Systemd

systemd is a modern sysvinit & RC replacement for Linux systems. It is supported in Gentoo as an alternate init system.

Kernel
systemd makes use of many modern Linux kernel features. Right now, the lower bound on kernel version is set in the ebuild to 2.6.39. In recent versions of, there is a convenient way of selecting the mandatory and optional kernel options for systemd:

If you wish to configure your Kernel options manually, or do not use, the following kernel configuration options are required and recommended:

For UEFI system you'll also need to enable the following:

In the case you are using BFQ scheduler, it's recommended by BFQ upstream to enable "BFQ hierarchical scheduling support" under "Enable the block layer -> IO Schedulers"

For an up-to-date list, see section "REQUIREMENTS" in the upstream README file.

The directory
The directory is used by systemd and other applications as a non-persistent storage for runtime data like pid files, sockets and state files.

The systemd package will create directory itself. However, please note that this change will trigger automatic mounting of it in OpenRC as well, and may trigger using it by different software packages.

Upstream only supports file being a symlink to. Also not creating this symlink will cause problems with mount and df. In the past some utilities wrote information (like mount options) into and thus it was supposed to be file. Currently all software is supposed to avoid this problem but before you do switch check to be sure that you are not affected by any regressions.

To create the symlink, run:

Ensure /usr is present at boot time
For a split /usr configuration, one must use an initramfs to mount /usr before starting systemd. See the Official Initramfs Gentoo Guide for instructions.

Using LVM2 and Initramfs
In the case you are using sys-fs/lvm2 and booting with an initramfs, you will need to generate it using and running:

Where   is initramfs or one of the other genkernel targets as appropriate (see genkernel --help).

Please remember to append the --udev option even when creating an initramfs without using lvm to prevent errors related with lvmcreate and other problems.

If you're using LVM you should also make sure that LVM is configured to start the lvmetad daemon because otherwise it might be unable to mount LVM filesystems during boot. If lvmetad is not started /dev/disk/by-uuid might not be populated with LVM partitions and systemd will be unable to mount them.

You can enable lvmetad by doing the following modification:

Installation
contains udev and, then, you can safely let be removed as systemd will be the provider for.


 * Enable the systemd USE flag globally . The consolekit USE flag should also be disabled to prevent conflicts with the systemd-logind service. You can also switch to a systemd subprofile to use saner USE flags defaults not needing to change :

Then update your world with the new flags:

If you get dependency problems ( is blocking ), sys-fs/udev may be in the world file. Try to resolve this by:

Booting with systemd
In order to run systemd, you have to switch the init that your executable kernel (or your initramfs) uses.

The following subsections document how to switch the init in one of the boot managers or the kernel.

Grub Legacy (0.x)
The init=/usr/lib/systemd/systemd argument should be added to the kernel command-line. An example excerpt from would look like:

Should the system boot using openrc, try using real_init instead of init

Grub 2
If using the grub2-mkconfig configuration generator, add the init option to GRUB_CMDLINE_LINUX.

If writing a configuration by hand (experts only), append the init parameter to the linux or linux16 command.

If using genkernel-next's initrd, use real_init instead of init.

In kernel config
You can also set this in your kernel configuration. See "Processor type and features" -> "Built-in kernel command line". Note that this technique works for both grub and grub2.

Setting root password
At this point you might also want to set your root password. If something goes wrong, systemd would prompt for root password to go into maintenance mode.

Post Installation Configuration
systemd supports a few system configuration files to set the most basic system details.

Hostname
To set the hostname, create/edit and simply provide the desired hostname.

When booted using systemd, a tool called hostnamectl exists for editing and. To change hostname, run:

Refer to man hostnamectl for more options.

Locale
Usually, you will get your locale properly migrated from openRC when installing systemd. If required, you can set the locale in as per the Handbook instructions:

Once booted with systemd, the tool localectl is used to set locale and console or X11 keymaps. To change the system locale, run the following command.

To change the virtual console keymap:

And finaly, to set the X11 layout:

If needed you can specify the model, variant and options too:

Time & Date
Time and date can be set using the timedatectl utility. Managing the system time before booting with systemd is complex, so it is recommended to leave this until after booting and using the timedatectl utility. It is recommended for systemd-timedated.service to set a symlink from your timezone "/usr/share/zoneinfo/[timezone]" to "/etc/localtime". The ntpdate.service is deprecated and not useable anymore with networkmanger and systemd.

Automatic module loading
Automatic module loading is configured in a different file, or rather directory of files. The configuration files are stored in /etc/modules-load.d. On boot every file with a list of modules will be loaded. The file format is a list of modules seperated by newline and can have any name you want as long as it ends with .conf. You can separate out the module loading by program, service or whatever way you like. My virtualbox.conf example is listed below. But I can imagine one also has an iptables.conf for all the kernel modules needed for your firewall or one big file with all modules.

Handling of log files
systemd has its own way of handling log files without needing to rely on any external log system (like syslog-ng or rsyslog). Messages can now be read with journalctl. Anyway, you can still configure it to use your preferred external tool for handling them. Please type man journald.conf for learning about how to configure journald to suit your needs.

/tmp is now in tmpfs
Unless you explicitly mount some other filesystem to /tmp in your fstab, systemd will mount /tmp as tmpfs. That means it will be emptied on every boot and its size will be limited to 50% of your RAM size. To know why this is the desired behavior and how to modify it, take a look at API File Systems

Configure verbosity of boot process
When migrating to systemd you will probably notice differences regarding verbosity of boot process:
 * quiet option not only affects to kernel output, but also to systemd itself. Then, while you are setting up systemd for your machine, you will probably want to drop it to see any errors could arise more easily. After that, you can add it back to get a quiet (and faster) boot.
 * Even passing quiet option, you can still configure systemd to show its status by also passing systemd.show_status=1.
 * When not using quiet option, you could get some messages overwriting consoles, that is caused by kernel configuration (see man 5 proc and look for /proc/sys/kernel/printk). To tweak it you can pass the loglevel=5 boot parameter to the kernel (or a lower value like 1).

Services
At some point you will have to reboot your system in order to get systemd running (in system mode). Be sure to read all of this document to ensure you have systemd configured as completely as possible before rebooting. Note that journalctl(8) works with systemd(8) not running, but that systemctl(8) will not do anything useful without systemd running. You will likely want to complete the service configuration (enabling and starting of services) after you get logged in to your system running systemd.

OpenRC services
Although systemd originally intended to support running old init.d scripts, that support is not suited well for a dependency-based RC like OpenRC and thus is completely disabled on Gentoo. OpenRC provides additional measures to ensure that init.d scripts can't be run when OpenRC was not used to boot the system (otherwise the results would be unpredictable).

Listing available services
All available service units can be listed using the list-units verb provided by systemctl:

The following file suffixes are of interest:
 * - plain service files (e.g. ones just running a daemon directly),
 * - socket listeners (much like inetd),
 * - filesystem triggers for services (running services when files change etc.).

Alternatively, systemctl tool can be used to list all services (including implicit ones):

And finally the systemadm graphical tool can be used. It can be installed with the package.

Installing custom service files
Any custom service files should be copied to the directory. The directory is reserved for service files installed by ebuilds. Overriding settings in the ebuild provided service files can be done like this: You create a service file with the same name, include the original and make your changes.

Then stop the original if it is running, reload systemd, start the new service and check that your new settings are in place:

Enabling, disabling, starting and stopping services
The usual way of enabling a service is using

Services can be disabled likewise:

These commands enable services using their default name in default target (both specified in Install section of the service file). However, sometimes services either don't provide that information or you want to use another name/target.

Note that these commands only enable or disable the system to be started on a next boot; if you want to start the service right now, you can use

Services can be stopped likewise:

Enabling a service under a custom name
This is especially a case for template services -- services in which part of the name following @ (at sign) is used as a parameter to the service. This is often used to specify the terminal on which getty will run.

To enable a service under custom name, you have to create a symlink to the service file in correct directory. The name of that directory can either specify a target or another service which will depend on the new one.

For example, to enable stand-alone wpa_supplicant on wlan0, type:

To disable the service, just remove the symlink:

Native services
Some of Gentoo packages already install systemd unit files. For these services, it is enough to enable them. A quick summary of packages installing unit files can be seen on systemd eclass users list.

The following table lists systemd services matching OpenRC ones:

Timer services
Since version 197 systemd supports timers, making cron unnecessary on a systemd system. Since version 212 persistent services are supported, replacing even anacron. Persistent timers are run at the next opportunity if the system was powered down when the timer was scheduled.

The following is an example on how to make a simple timer that runs in the context of your user. It will even run if the user is not logged in. Every timed service needs a timer and a service file that is activated by the timer as follows:

Firstly, you must tell systemd to rescan the service files

You can trigger the backup manually by running

You can start and stop the timer manually by running

And finally to activate the timer at every system start run

You can check the last result of running the service with

Emailing failures
If a timed service runs and failes you can be informed by email. This is possible with the OnFailure stanza that allows you to specify what should happen if a service fails. A failure is detected by a non-zero return code of the backup-work script. For that change the script as follows:

This requires you to have the service  installed, which can be found here.

Replacing cron
The above timer and service files can also be added to to make them available system-wide. The install section should then say  to enable the service at system start.

However, cron also runs the scripts in etc. and several packages place scripts there that they expect to be run daily. You can emulate this behaviour with systemd by first installing and then systemd-cron. Just run  and. You can ignore the systemd-crontab-generator stuff if you are only interested in running the files in. Just copy the files from to. Then ensure you adjust the path to  in the service files. The  script is located in gentoo in. Then activate your new cron replacement with

Troubleshooting

 * Upstream debugging guide
 * Upstream debugging guide
 * Upstream debugging guide

lvm
If you are switching from openrc to systemd and you need lvm to properly mount your volumes, you should activate lvm service:

While it might not be needed for activation of root volume, if lvm is integrated into your initramfs, it might not work for other lvm volumes, unless you activate the service.

systemd-logind & pam_systemd
systemd intends to provide an integrated ConsoleKit replacement called logind. Some applications (like NetworkManager and polkit) provide support for it through USE=systemd. Please note that this flag usually disables ConsoleKit support as well and thus packages may stop working as expected if the procedure described below is not fulfilled. If you're having issues with not being able to detect NetworkManager is running, modify your system-auth file to add pam_systemd.

In order to enable session tracking for systemd-logind, you have to enable the pam_systemd PAM module first. This can be done using USE=systemd on.

Except for tracking user logins (like ConsoleKit does), this will cause all user processes to belong to a cgroup. You can add controllers=... to provide additional cgroup controllers (like cpu for CPU load balancing). You can also add kill-session-processes=1 to ensure that all processes spawned by user are killed on logout. For more information, take a look at pam_systemd man page.

systemd-bootchart
As systemd-bootchart attempts to start, you may have to edit its configuration file:

Result is a report in svg located in.

syslog-ng conflicts with systemd
systemd creates as datagram socket   so you will need to tell syslog-ng to read from a unix-dgram instead of a unix-stream if you are hitting problems and are using "wrong" stream:

should be replaced with: in order to use the syslog-ng service in systemd.

sys-fs/cryptsetup configuration
systemd doesn't seem to respect  and, then, you will need to configure it in /etc/crypttab file:

Check for units that failed to start
To check for units that failed to start you can run:

Enable Debug Mode
To get more informations you need to set the following in :

Or enable the debug-shell, that opens an terminal at tty9. This help to debug such service during boot process.

e4rat usage
Please remember to edit setting 'init' to /usr/lib/systemd/systemd, otherwise it will keep booting openrc.

Multi-PV VGs in LVM on LUKS configuration
If you have this configuration: sdX -> LUKS -> PV1 -> VG1 -> LV1(root) -> / sdY -> LUKS -> PV2 \ |-> VG2 -> LV2 -> /home/SOME_FOLDER sdZ -> LUKS -> PV3 / You may experience very slow boot-up and a couple of errors/timeouts from lvm2 systemd services (they are auto-generated by when global/use_lvmetad=0 in ). They are caused by a timeout of lvm2-activation-early.service.

You may fix this by masking the service like this:

You may need to mask the lvm2-activation-net.service too:

GRSecurity hardening
Synopsis: systemd-networkd log error

could not find udev device: Permission denied The error raises due to systemd-networkd works under non-root user.

You should set kernel option CONFIG_GRKERNSEC_SYSFS_RESTRICT=N.

External resources

 * FAQ
 * Tips and tricks