Most users find it simple to upgrade from one Fedora release to the next with the standard process. However, there are inevitably many special cases that Fedora can also handle. This article shows one way to upgrade using DNF along with Logical Volume Management (LVM) to keep a bootable backup in case of problems. This example upgrades a Fedora 26 system to Fedora 28.

The process shown here is more complex than the standard upgrade process. You should have a strong grasp of how LVM works before you use this process. Without proper skill and care, you could lose data and/or be forced to reinstall your system! If you don’t know what you’re doing, it is highly recommended you stick to the supported upgrade methods only.

Preparing the system

Before you start, ensure your existing system is fully updated.

$ sudo dnf update
$ sudo systemctl reboot # or GUI equivalent

Check that your root filesystem is mounted via LVM.

$ df /
Filesystem 1K-blocks Used Available Use% Mounted on
/dev/mapper/vg_sdg-f26 20511312 14879816 4566536 77% /

$ sudo lvs
LV        VG           Attr LSize Pool Origin Data% Meta% Move Log Cpy%Sync Convert
f22       vg_sdg -wi-ao---- 15.00g
f24_64    vg_sdg -wi-ao---- 20.00g
f26       vg_sdg -wi-ao---- 20.00g
home      vg_sdg -wi-ao---- 100.00g
mockcache vg_sdg -wi-ao---- 10.00g
swap      vg_sdg -wi-ao---- 4.00g
test      vg_sdg -wi-a----- 1.00g
vg_vm     vg_sdg -wi-ao---- 20.00g

If you used the defaults when you installed Fedora, you may find the root filesystem is mounted on a LV named root. The name of your volume group will likely be different. Look at the total size of the root volume. In the example, the root filesystem is named f26 and is 20G in size.

Next, ensure you have enough free space in LVM.

$ sudo vgs
VG #PV #LV #SN Attr VSize VFree
vg_sdg 1 8 0 wz--n- 232.39g 42.39g

This system has enough free space to allocate a 20G logical volume for the upgraded Fedora 28 root. If you used the default install, there will be no free space in LVM. Managing LVM in general is beyond the scope of this article, but here are some possibilities:

1. /home on its own LV, and lots of free space in /home

You can logout of the GUI and switch to a text console, logging in as root. Then you can unmount /home, and use lvreduce -r to resize and reallocate the /home LV. You might also boot from a Live image (so as not to use /home) and use the gparted GUI utility.

2. Most of the LVM space allocated to a root LV, with lots of free space in the filesystem

You can boot from a Live image and use the gparted GUI utility to reduce the root LV. Consider moving /home to its own filesystem at this point, but that is beyond the scope of this article.

3. Most of the file systems are full, but you have LVs you no longer need

You can delete the unneeded LVs, freeing space in the volume group for this operation.

Creating a backup

First, allocate a new LV for the upgraded system. Make sure to use the correct name for your system’s volume group (VG). In this example it’s vg_sdg.

$ sudo lvcreate -L20G -n f28 vg_sdg
Logical volume "f28" created.

Next, make a snapshot of your current root filesystem. This example creates a snapshot volume named f26_s.

$ sync
$ sudo lvcreate -s -L1G -n f26_s vg_sdg/f26
Using default stripesize 64.00 KiB.
Logical volume "f26_s" created.

The snapshot can now be copied to the new LV. Make sure you have the destination correct when you substitute your own volume names. If you are not careful you could delete data irrevocably. Also, make sure you are copying from the snapshot of your root, not your live root.

$ sudo dd if=/dev/vg_sdg/f26_s of=/dev/vg_sdg/f28 bs=256k
81920+0 records in
81920+0 records out
21474836480 bytes (21 GB, 20 GiB) copied, 149.179 s, 144 MB/s

Give the new filesystem copy a unique UUID. This is not strictly necessary, but UUIDs are supposed to be unique, so this avoids future confusion. Here is how for an ext4 root filesystem:

$ sudo e2fsck -f /dev/vg_sdg/f28
$ sudo tune2fs -U random /dev/vg_sdg/f28

Then remove the snapshot volume which is no longer needed:

$ sudo lvremove vg_sdg/f26_s
Do you really want to remove active logical volume vg_sdg/f26_s? [y/n]: y
Logical volume "f26_s" successfully removed

You may wish to make a snapshot of /home at this point if you have it mounted separately. Sometimes, upgraded applications make changes that are incompatible with a much older Fedora version. If needed, edit the /etc/fstab file on the old root filesystem to mount the snapshot on /home. Remember that when the snapshot is full, it will disappear! You may also wish to make a normal backup of /home for good measure.

Configuring to use the new root

First, mount the new LV and backup your existing GRUB settings:

$ sudo mkdir /mnt/f28
$ sudo mount /dev/vg_sdg/f28 /mnt/f28
$ sudo mkdir /mnt/f28/f26
$ cd /boot/grub2
$ sudo cp -p grub.cfg grub.cfg.old

Edit grub.conf and add this before the first menuentry, unless you already have it:

menuentry 'Old boot menu' {
        configfile /grub2/grub.cfg.old
}

Edit grub.conf and change the default menuentry to activate and mount the new root filesystem. Change this line:

linux16 /vmlinuz-4.16.11-100.fc26.x86_64 root=/dev/mapper/vg_sdg-f26 ro rd.lvm.lv=vg_sdg/f26 rd.lvm.lv=vg_sdg/swap rhgb quiet LANG=en_US.UTF-8

So that it reads like this. Remember to use the correct names for your system’s VG and LV entries!

linux16 /vmlinuz-4.16.11-100.fc26.x86_64 root=/dev/mapper/vg_sdg-f28 ro rd.lvm.lv=vg_sdg/f28 rd.lvm.lv=vg_sdg/swap rhgb quiet LANG=en_US.UTF-8

Edit /mnt/f28/etc/default/grub and change the default root LV activated at boot:

GRUB_CMDLINE_LINUX="rd.lvm.lv=vg_sdg/f28 rd.lvm.lv=vg_sdg/swap rhgb quiet"

Edit /mnt/f28/etc/fstab to change the mounting of the root filesystem from the old volume:

/dev/mapper/vg_sdg-f26 / ext4 defaults 1 1

to the new one:

/dev/mapper/vg_sdg-f28 / ext4 defaults 1 1

Then, add a read-only mount of the old system for reference purposes:

/dev/mapper/vg_sdg-f26 /f26 ext4 ro,nodev,noexec 0 0

If your root filesystem is mounted by UUID, you will need to change this. Here is how if your root is an ext4 filesystem:

$ sudo e2label /dev/vg_sdg/f28 F28

Now edit /mnt/f28/etc/fstab to use the label. Change the mount line for the root file system so it reads like this:

LABEL=F28 / ext4 defaults 1 1

Rebooting and upgrading

Reboot, and your system will be using the new root filesystem. It is still Fedora 26, but a copy with a new LV name, and ready for dnf system-upgrade! If anything goes wrong, use the Old Boot Menu to boot back into your working system, which this procedure avoids touching.

$ sudo systemctl reboot # or GUI equivalent
...
$ df / /f26
Filesystem 1K-blocks Used Available Use% Mounted on
/dev/mapper/vg_sdg-f28 20511312 14903196 4543156 77% /
/dev/mapper/vg_sdg-f26 20511312 14866412 4579940 77% /f26

You may wish to verify that using the Old Boot Menu does indeed get you back to having root mounted on the old root filesystem.

Now follow the instructions at this wiki page. If anything goes wrong with the system upgrade, you have a working system to boot back into.

Future ideas

The steps to create a new LV and copy a snapshot of root to it could be automated with a generic script.  It needs only the name of the new LV, since the size and device of the existing root are easy to determine. For example, one would be able to type this command:

$ sudo copyfs / f28

Supplying the mount-point to copy makes it clearer what is happening, and copying other mount-points like /home could be useful.

This is a message from Fedora Project Leader Matthew Miller.

Hi everyone. If you saw my talk at DevConf.cz this year, you’ll remember I discussed the Fedora / Red Hat relationship, and specifically how Fedora has historically worked with new technologies that come our way through acquisitions made by our primary sponsor. Little did I know, but at that very moment, something huge was in the works, and when my plane landed back in Boston my phone blew up with messages about CoreOS joining Red Hat.

That’s obviously gigantic news, directly relevant to Fedora, since we are the project Red Hat depends on for operating-system level integration and innovation. Now, most of the news is about Kubernetes, OpenShift, Tectonic, and Quay — but there’s also Container Linux (the operating system formerly known just as “CoreOS”). At Red Hat Summit, the company announced and clarified a bunch of things around product and corporate plans. Now, it’s time for us to figure out how we can welcome and include the Container Linux community in the circle of Fedora Friends.

What does this mean for the Fedora community?

Good things! Container Linux is exciting, innovative, and has a passionate user and developer community. The people who built it are awesome and well-aligned with the Fedora community foundations.

The “Fedora Editions” strategy intentionally makes space for exploring emerging areas in operating system distributions. CoreOS will help us push that even further and bring new ways of doing things to the project as a whole.

What does this mean for Container Linux users?

More good things! I know this is kind of scary. Fedora CoreOS is going to be built from Fedora content rather than in the way it’s made now. It won’t necessarily be made in the same way we make Fedora OS deliverables today, though. No matter what, we absolutely want the CoreOS user experience of “container cluster host OS that keeps itself up-to-date and you just don’t worry about it.” Again, technical details are a discussion for elsewhere, but the goal is for existing Container Linux users to be as happy as — or happier than! — you are with the OS today.

And here’s the super-important thing: Fedora really is a community-driven project, and this means that you can get involved and directly influence how the future Fedora CoreOS works to meet your needs. If you’re interested and need help getting involved, don’t hesitate to talk to me, to the Join Fedora team, or to the developers and community people already working on the project.

What does this mean for Fedora Atomic Host and other deliverables?

This isn’t the place for technical details — see “what next?” at the bottom of this message for more. I expect that over the next year or so, Fedora Atomic Host will be replaced by a new thing combining the best from Container Linux and Project Atomic. This new thing will be “Fedora CoreOS” and serve as the upstream to Red Hat CoreOS.

Hey, so… “Fedora Core”!

Everything’s a circle, right? But, this has nothing to do with the Red Hat vs. external split that was Fedora Core and Extras back in the day. We absolutely do not want to regress to that kind of community divide. “Core” just happens to be a pretty catchy name component for an OS that fits the “small, focused base” concept. This concept is powerful and useful for today’s information technology and computing world, and we want to give it proper focus in Fedora.

Okay, so, what next?

Visit the new website at https://coreos.fedoraproject.org. The project is just getting started, so there’s not much there yet, but we do have an initial FAQ. If you have questions that aren’t answered, or just want to get involved, join in discussion on the new Discourse board, the dev mailing list at coreos@lists.fedoraproject.org, and on Freenode IRC in #fedora-coreos.

Fedora 28 was released last month, and the major update brought with it a raft of new features for the Fedora Installer (Anaconda).  Like Fedora, Anaconda is a dynamic software project with new features and updates every release. Some changes are user visible, while others happen under the hood — making Anaconda more robust and prepared for future improvements.

User & Root configuration on Fedora Workstation

When installing Fedora Workstation from the Live media, the user and root configuration screens are no longer in the installer. Setting up users is now only done in the Initial Setup screens after installation.

The progress hub on a Fedora 28 Workstation live installation.

The back story is that the Fedora Workstation working group aimed to reduce the number of screens users see during installation.  Primarily, this included screens that let a user set option twice: both Anaconda and the Gnome Initial Setup tool upon first boot. The working group considered various options, such as Anaconda reporting which screens have been visited by the user and then hiding them in Gnome Initial Setup. In the end they opted for just always skipping the user and root configuration screens in Anaconda and just configuring a user with sudo rights in Gnome Initial Setup.

Because of this the respective screen (user creation) shows up just once (in Gnome Initial Setup), making the installation experience more consistent.

It’s also worth noting that this change only affects the Fedora Workstation live image. All other images, including the Fedora Workstation netinst image and other live images, are unaffected.

Anaconda on DBus

Last year we announced the commencement of our next major initiative — modularizing Anaconda. The main idea is to split the code into several modules that will communicate over DBus. This will provide better stability, extensibility and testability of Anaconda.

Fedora 28 is the first release where Anaconda operates via DBus. At startup, Anaconda starts its private message bus and ten simple modules. For now, the modules just hold data that are provided by a kickstart file and modified by the UI. The UI uses the data to drive installation. This means that you can use DBus to monitor current settings, but you should use the UI to change them.

You can easily explore the current Anaconda DBus API with the live version of Fedora Workstation 28. Just keep in mind that the API is still unstable, so it might change in the future.

To do so, boot the live image and install the D-Feet application:

sudo dnf install d-feet

Start the installer and get an address of the Anaconda message bus:

cat /var/run/anaconda/bus.address

Start D-Feet, choose the option ‘Connect to other Bus’ and copy the first part of the Anaconda bus address to the text field (see the picture below). Click on the ‘Connect’ button. The application will open a new tab and show you a list of available DBus services. Now you can view the interfaces, methods, signals and properties of Anaconda DBus modules and interact with them.

Connecting to the Anaconda DBUS session.

The Anaconda DBUS API as visible in D-Feet.

Blivet 3.0 and Pykickstart 3.0

Fedora 28 provides version 3 of blivet and Pykickstart, and Anaconda uses the updated versions too.  While this is not really visible from end user perspective, changes like this are important to assure a robust and maintainable future for the Anaconda installer.

The main change in Pykickstart 3 is the switch from the deprecated optparse module to argparse for kickstart parsing. This not only brings all the features argparse has, it was also one of the prerequisites for having automatically generated kickstart documentation on Read the Docs.

Blivet 3 is less radical  update, but includes significant API improvements and cleanups. Some installer-related code still sitting in Blivet was finally moved to Anaconda.

Migrating from authconfig to authselect

The authconfig tool is deprecated and replaced with authselect in Fedora 28, so Anaconda deprecated the kickstart command authconfig and introduced a new command: authselect. You can still use the authconfig command, but Anaconda will install and run the authselect-compat tool instead.

Enabled hibernation

Previously, Hibernation didn’t work after installation because of a missing kernel option, so it had to be set up manually. Starting with Fedora 28, Anaconda adds the kernel option ‘resume’ with a path to the largest available swap device by default on x86 architectures.

Reducing Initial Setup dependencies

The Initial Setup tool is basically a lightweight launcher for arbitrary configuration screens from Anaconda. And while Anaconda often runs from a dedicated installation image, Initial Setup always runs directly on the installed system. This also means all the dependencies of Initial Setup will end up on users system, and unless they are uninstalled, they will take up space more or less forever.

The situation is even more dire on ARM, where users generally just dd a Fedora image to memory card or internal storage on the ARM board and Initial Setup basically acts as the installer, customizing the otherwise identical image for the given user. In this case Initial Setup dependencies directly dictate how small the Fedora image can be.

In Fedora 28, the new anaconda-install-env-deps metapackage  depends on all installation-time-only dependencies. The anaconda-install-env-deps package is always installed on installation images (netinst, live), but is not an Initial Setup dependency and should thus prevent all the unnecessary packages from being pulled in to the installed system. There is also a nice side effect of finally consolidating all the install-time-only dependencies in the Anaconda spec file.

Fedora Classroom sessions continue next week with a session on Fedora QA. The general schedule for sessions appears on the wiki. You can also find resources and recordings from previous sessions there. Here are details about this week’s session on Tuesday, June 19 at 1600 UTC. That link allows you to convert the time to your timezone.

Topic: Fedora QA 101/102

As the Fedora QA wiki page explains, this project covers testing of the software that makes up Fedora. The team’s goal is to continually improve the quality of Fedora releases and updates. You can find more information on the activities of the QA team on their wiki page.

This is a combined classroom session covering topics from Fedora QA 101 and 102, listed below:

Fedora QA 101

1. Working with Fedora
2. Installation of VMs
3. Installation and configuration of Fedora
4. Overview of the Fedora release cycle
5. Account setup
6. Finding and writing test cases
7. Websites used for testing
8. Version control and bug tracking
9. Testing methodologies, strategies, and categories

Fedora QA 102

1.  Screen sharing and walk-through of release validation
2. Screen sharing and walk-through of updates testing
3. Testing cloud images with Amazon EC2
4. How to write test cases for packages
5. Proposing and hosting your own test days

Instructors

Sumantro Mukherjee works at Red Hat and contributes to numerous open source projects in his free time. He also loves to contribute to Fedora QA and takes pleasure in helping new joiners contribute. Furthermore, Sumantro represents the Asia Pacific region in Fedora Ambassadors Steering Committee (FAmSCo). You can get in touch with him via his Fedora project e-mail or on IRC. Sumantro also goes by the nickname sumantrom on Freenode.

Geoffrey Marr, also known by his IRC name as coremodule, is a Red Hat employee and Fedora contributor with a background in Linux and cloud technologies. While working, he spends his time lurking the Fedora QA wiki and test pages. Away from work, he enjoys RaspberryPi projects, especially those focusing on software-defined radio.

Joining the session

This session takes place on Blue Jeans. The following information will help you join the session:

• URL: https://bluejeans.com/8569015043/
• Meeting ID (for Desktop App): 8569015043

We hope you attend, learn from, and enjoy this session. Also, If you have any feedback about the sessions, have ideas for a new one or want to host a session, feel free to comment on this post or edit the Classroom wiki page.

The Raspberry Pi model 3 B+ (RPi 3 B+) is the latest available in the Raspberry Pi series, released in mid-March 2018. RPi 3 B+ has some nice features and improvements over the previous RPi 3 B. They include faster 1.4 GHz processor clock speed, Gigabit Ethernet speed, dual-band 2.4GHz and 5GHz wifi support, and Bluetooth 4.2.

Fedora 28 was released soon after the RPi 3 B+. The good news is it supports the RPi 3 B+, as well as the RPi Model B versions 2 and 3. Images are available to download for both ARMv7 (32-bit) and aarch64(64-bit). This article will show you how to get wifi running on the RPi 3 B+.

Writing image to SD card

First, download a Fedora 28 image here. For this example, download the Fedora 28 aarch64 Workstation image and then write it to the SD card:

$ wget https://dl.fedoraproject.org/pub/fedora-secondary/releases/28/Workstation/aarch64/images/Fedora-Workstation-28-1.1.aarch64.raw.xz

Now, find out where the SD card has been mounted on the system by running dmesg:

$ dmesg
...
30046.093242] sd 4:0:0:0: [sdb] 62333952 512-byte logical blocks: (31.9 GB/29.7 GiB)
...

Here the card is mounted on /dev/sdb. This may be different on your system. Now, to write the image to the SD card, use the dd command:

$ xzcat Fedora-Workstation-28-1.1.aarch64.raw.xz | sudo dd status=progress bs=4M of=/dev/sdb

10737418240 bytes (11 GB, 10 GiB) copied, 1200.19 s, 8.9 MB/

Now you’ve successfully written the image to the SD card.

Next, in order to have the built-in wifi working you must download some missing firmware files and make them available in the directory /usr/lib/firmware/brcm/.

First, mount the root filesystem and add these files so that they will be available during boot. Use the lsblk command to find out where the root filesystem is available:

$ lsblk
...
sdb    8:16 1 29.7G 0 disk 
├─sdb1 8:17 1 200M  0 part 
├─sdb2 8:18 1 1G    0 part 
├─sdb3 8:19 1 1G    0 part 
├─sdb4 8:20 1 1K    0 part 
└─sdb5 8:21 1 7.8G  0 part

In this case the root filesystem is in sdb5, so mount it and add the missing firmware files:

$ sudo mkdir /mnt/foo && sudo mount /dev/sdb5 /mnt/foo/
$ sudo curl https://fedora.roving-it.com/brcmfmac43455-sdio.txt -o /mnt/foo/usr/lib/firmware/brcm/brcmfmac43455-sdio.txt
$ sudo curl https://fedora.roving-it.com/brcmfmac43455-sdio.clm_blob -o /mnt/foo/usr/lib/firmware/brcm/brcmfmac43455-sdio.clm_blob
$ sudo umount /mnt/foo

It is also possible to add the firmware files after the first boot. That method requires the Raspberry Pi 3 B+ to connect to internet via Ethernet. After you download the firmware files, to load the firmware the Raspberry Pi 3 B+ needs a system reboot.

Booting and initial configuration

Insert the prepared SD card into the Raspberry Pi 3 B+ connected to a monitor. Boot starts as soon as the RPi 3 B+ has a 5-volt, 2.5-amp power supply. The monitor displays the boot process output.

During first boot, the system takes you to the initial UI setup page where you configure user details. It also lists available networks to get connected via wifi. After these steps, you’ll see the regular GNOME Desktop.

Connecting to wifi using CLI

This section is useful in case you boot the Server image where there’s no graphical interface.

$ nmcli device wifi list
IN-USE SSID         MODE   CHAN  RATE SIGNAL BARS SECURITY
       SSID_2.5_GHz  Infra  10   195   Mbit/s 100 ▂▄▆█ WPA2
       SSID_5_GHz I  nfra   149  405   Mbit/s 72  ▂▄▆_ WPA2
$ nmcli device wifi connect SSID_5_GHz password $PASSWORD

$ nmcli device wifi list
IN-USE SSID MODE CHAN RATE SIGNAL BARS SECURITY
       SSID_2.5_GHz Infra 10 195 Mbit/s 100 ▂▄▆█ WPA2
 *     SSID_5_GHz I nfra 149 405 Mbit/s 72 ▂▄▆_ WPA2

Notice that the Raspberry Pi 3 B+ connects to 5 GHz wifi.

Known Issues

Fedora 28 works perfectly fine on Raspberry Pi 3 B+, but there are some issues to keep in mind.

• The aarch64 Server image doesn’t have the NetworkManager-wifi package pre-installed . Install this package first before trying to connect to the wifi network. Other images already have this package.
• Sometimes having a keyboard and mouse connected to the Raspberry Pi 3 B+ can cause the boot process to get stuck. In that case, remove them and re-insert them after the boot process completes.

Getting help

Raspberry Pi 3 B+ is one of the coolest and most popular single board computer devices available with Fedora 28 support. Give it a try and use it to run your favorite IoT application!

There is a FAQ available at the Fedora ARM wiki page which may help answer some of your questions. If it doesn’t, reach out for help or suggestions in the following places:

• Fedora ARM Mailing List
• #fedora-arm IRC channel on Freenode

We recently interviewed Khaled Monsoor on how he uses Fedora. This is part of a series that profiles Fedora users and how they use Fedora to get things done. Contact us on the feedback form to tell of us about someone you think we should interview, or to express interest in being interviewed.

Who is Khaled Monsoor?

Khaled Monsoor was born and raised in Dhaka, the capital of Bangladesh. After graduating with a degree in computer science and engineering, he worked in several different business sectors. Monsoor started a masters in Bioinformatics, but decided to not pursue it.

Monsoor currently works at Augmedix Inc., a Silicon Valley medicare startup, as a research engineer.  started using Linux in 2002 and got involved with the Fedora Project in 2005. He believes balancing the demands of a full-time job and family is the biggest challenge to contributing to open source projects.

His heroes are the Thundercats, Captain Planet and MacGyver. Khaled’s favorite movies are The Matrix and Interstellar. “During my youth, The Matrix [shook] my whole concept of reality. Is what we see and feel really real, or just sort of simulation or just a test? That sort of thing. In Interstellar, it’s the twisted human lives with advanced technology mesmerized me. I think the father in me cried, like a baby, with Matthew McConaughey in the hospital meeting scene.”

Monsoor also enjoys photography. He like to use his Nikon D7100, but admits the best camera is the one you have on hand. “I like magnificent nature pictures that takes me to that place, travel & street pictures of same spirit, and honest portraits that makes a close feelings of that person’s real life.”

More of Monsoor’s photos can be found on his Flickr page.

The Fedora Community

Monsoor’s first interaction with the Fedora Community left him impressed with its energy and passion about aesthetics. While there are many Linux distributions to choose from, he chose Fedora due to its “system stability, community support and Konsole terminal.” He would like to see more attention paid to Fedora’s overall visual aesthetics.

What Hardware?

For work, Monsoor uses Fedora 27 on an HP Probook 470 G3 laptop. The laptop is equipped with an Intel Core i7-6500U Processor and 16 GB RAM. It has a hybrid graphics solution utilizing Intel and AMD GPUs. The hybrid graphics is not very useful due to driver issues in Linux. Monsoor replaced the 500GB hard drive with a 128GB SSD drive to boost performance. “The big 17″ display is a huge plus for software development.”

Monsoor has repetitive pain injury (RSI) pain in his wrists so he uses a special mouse. “I use an Anker vertical wireless mouse to ease the stress on my wrist.”

What Software?

Monsoor prefers KDE Plasma for his desktop. He also makes use of Kate, Konsole, Kalc, Dolphin file manager and Kdenlive. For non-KDE software he uses Gimp, Pinta, Shotwell, Hyper Terminal, VS Code, PostgreSQL, Firefox and Libre Office.

When asked about why he prefers KDE he said, “I’m not sure, exactly. Possibly, it gives me a feeling of control. In charge of something very capable, waiting for directions and just works. Not forced over-simplistic, or trying to hide the complexities it handles, rather gives a grip on them. Or, just that its name begins with the same character (K) as my name.”

He prefers Konsole because “it shares the philosophy of KDE. Stable, capable and highly-configurable, just what power users needs. Not too dumb-looking, not too nerdy.”