and remove the ones that have the line, or you can usermwith either the$(…)syntax or backticks.) - Create a new compressed
tararchive that contains the files in the scratch directory after you've removed the "DELETE ME!" files. The files in the archive should not have the path to the scratch directory in their filenames. The new tar file should have the namecleaned_...where the ellipsis is replaced by the name of the original file, e.g., if your original file islittle_dir.tgzthen the newly created file should be calledcleaned_little_dir.tgz.- This is probably the trickiest part of the lab because you have to be in the scratch directory when you create the
tararchive or you'll end up with the path to the scratch directory in all the file names. - It's easy enough to
cd $SCRATCHorpushd $SCRATCHto get to the scratch directory to run thetar -zcf...command, but then how do you know where you came from, so you can put the new tar file in the right place? Thepwdcommand returns your current working directory, so something likehere=$(pwd)will capture your current directory in a shell variable calledhereso you can use$herelater to refer to where you had been.
- This is probably the trickiest part of the lab because you have to be in the scratch directory when you create the
If we assume that your scratch directory is, for example,
/tmp/tmp.eMvVweqb, then after the first step
(uncompressing) the sample tar file little_dir.tgz
you should end up with:
$ tree /tmp/tmp.eMvVweqb/
/tmp/tmp.eMvVweqb/
└── little_dir
├── file_0
├── file_1
├── file_10
├── file_11
├── file_12
├── file_13
├── file_14
├── file_15
├── file_16
├── file_17
├── file_18
├── file_19
├── file_2
├── file_3
├── file_4
├── file_5
├── file_6
├── file_7
├── file_8
└── file_9
1 directory, 20 files
Then after deleting the appropriate files, you should have:
$ tree /tmp/tmp.eMvVweqb/
/tmp/tmp.eMvVweqb/
└── little_dir
├── file_1
├── file_10
├── file_11
├── file_12
├── file_15
├── file_16
├── file_17
├── file_18
├── file_19
├── file_2
├── file_3
├── file_4
├── file_5
├── file_6
├── file_8
└── file_9
1 directory, 16 files
Finally, after creating the new cleaned tar file
(cleaned_little_dir.tgz in this case) your project
directory should look like:
$ tree cleaning/
cleaning/
├── big_dir.tgz
├── cleaned_little_dir.tgz
├── little_dir.tgz
└── tests.bats
0 directories, 4 files
Make sure that all your code passes the appropriate tests. Passing the test will make up the majority of your grade. There will also be a portion of your grade that will take into account how clean your code is. Also when we said that you should commit often –- we meant it. Also be professional and informative about your commit messages; we'll be looking at them in the grading. Finally, it is easy to overlook important details. If the test isn’t being passed go back and re-read the directions carefully.
You'll "turn this in" by committing your work to your fork of this starter project. You should also submit the URL of your repository in whatever way indicated by your instructor. Remember to make sure you've completed each of the assigned tasks:
- First script: Compiling a C program
- Second script: Clean up a big directory