Open main menu

CDOT Wiki β

OPS245 Lab 3

Revision as of 19:53, 9 March 2024 by Andrew (talk | contribs)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Stop (medium size).png
DO NOT USE THIS VERSION OF THE COURSE. This page will no longer be updated.
Debian version here: https://seneca-ictoer.github.io/OPS245
CentOS version here: https://seneca-ictoer.github.io/OPS245-C7
Andrew's version here: http://wiki.littlesvr.ca/wiki/OPS245_Lab_3

LAB PREPARATION

 
Learning how to conserve disk space is essential for the efficient operation of a Linux computer system. You will learn how to manipulate the size of Linux file-system sizes (via LVM) in Lab 5.
 
You will download and compile the game called lbreakout2 which is only available as compressed source code.

Purpose / Objectives of Lab 3

In this lab, you are going to identify potential problems such as running out of space to run a GUI, or forgetting your root password. You will also learn to conserve hard disk space by learning how to compress and decompress files that are stored on your computer server. In addition, you will learn alternative methods of how to install applications (i.e. programs).

Main Objectives

  • Learn to boot your CentOS VM into Single User mode for rescue purposes
  • Create and extract archive files (tar and tar.gz)
  • Install applications using various methods:
  • Download, decompress and archive file from the Internet, then compile source code in order to install an application.
  • Use yum utility to install software from local source programs (on DVD drive)
  • Use yum utility to install software from repositories (online storage areas)
  • Learn how to add repositories (online software storage areas) to install less common applications.
  • Demonstrate the use of Bash Shell scripts to automate routine tasks (generate a customized software report)


Minimum Required Materials
Linux Command Reference
 
Solid State Drive
 
USB key
(for backups)
 
Lab3 Log Book
Archiving / Compiling

tar
gzip, gunzip
make

Software Manangement
rpm
yum

Miscellaneous

ls
more
wget
chmod
vi

Matrix On-line Tutorials:
  • Shell Scripting Basics - Part 4 (The sed Utility):
    /home/ops235/scripting-4

INVESTIGATION 1: TROUBLESHOOTING BOOTING & FORGOTTEN ROOT PASSWORD

 
Press e at Grub Boot Menu to edit

Part 1: Common Booting Issues

There are a few "classic problems" that students can encounter with their virtual machines and their host machine after performing lab2. Although all OPS245 students may not encounter these problems, it is good to be aware of what a potential problem may look like, and know how to solve that problem.

A few common problems are:

  • I Can't boot into Graphical Mode on my c7host machine
  • I Forgot My Regular User Password
  • I Forgot My root Password
  • I Can't Start My Virtual Machine

Troubleshooting consists of 3 basic elements:

  • Asking Questions (eg. what was done recently prior to problem?)
  • Eliminating what the problem IS NOT
  • Having Tenacity and patience (ability to focus on finding the cause of the problem)
 
Add the boot option single and then press ctrl-x to boot into single user mode

Part 2: Booting into Single-User Mode

If you cannot log graphically into your machine (first two common problems), there is a trick to boot your system into single-user mode. This mode does not provide networking, graphics, or logging in as other regular users, but can connect to a text-based interface as the root user. This method will only work if a GRUB (Grand Unified Boot-loader) password has not been set, or that you haven't forgotten the GRUB password.

Perform the following steps:

  1. Launch the VMware application.
  2. Select Open Virtual Machine, and select the VM called c7host on your Solid State Drive.
  3. Launch your c7host machine, and login as as a regular user.
  4. Boot-up your centos1 VM. When the Grub Boot menu appears, press the letter e (for "edit").
  5. Using your arrow keys, scroll to next screen to linux, or linux16, or linux-efi command and type the word single as an argument after quiet (see diagram for reference) and then press ctrl-x to boot.
  6. The system should boot into text-based mode. Enter your root password.
  7. One thing to look at is partition space usage. Issue the command: df -h
  8. If you notice 0% free space in the / partition, then there is a problem. This most likely is caused by not following steps to create a compressed copy of the VM image. If that is the case, locate the large image backup and remove it. Do NOT remove the image in /var/lib/libvirt/images directory!
  9. You can use the passwd command to reset your regular user password (eg. passwd regularuserid). You can press ctrl-c if you wish to abort (i.e. not change password).
  10. To restart in graphical mode, simply enter the command reboot.
 
Add rw init=/sysroot/bin/sh as shown and then press ctrl-x to boot into single user no root password mode

Part 3: Resetting Forgotten Root Password

Unfortunately, booting into Single-User Mode does not work if you forgot your root password, since the procedure in the previous part requires that you enter your root password. In order to reset your root password, you need to perform a different procedure (shown below).

Perform the following steps:

  1. The procedure to reset root's password is different than shown above.
  2. Make certain that your centos1 VM that you used in Part 2 has been shutdown.
  3. Start your centos1 VM and press e at the Grub boot menu.
  4. Using your arrow keys, move to linux or linux-efi command and replace the argument ro with the argument rw init=/sysroot/bin/sh (see diagram for reference) and then press ctrl-x to boot.
  5. The system should boot into text-based mode without prompting for root's password.
  6. Issue the command: chroot /sysroot
  7. Issue the command: passwd root in order to change your root password (press ctrl-c if you wish to abort - i.e. not change password).
    NOTE: if you are using SELinux in enforcing or permissive mode, you will also need to issue the command: touch /.autorelabel
    This may take some time depending on the amount of files you have on the file system (usually about 2 minutes).
  8. To restart in graphical mode, simply enter the command exit, then reboot.
What To Do If Reboot Doesn't Work
In this mode, the reboot command may not work. If it doesn't, go to the top of the centos1 VM window, select Send Key -> Ctrl+Alt+Delete.

Catastrophic Boot Problems

Not being able to start your c7host due to Kernel Panic or some sort of catastrophic disk failure is not as easy to fix. You might be able to boot from your Centos LIVE DVD, open a terminal and mount the partition via command line and look for possible problems (setup files like /etc/fstab). Lab5 will discuss more about mounting and the /etc/fstab file. The "worst-case scenario" would be to purchase a new hard disk, perform lab1 completely, perform lab2 to install and set-up virtualization software, then restore your VM image and xml file backups (eg. decompressing images, issuing virsh define commands for .xml files). That is why consistently performing backups of ALL of your VMS at the end of each lab is absolutely essential! You have been warned!

Answer INVESTIGATION 1 observations / questions in your lab log book.


INVESTIGATION 2: ARCHIVING & RESTORING FILES

Part 1: Creating a File Archive

One method to help prevent running out of hard disk space is to compress or archive files so they take up less space on your computer system. Archiving files is also a popular method to bundle files together into one smaller file for fast transfers to other computer servers.

Perform the following steps:

  1. Boot up your centos3 VM.
  2. Change your working directory to /usr/share/doc/sudo*
  3. Use the tar (tape archiver) command to create an archive file named "/tmp/archive1.tar" by issuing the following command:
    tar cvf /tmp/archive1.tar .
Warning!
Don't miss the . at the end of the tar command (where indicated). It specifies what should go into the archive: the contents of the current directory.
  1. What do the options c, v, and f mean?
  2. Record the archive file size.
  3. Compress the file using gzip by issuing the command: gzip /tmp/archive1.tar
  4. Record the archive file size after compression.
  5. Make sure you're still in /usr/share/doc/sudo* and then create a compressed archive by issuing the following command:
    tar cvzf /tmp/archive2.tar.gz .
  6. What does the z option do?
  7. Compare the sizes of /tmp/archive1.tar.gz and /tmp/archive2.tar.gz. Why are they so close in size?

Part 2: Restoring Files From an Archive

Perform the following steps:

  1. Remain in your centos3 VM.
  2. Create the directory /tmp/extract1
  3. Change to the /tmp/extract1 directory.
  4. Move the file archive1.tar.gz to your current directory.
  5. Unzip the first archive you created by issuing the command: gunzip archive1.tar.gz
  6. Extract the files from the first archive by issuing the command: tar xvf archive1.tar
  7. Are all the files there?
  8. Compare /tmp/extract1/README and /usr/share/doc/sudo*/README. Are they exactly the same? Why?
  9. Create the directory /tmp/extract2
  10. Move the file archive2.tar.gz to the /tmp/extract2 directory.
  11. Extract the files from the second archive by issuing the following command: tar xvzf /tmp/extract2/archive2.tar.gz
  12. Note that this time a separate gunzip command was not needed. Why?
  13. Repeat the previous command, leaving out the option z. Does it work? Why?
  14. Compare the README file in this directory with the original file. Are they exactly the same?

Answer Investigation 2 observations / questions in your lab log book.

INVESTIGATION 3: MANAGING SOFTWARE PACKAGES

Internet Connection
In order for the yum install command to work you require a connection to the Internet.

Part 1: Managing Software and Repositories with Yum

We will learn how to install software packages with the yum utility. This command is useful for installing software since it automatically resolves software dependencies prior to installing the software. Upon your Centos OS install, a link to a software repository is automatically made to allow for easy software updates.

Unfortunately, there is no guarantee that a particular software package is contained on the default repository. In order to overcome this problem, you can add other repositories that may contain the application that you wish to install.

Perform the following steps:

  1. Make certain that you are in your c7host machine.
  2. Issue the command: sudo yum install elinks
  3. Now issue the command: yum info elinks
  4. How can you tell if the elinks package has been installed?
  5. To remove the elinks package issue the command: sudo yum remove elinks
  6. Verify that the elinks package has been removed. Also verify that the application called: xchat is not installed.
  7. Use the wget command to download the xchat rpm binary from the following URL:
http://mirror.centos.org/centos/7/os/x86_64/Packages/xchat-2.8.8-25.el7.x86_64.rpm
What do you think is the purpose of the numbers also contained in the filename?
  1. Issue the command: sudo yum localinstall xchat-2.8.8-25.el7.x86_64.rpm
  2. Verify that the xchat command has been installed.
  3. Run the xchat application.
IRCs: A Great Tool for Linux Administrators
Although Search Engines (like Google) are a system administrator's good friend, Internet Relay Chats (IRCs) are also a great tool for system administrators to help obtain information. Many website offer information on how to connect to IRCs (both nodes (eg. FreeNode) and irc channel (eg. #linux). You can now use your newly-created application called xchat to do this.

A few tips to consider with IRCs:
  • Do your Homework (read docs first!)
  • Ask specific questions
  • Not all chats are friendly
  • Be patient when asking questions (use courtesy)
  • The advice is free (you get what you pay for!)
  1. We will now look at how we can add different repositories to our c7host machine.
  2. Issue the following command: yum repolist
  3. Take a few moments to review the output. Do you see which repositories are used by the yum command? Write down the repositories in your lab logbook.
  4. View the following link to see a general listing of repositories:
    [ Available Repositories for Centos ].
  5. To add the epel repository, issue the command:
    sudo yum install epel-release
  6. To verify that you have added the repository, you can issue the command: yum repolist
  7. Unused and unneeded software can present a security risk and ties up disk space needlessly. Find at least 4 other packages to remove on your c7host machine(for example: sound & video, games, etc) that you're not using on your system. Be careful to ensure that removing those packages does not also remove other software that you do need.

Part 2: Compiling Source Code from a Downloaded Archived File

Sometimes, some software may not be available on repositories to install with the yum command. They may be available from web-pages to download, and compile. Now that you know how to create and decompress "zipped tarball archives", we will demonstrate how to install applications from websites containing these types of archives. Although this method is not as "user-friendly" as using the yum command, this method is useful if the application is NOT contained in regular software repositories...

In order to build software from source code, you must have the appropriate software development tools (such as make and gcc) and libraries (such as GTK) installed. The required tools will vary depending on the computer languages used in the software being built.

Installing Development Libraries
In the future, remember the above procedure whenever installing software from source. Sometimes, you need to install additional tools or libraries in order to compile a particular software package

Perform the following steps:

  1. Remain in your c7host VM, but make certain that you are logged in as a regular user (i.e. NOT root!).
  2. Issue the command: which lbreakout2
    Is there a program called lbreakout2 on your system?
  3. Perform an Internet search for the pattern: lbreakout2 tar.gz
  4. Go to an appropriate webpage and download a "zipped tarball" (compressed source code) for the lbreakout2 game (filename should be something like: lbreakout2-2.6.5.tar.gz)
  5. Change to the directory where you downloaded that file (most likely ~/Downloads).
  6. Use the tar command to decompress the "zipped tarball" called something like (not may be exactly): lbreakout2-2.6.5.tar.gz.
  7. Change to the directory that contains that lbreakout2 source code.
Using && and || Conditional Statements
A very useful trick when running several commands in sequence is to use conditional statments. The && conditional will run the subsequent command only if the previous command returns a true (0) exit status, for example:
./configure && make. The || conditional will run the subsequent command only if the previous command returns a false (non-zero) exit status, for example:
./configure || echo "Houston, we have a problem". These conditional can be combined, for example:
./configure && make || echo "Houston, we have a problem"
  1. Issue the following command:
    ./configure && make
    Most likely, you will get an ERROR! What do you think the error is telling you?
  2. Issue the following command to install the files for application development by issuing the command:
    sudo yum groupinstall "Development Tools"
  3. Issue the command in step 8. You should get another ERROR! What dependency is missing?
  4. Issue the following command to install the library files for SQL by issuing the command:
    sudo yum install SDL-devel libpng-devel zlib-devel
  5. Reissue the ./configure && make command. Were you successful?
  6. Run the command lbreakout2. Were you successful?
  7. You need to run a command to make this program available regardless of your current directory (as opposed to running command in the directory that contains the program). So, issue the command: sudo make install
  8. Run the command: lbreakout2. Did it work? Issue the command:
    which lbreakout2. What do you think that the make install command did?


Bash Shell Tips:

Using sed to Manipulate Text
  • The Linux command
sed stands for Streaming Editor which is an effective way to manipulate a text file, output sent from a command, or from within a "here document". This command can manipulate matching text on a variety of criteria (such as line number(s), regular expression match, etc). Commands can then be used for manipulation such as omitting, printing, substituting, adding, and inserting text.

  • The sed option
  • -n suppresses display of text so the print (p) command can be used; otherwise, the text will be displayed (with edits via the sed command instructions).

  • Results of text manipulation with sed can be stored in a variable using command substitution, or redirected to a file.
  • NEVER redirect the stdout from a sed command to the same input file (or the input file will be destroyed)!

  • Examples

    sed 's/|/ /g' <<+
    I|like|weekends!
    +


    sed 's/$/\n/g' <<+
    This text
    should be
    double-spaced!

    +

  • Part 3: Using sed to Filter Output from Commands

    We will continue with using commands to create a Software Information Report that manipulates output generated by the rpm command. The sed and awk commands are very useful tools in shell scripting to manipulate text. In this lab, we will be using sed to allow the user to select certain portions from the rpm command (options -qi).

    Perform the following steps:

    1. Use your c7host VM for this section.
    2. Open a Bash terminal and run the command:
      # Use sed with extended regular expressions to only print those matching report elements
      rpm -qi xchat

      Notice that using the -i option with -q causes rpm to generate more output than we have seen from it so far.
    3. Pick any five packages and run the rpm -qi command on all five at once. This should produce dozens of lines of output. Consider the output it would generate if we used -a instead of picking just a few packages.
    4. Run rpm -qia now.
    5. That is way too much output for us to reasonably search through, but we have commands that can filter this down to a much more readable amount.
    6. Try the command:
      rpm -qia | sed -nre '/^Name[[:space:]]+:/ p' -e '/^Install Date[[:space:]]*:/ p'
      Instead of printing every line, this will only display the name and install date of each package.
    7. Try modifying that command to display only the package Name and License.

    Answer the Investigation 3 observations / questions in your lab log book.

    INVESTIGATION 4: USING LOGICAL STRUCTURES IN PYTHON

    Now that we have added some powerful logical structures to our python scripts, we can make our scripts much more adaptable. Our python scripts can now respond to different situations by executing different code, or repeating the same code several times (e.g. keep asking the user for input until they give us something useful). In this investigation you will write a python script that will prompt a user for a directory to archive, ask them if they want the archive compressed, and (only if they do want compression) what type of compression to apply.

    1. In your bin directory, create the file tarchiver.py, and populate with our standard beginning:
      #!/usr/bin/env python3
      # tarchiver.py
      # Purpose: Creates a tar archive of a directory
      #
      # USAGE: ./tarchiver.py
      #
      # Author: *** INSERT YOUR NAME ***
      # Date: *** CURRENT DATE ***
      import os
    2. Next, add prompts using the input() function to ask the user for:
      • The directory they wish to archive.
      • The name they want to give the archive.
      Remember to store their responses in variables.
    3. Add a line that uses the values provided by the user to execute a tar command and create and archive of the directory they requested.
    4. Test your script to make sure it works.
    5. Add a third prompt (immediately after the other two prompts and before the tar command), asking the user if they want the archive to be compressed. You'll need an if statement to run your tar command with gzip compression if they answered yes.
    6. Test your script to make sure it works.
    7. Add a fourth prompt asking the user what type of compression they want (present them with gzip, bzip2, and xzip as options). Note that this prompt should only be shown if the user opted for compression (if they don't want compression, there is no point asking what type they don't want).
    8. Expand the if statement around your actual tar command to use whichever type of compression the user asked for.
    9. Test your script to make sure it works.
    10. Test your script again, but feed it nonsense data (e.g. answer 'very much so' instead of 'y' or 'n' when prompted about compression).
    11. Add loops around your prompts for whether or not the user wants compression, and the compression type to make the script repeat each prompt until the user gives a response your script can actually use. Don't worry about doing anything with the archive name or path.
    12. Now test your script again, with good data and with nonsense.
    13. When you are confident your script works, you are ready to submit the lab.

    LAB 3 SIGN-OFF (SHOW INSTRUCTOR)

    Follow the submission instructions for lab 3 on Blackboard.

    Time for a new backup!
    If you have successfully completed this lab, make a new backup of your virtual machines as well as your host machine.

    Perform the Following Steps:

    1. Make certain that your c7host and centos3 VMs are running.
    2. Switch to your c7host machine, open a shell terminal as a regular user, and change to the directory: ~/bin
    3. Download the Lab 3 check script: wget https://raw.githubusercontent.com/OPS245/labs/main/lab3-check.bash
    4. Give the lab3-check.bash file execute permissions (for the file owner).
    5. Run the shell script with sudo, and if any warnings appear, fix the issues noted by the script and rerun the check until you receive the "Congratulations!" message.
    6. Arrange proof of the following on the screen:
      centos3:
      • Archived files created
      • Archive files restored
      c7host:
      • One repository added for yum
      • Run the lab3-check.bash script (must have all  OK  messages)
      Lab 3 logbook pages filled out.
    7. Upload a screen of the proof from the previous step, along with the file generated by lab3-check.bash, your log book, and your tarchiver.py script to blackboard.

    Practice For Quizzes, Tests, Midterm & Final Exam

    1. What is the purpose of booting into single-user mode?
    2. List the steps in order to boot into single-user mode.
    3. List the steps to reset a forgotten root password.
    4. What is the difference between a .tgz file and a .tar.gz file? What do these stand for?
    5. What is the purpose of a repository?
    6. What is source code?
    7. How do you build software from source code?
    8. What does yum do that compiled source code does not?
    9. Other than running an installed package, what commands can you issue to verify that the package was installed?
    10. List the steps to remove a package via yum command.
    11. List the steps to install a package using the yum command.
    12. List the steps to add a repository to be used with yum.
    13. What is the command to list all repositories associated with the yum command?
    14. What is the command to view all repositories that have been added to-date?
    15. How do you use the sed command to modify text?
    16. What is the Here-Document, and how can it be used in issuing command and shell scripting?