Opensuse Leap 15.4 on a PC – I – Upgrade from Leap 15.3 – repositories, Nvidia, Vmware WS, KVM, Plasma widget deficits

Today I upgraded a desktop PC with an Nvidia graphics card from Opensuse Leap 15.3 to Leap 15.4. I really must say: This was one of the smoothest upgrades I have ever experienced with Opensuse. However, there were again a few standard problems which had to be solved.

In this first post I summarize the upgrade steps and check the basic functionality of KDE/Plasma, VMware Workstation and KVM. I will also comment on some deficits of Plasma widgets for system monitoring.

In a second posts I summarize a brief test of Xwayland. A third post will discuss how to define a screen order for situations where multiple screens are attached to your PC. A brief fourth post will discuss PHP8 and Apache2 settings. We will also check that Eclipse works for PHP and Python/PyDeV. I will also verify the functionality of Python3 (3.9/3.10), Tensorflow2 and Jupyter after the upgrade. A last post provides solutions for multi-soundcard setups with Pulseaudio and pavucontrol.

PC components – and major SW

My PC has two major raid-systems – one with multiple SSDs (at an Intel controller, set up and controlled with the help of Linux mdraid) and one with HDs (3ware controller). The raid systems host LVM volumes and ordinary partitions. The graphics card is a relatively old Nvidia card. Two sound cards (X-Fi, Xonar D2X) are used in parallel. My standard desktop is KDE/Plasma scaled over 3 screens. For virtualization of Windows 10 VMware WS 16 is used. Virtualized Linux systems, however, run on KVM/qemu with virtual spice screens. PHP development is done with the help of Eclipse and a local Apache server. Machine Learning development is done with Python3 (3.9), PyDEV (Eclipse), Tensorflow2/Keras, Juypter.

Upgrade procedure

Regarding the basic upgrade procedure you can adapt steps which I have extensively described for a laptop here. You can just ignore any steps regarding an Optimus based combination of graphics cards.

List of steps

  • Step 1:Make backups! Especially of the LVM volumes or partitions which host your root filesystem and your /home-directory.
  • Step 2: Check your repositories! Save a list of your active ones and their URLs. Reason: Some repository paths below “download.opensuse.org” have changed and you need to include these repos again into zypper. Below I give some information on repositories which directly can be upgraded with the help of ${releasever}.
  • Step 3: Update your current RPMs.
  • Step 4: In a terminal window:
    mytux:~ # zypper refresh
    mytux:~ # zypper update

    Then restart your system and verify that it is working.

  • Step 5: In a terminal window change repo URLs to include ${releasever}
    mytux:~ # sed -i 's/15.3/${releasever}/g' /etc/zypp/repos.d/*.repo
    mytux:~ # sed -i 's/$releasever/${releasever}/g' /etc/zypp/repos.d/*.repo
    
  • Step 6: In a terminal window test a refesh for the Leap 15.4 repos:
    mytux:~ # zypper --releasever=15.4 refresh
    

    If there are problems analyze the reason and eliminate those repositories whose URL have changed. Re-check the success of the refresh.

  • Step 7: In a terminal window download the new RPMs
    mytux:~ #  zypper --releasever=15.4 dup --download-only --allow-vendor-change
    
  • Step 8: Close the graphical desktop and switch to a TTY (Ctrl-Alt-F1). Stop the display server and then upgrade
    mytux:~ # init 3 
    mytux:~ # zypper --no-refresh --releasever=15.4 dup --allow-vendor-change
    
  • Step 9: Pray and reboot to your upgraded Opensuse Leap 15.4

With selected repositories discussed below all these steps could be performed without major problems.

My good news are: There were no problems regarding drivers for the Nvidia card (see below), the raid controllers and my multiple Raid 5 and Raid 10 setups with LVM groups and LVM volumes. No problem was seen regarding Grub2 and systemd.

Which repositories can be directly upgraded via ${releasever}?

Central repositories for the upgrade are

https://download.opensuse.org/update/leap/15.4/oss/
http://download.opensuse.org/update/leap/15.4/backports/
http://download.opensuse.org/update/leap/15.4/sle/

Their 15.3 precedessors must be active. You need to refresh them and replace the “15.3” in their addresses by “${releasever}”. See my post named above for the required steps. Aside of the central repositories I kept some others active during the upgrade process (with ${releasever}). Worth to name:

https://download.opensuse.org/repositories/LibreOffice:/7.5/openSUSE_Leap_15.4/
https://download.nvidia.com/opensuse/leap/15.4
https://developer.download.nvidia.com/compute/cuda/repos/opensuse15/x86_64
https://ftp.fau.de/packman/suse/openSUSE_Leap_15.4/
https://download.opensuse.org/repositories/mozilla/openSUSE_Leap_15.4/
https://download.opensuse.org/repositories/devel:/languages:/php/openSUSE_Leap_15.4/

These repositories cause no problems as their URLs for 15.3 and 15.4 only show a difference regarding their release version but not their position in the URL-tree below “download.opensuse.org”. However, some other repositories, like those for X2GO, graphics, network, security have changed their position in the URL-resource-tree and must be reconfigured after the upgrade – e.g with the help of YaST or zypper.

Nvidia driver and the new kernel

On Leap 15.3 I had used the latest Nvidia driver from the usual Nvidia community repository

download.nvidia.com/opensuse/leap/${releasever}

The active RPM was replaced by the one from the Leap 15.4 repo during upgrade resulting in the RPM “nvidia-compute-G06”, version 525.89.02-lp154.5.1. Both the transition to the respective Nvidia kernel module for the new kernel 5.14.21 and the module’s inclusion in the system’s startup procedures by dracut went without any faults.

The upgraded system directly started into a SDDM login screen. There as a mess regarding my screen order (see a forthcoming post), but this did not hinder a proper login. Afterward KDE/Plasma (in combination with Xorg) started on the three screens attached to my PC. Though I feel that the startup of KDE/Plasma for Xorg takes a more time than on Leap 15.3. But I could see no major problems. GLX applications were running as expected.

VMware Workstation WS 16.2.5 works!

As I already saw with a Leap 15.4 installation on a laptop: VMware WS 16.2.5 works with Leap 15.4 and Kernel 5.14.21. Actually, already version WS 16.2.3 is compatible.

KVM/Qemu works with installed virtual systems!

The transition of KV, qemu und libvitrtd went smoothly. virt-manager works and starts installed virtual systems as expected:

KDE – plasma-systemmonitor and respective widgets do not show information on Nvidia graphics card and not all information on network cards

At least on my system with KDE Plasma 5.24.4 (KDE Framework 5.90) I saw major deficits regarding apps and widgets which should monitor the status of system resources:

  • Problem 1 – no information about the status of the Nvidia GPU: Neither the application “systemmonitor” nor related widgets can deliver information about the status of the NVidia card (temperature, VRAM usage, fan) – with the (useless) exception of the type of the card. See th eimage in the next section. (Note that lm_sensors do not help in this case as the HW sensors did not detect the Nvidia card either.)
  • Problem 2 – no information about virtual network devices: In addition the KDE/Plasma widgets were not able to display all data for network interfaces correctly. E.g. interfaces like lo, bridges and other virtual devices were not even listed. And thus on a more complex configuration with virtualization you will not see your IP addresses with the Plasma-tools.

Regarding the second point: The image below shows that the dialog to set up network monitoring only offers to select an active physical device, in my case eth1. But no virtual devices which are available, too.

And here the devices nmon lists up:

These are clearly Plasma problems as other basic Linux and desktop applications perform much better for the named resources. Someone who works with Machine Learning and with virtualized Linux installations needs to watch the GPU (fans and temperature) and traffic across network devices – virtualized or real. This does not seem to be something we can get from fancy KDE/Plasma widgets today. So, we have to look out for alternatives.

Alternatives to watch the temperature of Nvidia GPUs

One prominent example which covers more than the present KDE widgets for system monitoring is the good old “gkrellm“. I love it, really! Compact, with a lot of already integrated default “sensors” and compatible to lm_sensors! And it delivers me the GPU temperature.

Another desktop tool with a somewhat old fashioned presentation of graphics is psensor. You can get a binary for Leap 15.4 from the “home”-repository of plasmaaregataos.

https://download.opensuse.org/repositories/home:/plasmaregataos/15.4/

Interesting, how much this tool finds out about the Nvidia card (where Plasma tools fail totally).

And then we have, of course, Nvidia’s own tools: nvidia-settings (graphical) and nvidia-smi (ASCII):

Note that the command to periodically update the nvidia-smi information is:

watch -n0.1 nvidia-smi

Alternatives to watch the data traffic across all network devices – real and virtual

Once again I have to name gkrellm. It provides a lot of information on real and virtual network interface.

Regarding a graphical information on virtual network interfaces we can also use a relatively old KDE tool, namely ksysguard. Besides real network interfaces it detects bridges and KVM or Vmware based virtual devices and tracks their load.

Hint for those who worry about the discrepancy with the screenshot for nmon above: Some devices which nmon showed were not available at the time of the screenshot of ksysguard as certain KVM virtual machines and networks were not yet started. Later ksysguard detects other devices, too:

Based on ncurses you can also use the network part of “nmon” to get information on transfer rates across all defined network interfaces. If you need to go more into details a very good ASCII tool is “iptraf-ng“. “iftop” is also cool, but to watch multiple interfaces in parallel you have to use the command “iftop -i” on multiple terminal windows.

So, dear Plasma developers: When can we expect a fancy Plasma applications or widgets which reproduce and combine the “sensoric” abilities of gkrellm, psensor, ksysguard and iptraf-ng?

Conclusion

The upgrade from Leap 15.3 to Leap 15.4 posed no major problems on my PC. A relatively old VMware WS 16.2.x still worked and there were no problems regarding KVM/qemu. The new Nvidia driver could be compiled without any problems for the new kernel during upgrade and was directly integrated into the system by dracut. The new KDE/Plasma version started without problems on Xorg. Deficits of Plasma widgets for monitoring system devices were obvious; but this is not something we can blame Opensuse for.

In the next post of this series

Opensuse Leap 15.4 on a PC – II – Plasma, Gnome, flatpak, Libreoffice and others on (X)Wayland?

I will have a look at KDE/Plasma started on Xwayland.

Happy working with Opensuse Leap 15.4 and stay tuned …

 

Opensuse Leap 15.4 – Online Upgrade from Leap 15.3 on an Encrypted Laptop

After my retirement I was overwhelmed by a lot of typical German bureaucracy. But last weekend I used some time to start the long overdue upgrade of my old laptop from Opensuse Leap 15.3 to Leap 15.4. (The support for Leap 15.3 ended the at the end of 2022.)

I am always a bit afraid of upgrading my old laptop. It has a somewhat complicated configuration:

Its LVM volumes are fully encrypted with LUKS 2. It is an Optimus-System – and in the past it was not always easy to switch from the integrated Intel graphics card to the dedicated Nvidia card. Instead of Bumblebee I have used Opensuse’s Prime-Select with Leap 15.3. I use KDE as my graphical desktop environment. On Leap 15.3 I did not yet apply Wayland – but I intend to switch to Wayland with Leap 15.4. For some of my activities I also use Blender with full OpenGL support in form of a Flatpack installation. Furthermore, the laptop is used for both Machine learning, i.e. Python development, as well Web-development based on LAMP. So, it hosts a variety of services you normally find on servers. In addition we have KVM and VMware WS Pro installations. So, there are a lot of things which can go wrong. The Nvidia card is also an old one – a GT 645M which cannot be run with the latest generation of Nvidia drivers.

The good message is: The upgrade from leap 15.3 to 15.4 went very smoothly. At least regarding the things I was interested in. Below I describe the steps I have taken to upgrade. With some modifications you should be able to adapt it to your situation.

Backup of the encrypted LVM volume mounted on “/”

On my desktop PCs with Opensuse-installations, which I use for daily work, I follow a two-fold “backup”-policy ahead of upgrades: I copy my root-volume/partition to another LVM-volume or partition, and make it bootable in parallel to the existing installation. Reason: I want to be able to quickly switch to my present installation in case of trouble. As I have all of my personal and project data on separate LVM volumes with dedicated backups, the root-volume is the only one which I really must take care of. Therefore, I also copy it to a backup file on an external disk. For all data volumes I have a separate backup routine.

On my laptop I am a bit more relaxed: I just copy the volume mounted on “/” to an external disk. I have no second bootable installation on some other encrypted volume on the laptop. This means that I must boot a Live system or a Rescue system to make a backup of the unmounted “/”-volume.

For my purposes the Leap 15.3 “Rescue System”, which you can find on an DVD-ISO-image for the installation of Leap 15.3, was sufficient. You get the ISO image for such a DVD from opensuse.org and can burn it onto a DVD. The steps afterward were as follows:

  1. Boot your Leap 15.3 system. Check, on which partition or LVM volume your (encrypted) root-filesystem resides. Use e.g. YaST’s partitioner or gparted for this purpose. Shut down.
  2. Insert the DVD, select a boot menu, select the DVD, start from it, select “More …” in the GRUB-like menu, then select the DVD with the “Rescue System” and boot it.
  3. Login as root (no password required). Check that a tmpfs is mounted on / – and not some real partition.
    Note: The root-filesystem of our Leap-installation is NOT mounted on “/” of the rescue system. When I speak of the “root-filesystem” below I always refer to the filesystem containing the operative system of our current Leap 15.3 installation and not the root-fs of the rescue system.
  4. Check with command blkid what the device names of all accessible partitions and LVM volumes are. You should see encrypted and other volumes/partitions of your laptop disks/SSDs there.
  5. Plugin an external backup USB-disk. blkid should now also show the partitions on this disk, too.
  6. Mount the target filesystem of the external disk, where you want to place your backup, onto “/mnt” in your booted rescue system. Check the available space. In my case (with sdc being the external disk) :
    tty1:rescue:~ # mount /dev/sdc2 /mnt
    tty1:rescue:~ # df -h 
    ..
    /dev/sdc2     825G   78G   706G     10%   /mnt 
    ...
    
  7. Locate your Leap 15.3 root-filesystem. In my case the root-filesystem of the laptop is an LUKS2-encrypted LVM available as “/dev/mapper/vgb-lvb2”. Note: You must know in advance, i.e. from your Leap 15.3 setup, where your root-filesystem resides.
  8. We now use the command “dd” to copy the root-filesystem onto a restorable image file. In my case:
    dd status=progress if=/dev/mapper/vgb-lvb2 of=/mnt/root_lap.img  
    

After the backup of the (encrypted) root-fs of our Leap 15.3 installation we shut down the rescue system, remove the DVD and boot Leap 15.3 again.

Check your RPM repositories – refresh and update

On the rebooted Leap 15.3 we check what we have of active repositories. In my case these were quite many:

(Ignore the double “mozilla” entry.)

Recommendation: You should make a similar screenshot and save it somewhere outside your laptop to later be able to restore all of the different repositories for Leap 15.4.

However, the most important repositories required to perform the upgrade are three update repositories:

  • One with renewed RPMs for the OSS,
  • one for Backports (backportet RPMs, e.g. security RPMS backportet from newer kernel or glibc related versions than the presently available versions on Opensuse Leap/SLES)
  • and one for renewed RPMs for the SLES version corresponding to the current Leap.

Update-repositories contain the latest RPMs of an Opensuse distribution. In our upgrade process we still deal with relevant update repositories for Leap 15.3. But we are soon going to exchange them with their Leap 15.4 counterparts.

Look out for the URLs of the current update repositories :

 * https://download.opensuse.org/update/leap/15.3/oss/
 * https://download.opensuse.org/<br>update/leap/15.3/backports/
 * https://download.opensuse.org/<br>update/leap/15.3/sle/ repo-sle-update

Leap 15.3 and 15.4 RPMs are binary compatible to those for the related SLES versions. In my case I had switched most of my Leap 15.3 RPMs to those of the update repo of SLES already a long time ago. If you have not done this yet you should do so now with the help of YaST.

I also directly deleted the repository for games as I regard it unimportant during an Upgrade.

Now, we refresh the lists of available RPMs and update to the latest versions. You can use the graphical YaST2 for this purpose or the command line:

mytuxlap:~ # zypper refresh

Then we perform an update of our Leap 15.3 RPMs to the latest available versions:

mytuxlap:~ # zypper update

In my case some of my Leap 15.3 repositories (for games, graphics, xfce and for snappy) were no longer available and could not be refreshed. I just had waited too long with my upgrade. But this resulted in no major problems during the upgrade.

After the update reboot and verify that your Leap 15.3 system still works.

Change repository URLs to contain the ${releasever} instead of an explicit version number

We change the URLs of our repositories now to contain ${releasever} instead of an explicit “15.3” in the URLs. It is easy to do this on the command line:

mytuxlap:~ # sed -i 's/15.3/${releasever}/g' /etc/zypp/repos.d/*.repo
mytuxlap:~ # sed -i 's/$releasever/${releasever}/g' /etc/zypp/repos.d/*.repo

The second command is just for being on the save side of the shell interpreter. I had previously already changed some of the repo URLs to include $releasever, but I want everything to consistently use ${releasever}.

Refresh for Leap 15.4 repository content – and eliminate some repositories

Next we start switching to the repositories for Leap 15.4. The first step is a refresh on the command line, but now for the Leap 15.4 repos. We can do this with the help of the variable ${releasever} in the following form:

mytuxlap:~ # zypper --releasever=15.4 refresh

Note that this does not yet change our repositories themselves, yet, but just the local content information. It gets replaced by lists about the contents of the Leap 15.4 repositories.

In my case this refresh process lead to errors. The reason was that some of the repositories which I used on Leap 15.3 had got a different path structure of the respective web resource below “download.opensuse.org/” for Leap 15.4. You have to ask the Opensuse people why they changed this.

mytuxlap:~ # zypper --releasever=15.4 refresh
Warning: Enforced setting: $releasever=15.4
Retrieving repository 'nVidia Graphics Drivers' metadata ...........................................[done]
Building repository 'nVidia Graphics Drivers' cache ................................................[done]
Retrieving repository 'Packman Repository' metadata ................................................[done]
Building repository 'Packman Repository' cache .....................................................[done]
Retrieving repository 'Update 15.4' metadata .......................................................[done]
Building repository 'Update 15.4' cache..... .......................................................[done]
Retrieving repository 'graphics' metadata .........................................................[error]
Repository 'graphics' is invalid.
[openSUSE_Leap_${releasever}_1|https://download.opensuse.org/repositories/graphics/openSUSE_Leap_15.4/] Valid metadata not found at specified URL
History:
 - [openSUSE_Leap_${releasever}_1|https://download.opensuse.org/repositories/graphics/openSUSE_Leap_15.4/] Repository type can't be determined.

Please check if the URIs defined for this repository are pointing to a valid repository.
Skipping repository 'graphics' because of the above error.
Retrieving repository 'mozilla' metadata ...........................................................[done]
Building repository 'mozilla' cache ................................................................[done]
Retrieving repository 'XFCE' metadata .............................................................[error]
Repository 'XFCE' is invalid.
[openSUSE_Leap_${releasever}_3|https://download.opensuse.org/repositories/X11:/xfce/openSUSE_Leap_15.4/] Valid metadata not found at specified URL
History:
 - [openSUSE_Leap_${releasever}_3|https://download.opensuse.org/repositories/X11:/xfce/openSUSE_Leap_15.4/] Repository type can't be determined.

Please check if the URIs defined for this repository are pointing to a valid repository.
Skipping repository 'XFCE' because of the above error.
Retrieving repository 'Libdvdcss Repository' metadata ..............................................[done]
Building repository 'Libdvdcss Repository' cache ...................................................[done]
Retrieving repository 'Update repository of openSUSE Backports' metadata ...........................[done]
Building repository 'Update repository of openSUSE Backports' cache ................................[done]
Retrieving repository 'Non-OSS Repository' metadata ................................................[done]
Building repository 'Non-OSS Repository' cache .....................................................[done]
Retrieving repository 'openSUSE-Leap-15.4-Oss' metadata ............................................[done]
Building repository 'openSUSE-Leap-15.4-Oss' cache .................................................[done]
Retrieving repository 'Update repository with updates from SUSE Linux Enterprise 15' metadata ......[done]
Building repository 'Update repository with updates from SUSE Linux Enterprise 15' cache ...........[done]
Retrieving repository 'Aktualisierungs-Repository (Nicht-Open-Source-Software)' metadata ...........[done]
Building repository 'Aktualisierungs-Repository (Nicht-Open-Source-Software)' cache ................[done]
Retrieving repository 'snappy' metadata ............................................................[done]
Building repository 'snappy' cache .................................................................[done]
Some of the repositories have not been refreshed because of an error.

Then I changed again to the repository administration of YaST and simply deleted the problematic repos. We will care for their new URL later.

Note: The fact that we may have RPMs from missing repos during the upgrade is later on compensated by allowing for a “vendor change” – which means a repository change. See below.

After having eliminated problematic repos we get a successful refresh for the contents of remaining 15.4 repositories on the command line:

mytuxlap:~ # zypper --releasever=15.4 refresh
Warning: Enforced setting: $releasever=15.4
Repository 'nVidia Graphics Drivers' is up to date.                                     
Repository 'Packman Repository' is up to date.                                          
Repository 'mozilla' is up to date.                                                     
Repository 'Libdvdcss Repository' is up to date.                                        
Repository 'Update repository of openSUSE Backports' is up to date.                     
Repository 'Non-OSS Repository' is up to date.                                          
Repository 'openSUSE-Leap-15.4-Oss' is up to date.                                      
Repository 'Update repository with updates from SUSE Linux Enterprise 15' is up to date.
Repository 'Aktualisierungs-Repository (Nicht-Open-Source-Software)' is up to date.     
Repository 'snappy' is up to date.                                                      
All repositories have been refreshed.

Download of the RPMs without applying them, yet

The next step is to download the RPMs from the Leap 15.4 repos and save them in a cache for the later upgrade process. On a TTY or a root terminal window

mytuxlap:~ #  zypper --releasever=15.4 dup --download-only --allow-vendor-change

The option “–download-only” avoids the installation of the new 15.4 RPMs. Also note the option “–allow-vendor-change”: If a RPM cannot be replaced a substitute from other major repositories will be used – if one is found.

Agree to the RPM setup displayed and the license conditions. Some 5 to 10 minutes later, after having downloaded everything, we must deactivate the graphical desktop.

Perform the Upgrade on an ASCII terminal (TTY)

On a system with both an integrated Intel card and a dedicated Nvidia card you may first want to decide which card driver you want to be loaded during the upgrade. You may use the Prime-Select Applet of Opensuse to switch to Intel on your desktop. Then logout and login again and check whether the Nvidia driver is no longer active.

Personally, I just kept the Nvidia card and the respective driver running. The resulting small problems were easy to overcome; see below.

mytuxlap:~ # lsmod | grep nvidia
nvidia_drm             69632  5
nvidia_modeset       1204224  6 nvidia_drm
nvidia              35512320  281 nvidia_modeset
drm_kms_helper        303104  2 nvidia_drm,i915
drm                   634880  10 drm_kms_helper,nvidia,nvidia_drm,i915,ttm
mytuxlap:~ #  

Important: Logout now of the graphical desktop to perform the Upgrade.

Move to an ASCII terminal (e.g. via Ctrl-Alt F1). There login as root. Type in “init 3” to stop your running X- or Wayland server. And then start the real upgrade and the respective rpm installation via “zypper –no-refresh –releasever=15.4 dup –allow-vendor-change” :

mytuxlap:~ # init 3 
mytuxlap:~ # zypper --no-refresh --releasever=15.4 dup --allow-vendor-change

You must again confirm the RPM configuration and the license conditions. Depending on your previous configuration several thousands of packages will then be installed the next 10 minutes or so from the preloaded and cached RPMs.

After all required RPMs have been installed just reboot by typing “init 6” on the command line.

My Leap 15.4 situation after reboot

In may case the systems behavior after reboot was a bit strange.

The good news is:

I experienced no problems with LUKS 2, grub2, initramfs and the second phase of the startup during which all of my other LUKS2-encrypted LVM volumes were decrypted, checked and mounted.

Off topic: Leap uses initramfs, but stores it at /boot/initrd.

The whole startup process worked like before: I get asked for the LUKS2 decryption key directly after starting the boot process, then the graphical grub2 menu comes up and I can start the primary phase of the boot process based on initramfs. In my installation, due to security precautions, I was asked to provide the decryption key once again before the second boot phase on the real root-filesystem started. (Off topic: There are configuration tricks to circumvent the 2nd request for the LuKS2 key, but my personal opinion is that the asking a second time enhances security a bit. I cannot go into the related details of a LUKS 2 configuration here.)

The bad news is:
The behavior of the Optimus environment was not consistent. Although the Nvidia RPMs had been shifted to those from the Nvidia community repository for Leap 15.4 after the reboot the Intel i915 was loaded – and I did not manage to activate the Nvidia driver. Also bbswitch interfered with my trials and shut down the Nvidia card:

The warm reboot directly after the upgrade seemed to work without major error messages (with the exception of an expected VMware related error; see below). The startup process eventually led to graphical login screen of sddm.
After login the applet for Prime-Select told me that Nvidia was active.

However, after shutting the laptop down completely and starting it via a cold boot I saw that the laptop’s LED signalling the activation of Nvidia was off (more precise showing a blue instead a red color). The Intel driver i915 was loaded with the start of the sddm login screen. Afterward the X11-KDE/Plasma combination actually worked perfectly with it. As did the combination Wayland and KDE Plasma; see below.

But at least for work with Blender I do need an active Nvidia card on the desktop. So, how to get it running?

Optimus – and a small problem with the Nvidia card

When I turned to a TTY and issued “init 3” I, actually, could activate the NVidia card via

mytuxlap:~ # tee /proc/acpi/bbswitch <<< ON

And I also could load the Nvidia driver by

mytuxlap:~ # modprobe nvidia 

In addition

mytuxlap:~ # prime-select nvidia 

seemed to be accepted by the system.

However, when I afterward wanted to start the graphical desktop again via “init 5” I experienced that the Nvidia card was directly deactivated and that the Nvidia driver, therefore, could not work or be reloaded.

What a stupid situation! Obviously, the configuration of bbswitch had not been aligned correctly with prime-select and Nvidia during Upgrade.

Solution
In the end the solution was simple: I turned to a TTY, issued “init 3”, activated the Nvidia card, loaded the present driver and used the ASCII version of YaST (not graphical yast2) to reinstall (= update unconditionally) the Nvidia drivers from the Nvidia repository

I had to pick the G05-drivers as my graphics card is rather old. Note that the driver version 470 is also relatively old and has been reported to have some problems with the display manager Wayland.

After reboot everything then already worked as expected:
The Nvidia card was activated from the start and used for the graphical desktop afterwards. And I could use the Prime-Select Applet to switch to the Intel Driver with a subsequent logout from the KDE desktop and then a re-login. With Intel the Nvidia card got deactivated – which is very reasonable as it reduces the power consumption and heat generation of the laptop.

You may also check if things are already OK after a re-installation of the Nvidia drivers. The probably important thing is that during the reinstallation mkinitrd is started in the background and dracut is forced to re-configure the initramfs – this time with a loaded Nvidia driver.

If things still do not work in your case: Check that you have blacklisted the Nouveau driver in file “/etc/modprobe.d/50-blacklist.conf” and/or “/etc/modprobe.d/nvidia-default.conf” with entries

blacklist nouveau
options nouveau modeset=0

Then stop the graphical target again: Go to a terminal (Ctrl-Alt-F1), use “init 3” and try

mytuxlap:~ # init 3 
mytuxlap:~ # tee /proc/acpi/bbswitch <<< ON
mytuxlap:~ # modprobe nvidia

This should work. Then

mytuxlap:~ # mkinitrd

Then reboot. On the graphical desktop (probably still using the Intel driver) open a root terminal window. Try

  
mytuxlap:~ # prime-select nvidia

Log out from the graphical desktop, watch the laptop LED indicating the activation of the Nvidia card (should now show that Nvidia is on), log in and check that the Nvidia driver was loaded:

mytuxlap:~ # lsmod | grep video 

This should give you something like:

mytuxlap:~ # lsmod | grep nvidia
nvidia_drm             69632  7
nvidia_modeset       1204224  16 nvidia_drm
nvidia_uvm           1138688  0
nvidia              35512320  980 nvidia_uvm,nvidia_modeset
drm_kms_helper        303104  2 nvidia_drm,i915
drm                   634880  12 drm_kms_helper,nvidia,nvidia_drm,i915,ttm

Then test the reversion to the Intel driver via Opensuse’s prime-select applet. Should work now.

No cube animation for switching virtual desktops on KDE any more!

I had a brief look at other things on my new Leap 15.4 installation. Regarding KDE on Xorg the only thing I could complain about on Leap 15.4 was that the rotating cube animation for switching between virtual desktops was gone. This is due to decisions of the KDE people. So, Opensuse is NOT to blame for it. Personally, I think the loss of the animation is a pity, but it does not hinder any productivity, either. So, no big thing …

Wayland with KDE 5.24

A switch off the display server from Xorg to Wayland is a major step. I had been reluctant to use Wayland with Leap 15.2 and 15.3. Kernel, KDE and the Nvidia driver – all of their components must support Wayland. Unfortunately, Nvidia has for years been a major hinder in the support process – in contrast to Intel or AMD. So, I was a bit skeptical with Wayland, KDE/Plasma and Nvidia’s 470-driver on my old graphics card.

Positive results: KDE 5 started well. The startup of the desktop took longer time than with Xorg but completed successfully. Afterwards: No flickering of KDE, no problems with switching between virtual desktops or 3D desktop animations. Glxspheres worked. No problems with new windows of browsers like Firefox or Chromium – as were previously reported by others.

Best of all: My flatpack installation of Blender 3.3 did work very well.

Negative results: Nvidia-settings 470 did not work. Also, 3D-animation effects like wobbly windows appeared to have a slightly better performance on Xorg. After a session break (and the display of a protection screen with the option to relogin) a return to the KDE session lead to a strong white-flickering of the background. But this could be stopped by a mouse-click on the flickering background.

All in all: Even on my relatively old laptop I can productively use Wayland with Opensuse Leap 15.4 and KDE/Plasma 5.24 and Nvidia driver 470.

Leap 15.4 repositories with different locations than for 15.3

In general we can find available repositories at “https://download.opensuse.org”. The graphics repository has found a new location at

https://download.opensuse.org/repositories/graphics/15.4/,

the XFCE at

https://download.opensuse.org/repositories/X11:/xfce/15.4/.

Use Yast to add these repositories back to your list of active Leap 15.4 repos.

Still no actual Blender version on Leap 15.4

Note: Blender in a version above 2.82 is still not available for Leap 15.4. Which is a major shame. The glibc version is just too old for Blender 3.x. The only way out of this dilemma is a Flatpack or Snap based installation of Blender 3.4.
Such installations work, however, very well on Leap 15.4 – both with Xorg and Wayland.

Multimedia: Change system packages to RPMs of the packman repository

A broad range of multimedia tools and codecs require the packman repositories. What I typically do is to add a mirror with the packman repository, e.g.

https://ftp.gwdg.de/pub/linux/misc/packman/suse/openSUSE_Leap_${releasever}/    

to the list of repositories, use YaST2 for the display of the contents of this repository and then click on the link “Switch system packages to the versions in this repository (Packman repository)”.

I tested some typical multimedia applications I use: Pulseaudio, PA equalizer, Clementine, VLC and TV channels on browsers. No problems.

What about Python?

My last development work on a desktop machine was done with Python 3.9, Jupyter notebooks and Eclipse. Leap 15.4 offers Python 3.6 as the standard. However, you can in parallel install either Python 3.9 OR Python 3.10. the OR is unfortunately exclusive. (The current Python version is 3.11).

I think I can live for some time with Python 3.10. So, I tested an installation of a virtual Python environment on Leap 15.4. The key to do so is to move to a directory where you want to implement your virtual environment – and install the relevant interpreter plus related basic directories. The following commands show an example:

myself@mytuxlap:~> mkdir /projekte/GIT/ml_5
myself@mytuxlap:~> cd /projekte/GIT/
myself@mytuxlap:/projekte/GIT> virtualenv -p /usr/bin/python3.10 ml_5 
myself@mytuxlap:/projekte/GIT> cd ml_5
myself@mytuxlap:/projekte/GIT/ml_5> source bin/activate
(ml_5) myself@mytuxlap:/projekte/GIT/ml_5> pip install --upgrade pip
Collecting pip
  Using cached pip-23.0.1-py3-none-any.whl (2.1 MB)
Installing collected packages: pip
  Attempting uninstall: pip
    Found existing installation: pip 20.2
    Uninstalling pip-20.2:
      Successfully uninstalled pip-20.2
Successfully installed pip-23.0.1
(ml_5)  myself@mytuxlap:/projekte/GIT/ml_5> pip install jupyter      
Collecting jupyter
  Using cached jupyter-1.0.0-py2.py3-none-any.whl (2.7 kB)
...
...
(ml_5) myself@mytuxlap:/projekte/GIT/ml_5> jupyter-notebook 
...

This all works – but there are some (expected) errors regarding the jupyter_nbextensions_configurator. This is all well known – and also what has to be done to configure the jupyter_nbextensions correctly. This is no matter of leap 15.4.
Anyway, a Jupyter notebook will start in your default browser and you can start working with Python 3.10. I systematically added the needed libs and modules afterward with the help of pip. So, no majro problem with Python 3.10 on Leap 15.4!

What about PHP?

Well, Leap 15.4 offers an installation of either PHP7 or PHP8.0. I picked PHP8. But how does PHP 8 work together with a standard Apache2 installation on Leap 15.4?

Answer: It depends!

From the Apache point of view we would like to distribute the web server’s load on multiple Apache processes with a minimum consumption of RAM. Therefore, we would like to run Apache with an event based MPM module or just with the standard MPM-module. The problem is that this does not work with PHP. This problem already existed for lower PHP-versions than PHP 8.

You run into an error message like:

Apache is running a threaded MPM, but your PHP Module is not compiled to be threadsafe. You need to recompile PHP.

There are two solutions to this problem:

  • Switch to a prefork configuration of Apache 2.4 – and ignore the resulting RAM consumption
  • Use FastCGI and php8-fpm.

You also have to decide which method you want to use for changing the Apache2 configuration on Leap 15.4. You can remove RPMs or use a2enmod, a2dismod and maybe a2config, respectively. Relevant commands in our case would be “a2dismod mpm_worker”, a2dismod mpm_event” and a2enmod mpm_prefork”.

The easiest way, however, is to remove the RPMs “apache2-event” and/or “apache2-worker”, depending on what kind of configuration you have installed. I have no time to discuss the specific differences of these types of Multi-process setups of Apache2 here. To be able to activate prefork the RPM apache2-prefork must be installed. A reasonable RPM selection for a prefork variant would then look like this:

With this RPM selection you can just start Apache2 with the following modules successively:

mytuxlap:~ # rcapache2 restart
mytuxlap:~ # a2enmod rewrite 
mytuxlap:~ # a2enmod -l
actions alias auth_basic authn_core authn_file authz_host authz_groupfile authz_core authz_user autoindex cgi dir env expires include log_config mime negotiation setenvif ssl socache_shmcb userdir reqtimeout php8 version mpm_prefork rewrite
mytuxlap:~ # 

I.e.: For the simple prefork solution we can either try to disable the modules mpm_worker and/or mpm_event and activate “mpm_prefork” OR remove/install related RPMs.

But there is also another way to get PHP8 running – which is based on a FastCGI configuration of Apache2 together with the installation of a service for php8, namely php8-fpm. Personally, I have not yet tried a fast-cgi / php8-fpm combination on Leap 15.4. But I intend to describe the setup soon in this blog. In the meantime, please, check the information at the following links. It is given for other operative systems, but an adaption is straightforward.

Note: php-fpm is a service which must be started on your system via systemd’s command “systemctl”.

Digital ocean on PHP-fpm and Apache2 for Ubuntu 18
Digital Ocean on PHP and BSD
Digital ocean on PHP-fpm and Apache2 for Ubuntu 20

VMware and KVM

KVM works on leap 15.4 wwithout problems. I could directly start an existing qemu-virtualized Debian installation.

VMware WS also works on Leap 15.4. But you must have a version > WS 16.2.3 available. I updated to WS 16.2.5 by installing the bundle “VMware-Workstation-Full-16.2.5-20904516.x86_64.bundle”. Afterward I could start both VMware-virtualized Windows 10 and Win 7 installations on a Leap 15.4 KDE desktop without any problems.

Conclusion

The Upgrade from Opensuse Leap 15.3 to Leap 15.4 (with a KDE desktop) works without major problems even on older laptops with old Nvidia mobile graphics cards. Its a bit irritating that some Leap repositories got a new location with Leap 15.4 – but this can be fixed after the Upgrade.

A big positive surprise was that KDE 5.24 worked with Wayland even on my old Nvidia GT 645M card. A current Blender version MUST, unfortunately, be installed via Flatpack. Python 3.10 and PHP 8.0 are supported. KVM and VMware WS 16.2.5 pose no problems on Leap 15.4.

Happy working with Leap 15.4!

Links

Wayland vs. Xorg
https://linuxiac.com/ xorg-x11-wayland-linux-display-servers-and-protocols-explained/

Apache2 and PHP8
https://bbs.archlinux.org/ viewtopic.php?id=178124

 

Ceterum censeo: The worst fascist, war criminal and killer living today is the Putler. He must be isolated at all levels, be denazified and sooner than later be imprisoned. A president who orders the systematic destruction of civilian infrastructure must be fought and defeated because he is a permanent danger to basic principles of humanity. He must be brought to justice in front of an international court. Long live a free and democratic Ukraine!