Linux Package Management (Distribute Your App)
Title | Linux RPM package management Part 1 (Packaging the 'htop' command) |
Overview | Students will learn about rpm and dnf/yum package tooling and then actually create their own package from code, upload it to a public package repository and finally have a classmate install their compiled package. This can be advertised to students as being able to distribute their own linux-based application to the world. |
Prerequisite Knowledge | Students should be familiar with:
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Learning Objectives | Upon completion, students should be able to:
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Background:
Is there background reading material?
- http://www.howtogeek.com/191245/beginner-geek-how-to-install-software-on-linux/ - Read about the various software installation methods on Linux
- http://www.control-escape.com/linux/lx-swinstall.html
- https://help.ubuntu.com/community/SoftwarePackagingFormats
- http://www.rpm.org/wiki/Docs
- https://en.m.wikipedia.org/wiki/DNF_(software)
- Linux_Beginner_Activity - Students can follow this to get command-line basics.
- Note that the requirements above ask for slightly more in-depth command-line experience via sudo and code compilation.
- Installing_a_Virtual_Machine - If Students need virtual linux machines for command-line access, they can use this activity.
- Introduction_to_building_open_source_software and Building_a_GnomeMusic_Clone both give linux compilation and build experience.
What is the rationale for this activity?
- Students may wonder how they can distribute linux-based code that they develop out to other everyday users. Not many users enjoy compiling code, so the RPM package structure allows easy installation of binary pre-compiled code packages. Basically, a student could have coded a small sample command-line application and now they can send it to others easily. The other side of it is that students, as users of Linux, will be interfacing with RPM packages not of their making and it will be good to have an understanding of the backends of how this works. Students will interface with the dnf and yum commands even if simply using linux for fun. Now, they can have knowledge into how it works and how they can employ it for their careers and personal uses.
Directions:
Keep a working log
Log your shell commands, answers to questions, and commentary in a text file, wiki, or blog. You will be constructing and troubleshooting numerous linux shell command's and their outputs. Your assignment is to document these commands and the process you went through in an organized fashion. You might use bullet points or a new set of commands on each line. Make sure it is easily consumable by a human (your instructor), as well as yourself 10 years from now.
The data that is the output of the commands is not as interesting as key lines or a summary/comment of their output or on what the command has done - ex: failed, succeeded, why, what it did, what it changed, etc. Write these in complete sentences. Commentary is especially important if you run into problems. When this occurs, state the problem and how you intend to solve it. At the end, you should have a text document with all of the commands, right and wrong, that you went through to get this activity completed. It should read as a timeline of what you did and what your thoughts were, to get the assignment complete. After this is complete, you will summarize the most useful commands into a sort of cheat sheet - this can come in useful for years to come.
See some samples and tools for a working log. Whatever method you use, make your written log human readable, make it a story if you wish. When you come back to this years from now, needing to remind yourself how to package some newly minted code, you want a summary/cheat sheet and you want to be able to understand the context and follow your thoughts of why you tried certain things. You don't want to be parsing through lines and lines of shell input and output.
Working log examples
- http://nickyeates.com/technology/unix/lms/linux_log#retry_to_recover_2x_320_gb_hdds
- http://nickyeates.com/technology/unix/raid_filesystem_lvm
Working log Tools to help you
- history command - Use this command to see what commands you have typed in the past.
- script command - You may alternately want to use the script command, which records all commands and their output to a file. The downside is that you have to remember to run this command before you wanted that output.
- Multiple terminal windows/tabs - It is advised that you utilize multiple terminal (shell) windows at the same time. When you get sidetracked on installing a dependency, use a separate window for that. This keeps your shell history organized and parsable afterwards.
- Up your terminals buffer limit - You might also consider upping your terminal windows buffer for the number of lines it holds, to somewhere in the tens of thousands - just in case you decide you want to come back to something you learned a while back, or in case a command spits out thousands of lines of results - which can happen. Some terminal applications can record commands and output to text files.
The activity will follow these general steps
- Use dnf/yum and rpm files.
- Learn about creating rpm's and the rpmbuild command.
- Package the htop project into an RPM.
Step 1: dnf / yum and .rpm's
- First, lets do some learning before we jump into shell commands. Answer the following in your log:
- What is the difference between dnf and yum? Why was the change made?
- What are .rpm files? Where might you find them and how are they used?
- Use the dnf command to view what packages have been recently installed on your machine.
- Hint: There is a specific command for this. man dnf is your friend
- Attempting to list all packages will often be quite a long listing.
- Use the dnf command to install a .rpm package not currently installed on your machine.
- Pick something simple, as you will need to operate it in the next steps.
- Hint: If you dont find your own (more credit given for this), you can install screen
- Use dnf to show that the new package is now installed.
- Run or operate this newly installed utility. Where did dnf place the executable file?
Step 2: RPM's and rpmbuild
Required reading / watching:
- RPM Build Example Video - Watch, at least, the first 8 mins of this video from a recording of a local Linux User Group meeting
- RPM process Diagram from video - Find the diagram that the video references on the page labeled 12-17
- Document authored by Guru Labs, L.C. released under the CC-BY-NC-ND 2.0 license
- Packaging the `wget` command - Review this example in its entirety
- This will take some time to read, but don't worry about details, as we will step through it again below.
- If you were to try to follow along in the shell, there may be some difficulties with wget.
- Instead, save it for Part 3 below; You will use this readings structure to turn the htop code into an RPM.
Questions:
- What is a source RPM vs binary RPM?
- What does the rpmbuild command do?
- Quickly summarize the directory structure when making your own RPM - you will stick this into your cheat sheet later, so make it short.
Step 3: Create your own 'htop' RPM
In this section, we will take code from the htop project and turn it into an RPM package.
Htop is a tool that shows you how busy your CPUs and memory are, as well as detailed information about the various processes being run on your operating system. It is semi visual, in that it runs in the terminal, but uses colors and blocks to make "graphics" (called ncurses). It is a successor to the famed top command that comes in all linux flavors. System administrators use both of these to diagnose and troubleshoot problems.
Htop was selected in this activity because it does not come standard in most operating systems, meaning it is not already installed. It is also a relatively small/simple build and the functionality of htop is rather useful.
Instructions:
- Required: Follow along with these resources:
- PRIMARY - http://www.ibm.com/developerworks/library/l-rpm1/ - With all of the below instructions, you will be following this example, except replace it with htop
- Secondary: https://fedoraproject.org/wiki/How_to_create_a_GNU_Hello_RPM_package - This second resource also steps through packaging. It takes some shortcuts, and therefore you miss out on some details, but it also simplifies the entire process. You should use it to follow along with the above example.
- Build htop manually
- Compile the htop project to test that the code can be turned into binary form in your environment.
- Before you can create an RPM, code must compile manually.
- See #Dependency_Issues in the appendix below for detailed configure and make issues that you might run into.
- Once you have ./configure, make, and make install compiling htop, you can move on to building an RPM for it
- Create RPM dir structure
- It should look like:
- [nyeates@localhost myhtop]$ ls
- BUILD RPMS SOURCES SPECS SRPMS
- Place your tar.gz file into the SOURCES directory
- Assure that you stick to the naming convention "package-version.tar.gz"
- It should look like:
- Create the .spec file
- vi SPECS/htop.spec
- Fill in all required information in the .spec file
- Borrow from these two examples of .spec files:
- Build an RPM and test that it works
- Run rpmbuild command
- Use rpmlint and mock to verify that the created .RPM works
- (Optional) You might try to dnf install the RPM on a separate computer or shell to see that it really works
- This is not required for this activity
Deliverable's:
One single text document can hold all of what needs to be handed in below. Put them in the following order, first to last, so that the instructor can find them easily.
Students will hand in:
- Cheat sheet / Summary
- A quick-reference guide, truly meant for your future use.
- List key commands and what they do.
- Succinctly explain the RPM directory structure.
- Answers to specific questions
- 1-3 sentance answers to the questions asked throughout the above activity.
- The working log
- See the above lengthy note about the working log.
Assessment:
Criteria | Level 1 (fail) | Level 2 (pass) | Level 3 (good) | Level 4 (exceptional) |
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Installs and inspects RPMs with dnf/yum | Did not attempt commands | Attempted to install RPM, but was unsuccessful | Installed RPM and showed that it is installed | Installed RPM, showed that it is installed, and ran the installed binary |
Creates a compliant .spec file | Did not attempt to create file | Creates file, but minimally fills out metadata | Creates file, fills out metadata | Creates file, fills out metadata, and adds comments |
Builds an RPM and assures that it works | Did not attempt to build RPM | Attempted to build RPM, but was unsuccessful | Built RPM | Built RPM and assured that it works with rpmlint, mock and/or dnf install |
Creates a working log and cheat sheet of commands | Did not create a working log | Created a minimal working log that shows only commands and their output - no user comments | Created working log that explains commands and summarizes with a cheat sheet | Created working log that contains an easy to follow narrative of commands and reasons why they were run; Summarizes with a cheat sheet that is very easy to reference and understand |
Comments:
What should the instructor know before using this activity?
Students should know how to compile Linux software code before doing this activity.
- There exists an activity which covers this: Introduction_to_building_open_source_software
- Particularly, students should have experience using the configure, make, and make install commands
- If students have not compiled in the past, it is common to not have all of the required libraries and modules already installed for the compilation process to succeed. This is a major part of creating RPM's. This setup takes time to troubleshoot and setup, and it could be different on each system if students are not using identical operating systems.
If you wanted to do this activity in Ubuntu, Debian, etc:
- Students could optionally do this activity on Ubuntu or other Linux OS's which use a different Package Management toolset.
- Ubuntu is debian-based and uses the ``dpkg`` command. For more info on equivalent commands, see:
What are some likely difficulties that an instructor may encounter using this activity?
Additional Information:
ACM Knowledge Area/Knowledge Unit | PL - Programming Languages, SE - Software Engineering from ACM_Body_of_Knowledge |
ACM Topic | PL/Compiler Semantic Analysis, PL/Code Generation, SE/Tools and Environments from https://www.acm.org/education/CS2013-final-report.pdf |
Level of Difficulty | Easy-Medium, for students that meet the pre-req's |
Estimated Time to Completion | 3-4 hours |
Materials/Environment |
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Author | Nick Yeates |
Source | |
License | Creative Commons CC-BY |
Suggestions for Open Source Community:
Suggestions for an open source community member who is working in conjunction with the instructor:
- Why did your community decide to standardize on the autotools-based config/make building? Or, why not?
- Explain to students why packaging skills can be used on many open source linux-based projects, across their careers.
- Help students through the often-confusing build process
- Help students to find alternate examples to step through - aka, finding project code other than the ones listed above and making it into an RPM.
This work is licensed under a Creative Commons Attribution 4.0 International License
Appendix
Dependency Issues
- htop may provide you with issues when running ./configure, make, and make install; Find some solutions below.
- There is always some odd ./configure setting or dependency that needs installing (this means, other rpm packages that this project needs installed in order to compile)
- Unfortunately, these dependencies are not installed automatically - you must install them yourself and then try to ./configure or make again
- Some dependency issues you might run into with htop:
- gcc, try each of these commands one at a time:
- sudo dnf install glibc-devel glibc-headers kernel-headers kernel-devel gnutls-devel
- sudo dnf groupinstall "Development Tools"
- sudo dnf install gnutls
- # answer from http://stackoverflow.com/questions/18076157/why-does-configure-say-no-c-compiler-found-when-gcc-is-installed
- libncurses or unicode, "configure: error: You may want to use --disable-unicode or install libncursesw."
- ./configure --disable-unicode # first try disabling unicode like they suggest
- which ncurses # ncurses is usually already installed, but if not, you will need to dnf install it also
- sudo dnf install ncurses-devel # try installing the ncurses-developer library package
- # answer from http://www.linuxquestions.org/questions/linux-software-2/error-while-try-to-install-htop-0-8-a-655823/
- gcc, try each of these commands one at a time:
- Some make issues you might run into with htop:
- Permission denied, "/usr/bin/install: cannot create regular file '/usr/local/bin/htop': Permission denied"
- sudo make install # you needed sudo (root) vs just running this as make install
- Permission denied, "/usr/bin/install: cannot create regular file '/usr/local/bin/htop': Permission denied"
Other readings:
- DNF Man Page
- https://wiki.archlinux.org/index.php/Arch_User_Repository
- https://wiki.archlinux.org/index.php/Arch_packaging_standards
- https://fedoraproject.org/wiki/Packaging:Guidelines?rd=Packaging/Guidelines#Writing_a_package_from_scratch
Consider breaking these additional steps into a new activity
- Have students host the package on a web source (ftp? Some free internet service that makes the .rpm accessible by URL)
- Package Repo location
- http://copr.fedorainfracloud.org - Use this for students to make their own packages and repositories
- https://fedorahosted.org/copr/ - The actual community / project page where user manuals and developer resources exist
- Package Repo location
- Have each student in the class pair up and try to install the other person's RPM and run the new command
Ideas on what to create into an RPM: