263 lines
13 KiB
Markdown
263 lines
13 KiB
Markdown
---
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title: Known Environment Variables
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category: Interfaces
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layout: default
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---
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# Known Environment Variables
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A number of systemd components take additional runtime parameters via
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environment variables. Many of these environment variables are not supported at
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the same level as command line switches and other interfaces are: we don't
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document them in the man pages and we make no stability guarantees for
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them. While they generally are unlikely to be dropped any time soon again, we
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do not want to guarantee that they stay around for good either.
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Below is an (incomprehensive) list of the environment variables understood by
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the various tools. Note that this list only covers environment variables not
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documented in the proper man pages.
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All tools:
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* `$SYSTEMD_OFFLINE=[0|1]` — if set to `1`, then `systemctl` will
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refrain from talking to PID 1; this has the same effect as the historical
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detection of `chroot()`. Setting this variable to `0` instead has a similar
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effect as `SYSTEMD_IGNORE_CHROOT=1`; i.e. tools will try to
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communicate with PID 1 even if a `chroot()` environment is detected.
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You almost certainly want to set this to `1` if you maintain a package build system
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or similar and are trying to use a modern container system and not plain
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`chroot()`.
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* `$SYSTEMD_IGNORE_CHROOT=1` — if set, don't check whether being invoked in a
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`chroot()` environment. This is particularly relevant for systemctl, as it
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will not alter its behaviour for `chroot()` environments if set. Normally it
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refrains from talking to PID 1 in such a case; turning most operations such
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as `start` into no-ops. If that's what's explicitly desired, you might
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consider setting `SYSTEMD_OFFLINE=1`.
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* `$SD_EVENT_PROFILE_DELAYS=1` — if set, the sd-event event loop implementation
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will print latency information at runtime.
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* `$SYSTEMD_PROC_CMDLINE` — if set, the contents are used as the kernel command
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line instead of the actual one in /proc/cmdline. This is useful for
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debugging, in order to test generators and other code against specific kernel
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command lines.
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* `$SYSTEMD_FSTAB` — if set, use this path instead of /etc/fstab. Only useful
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for debugging.
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* `$SYSTEMD_CRYPTTAB` — if set, use this path instead of /etc/crypttab. Only
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useful for debugging. Currently only supported by systemd-cryptsetup-generator.
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* `$SYSTEMD_EFI_OPTIONS` — if set, used instead of the string in the
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SystemdOptions EFI variable. Analogous to `$SYSTEMD_PROC_CMDLINE`.
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* `$SYSTEMD_IN_INITRD` — takes a boolean. If set, overrides initrd detection.
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This is useful for debugging and testing initrd-only programs in the main
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system.
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* `$SYSTEMD_BUS_TIMEOUT=SECS` — specifies the maximum time to wait for method call
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completion. If no time unit is specified, assumes seconds. The usual other units
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are understood, too (us, ms, s, min, h, d, w, month, y). If it is not set or set
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to 0, then the built-in default is used.
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* `$SYSTEMD_MEMPOOL=0` — if set, the internal memory caching logic employed by
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hash tables is turned off, and libc malloc() is used for all allocations.
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* `$SYSTEMD_EMOJI=0` — if set, tools such as "systemd-analyze security" will
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not output graphical smiley emojis, but ASCII alternatives instead. Note that
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this only controls use of Unicode emoji glyphs, and has no effect on other
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Unicode glyphs.
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* `$RUNTIME_DIRECTORY` — various tools use this variable to locate the
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appropriate path under /run. This variable is also set by the manager when
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RuntimeDirectory= is used, see systemd.exec(5).
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* `$SYSTEMD_CRYPT_PREFIX` — if set configures the hash method prefix to use for
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UNIX crypt() when generating passwords. By default the system's "preferred
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method" is used, but this can be overridden with this environment
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variable. Takes a prefix such as `$6$` or `$y$`. (Note that this is only
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honoured on systems built with libxcrypt and is ignored on systems using
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glibc's original, internal crypt() implementation.)
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* `$SYSTEMD_RDRAND=0` — if set, the RDRAND instruction will never be used,
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even if the CPU supports it.
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* `$SYSTEMD_SECCOMP=0` – if set, seccomp filters will not be enforced, even if
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support for it is compiled in and available in the kernel.
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* `$SYSTEMD_LOG_SECCOMP=1` — if set, system calls blocked by seccomp filtering,
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for example in systemd-nspawn, will be logged to the audit log, if the current
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kernel version supports this.
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systemctl:
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* `$SYSTEMCTL_FORCE_BUS=1` — if set, do not connect to PID1's private D-Bus
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listener, and instead always connect through the dbus-daemon D-bus broker.
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* `$SYSTEMCTL_INSTALL_CLIENT_SIDE=1` — if set, enable or disable unit files on
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the client side, instead of asking PID 1 to do this.
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* `$SYSTEMCTL_SKIP_SYSV=1` — if set, do not call out to SysV compatibility hooks.
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systemd-nspawn:
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* `$SYSTEMD_NSPAWN_UNIFIED_HIERARCHY=1` — if set, force nspawn into unified
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cgroup hierarchy mode.
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* `$SYSTEMD_NSPAWN_API_VFS_WRITABLE=1` — if set, make /sys and /proc/sys and
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friends writable in the container. If set to "network", leave only
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/proc/sys/net writable.
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* `$SYSTEMD_NSPAWN_CONTAINER_SERVICE=…` — override the "service" name nspawn
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uses to register with machined. If unset defaults to "nspawn", but with this
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variable may be set to any other value.
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* `$SYSTEMD_NSPAWN_USE_CGNS=0` — if set, do not use cgroup namespacing, even if
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it is available.
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* `$SYSTEMD_NSPAWN_LOCK=0` — if set, do not lock container images when running.
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* `$SYSTEMD_NSPAWN_TMPFS_TMP=0` — if set, do not overmount /tmp in the
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container with a tmpfs, but leave the directory from the image in place.
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systemd-logind:
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* `$SYSTEMD_BYPASS_HIBERNATION_MEMORY_CHECK=1` — if set, report that
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hibernation is available even if the swap devices do not provide enough room
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for it.
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systemd-udevd:
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* `$NET_NAMING_SCHEME=` – if set, takes a network naming scheme (i.e. one of
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"v238", "v239", "v240"…, or the special value "latest") as parameter. If
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specified udev's net_id builtin will follow the specified naming scheme when
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determining stable network interface names. This may be used to revert to
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naming schemes of older udev versions, in order to provide more stable naming
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across updates. This environment variable takes precedence over the kernel
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command line option `net.naming-scheme=`, except if the value is prefixed
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with `:` in which case the kernel command line option takes precedence, if it
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is specified as well.
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* `$SYSTEMD_REBOOT_TO_FIRMWARE_SETUP` — if set overrides systemd-logind's
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built-in EFI logic of requesting a reboot into the firmware. Takes a
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boolean. If set to false the functionality is turned off entirely. If set to
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true instead of requesting a reboot into the firmware setup UI through EFI a
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file `/run/systemd/reboot-to-firmware-setup` is created whenever this is
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requested. This file may be checked for by services run during system
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shutdown in order to request the appropriate operation from the firmware in
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an alternative fashion.
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* `$SYSTEMD_REBOOT_TO_BOOT_LOADER_MENU` — similar to the above, allows
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overriding of systemd-logind's built-in EFI logic of requesting a reboot into
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the boot loader menu. Takes a boolean. If set to false the functionality is
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turned off entirely. If set to true instead of requesting a reboot into the
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boot loader menu through EFI a file `/run/systemd/reboot-to-boot-loader-menu`
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is created whenever this is requested. The file contains the requested boot
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loader menu timeout in µs, formatted in ASCII decimals, or zero in case no
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timeout is requested. This file may be checked for by services run during
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system shutdown in order to request the appropriate operation from the boot
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loader in an alternative fashion.
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* `$SYSTEMD_REBOOT_TO_BOOT_LOADER_ENTRY` — similar to the above, allows
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overriding of systemd-logind's built-in EFI logic of requesting a reboot into
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a specific boot loader entry. Takes a boolean. If set to false the
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functionality is turned off entirely. If set to true instead of requesting a
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reboot into a specific boot loader entry through EFI a file
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`/run/systemd/reboot-to-boot-loader-entry` is created whenever this is
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requested. The file contains the requested boot loader entry identifier. This
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file may be checked for by services run during system shutdown in order to
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request the appropriate operation from the boot loader in an alternative
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fashion. Note that by default only boot loader entries which follow the [Boot
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Loader Specification](https://systemd.io/BOOT_LOADER_SPECIFICATION) and are
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placed in the ESP or the Extended Boot Loader partition may be selected this
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way. However, if a directory `/run/boot-loader-entries/` exists, the entries
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are loaded from there instead. The directory should contain the usual
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directory hierarchy mandated by the Boot Loader Specification, i.e. the entry
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drop-ins should be placed in
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`/run/boot-loader-entries/loader/entries/*.conf`, and the files referenced by
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the drop-ins (including the kernels and initrds) somewhere else below
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`/run/boot-loader-entries/`. Note that all these files may be (and are
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supposed to be) symlinks. systemd-logind will load these files on-demand,
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these files can hence be updated (ideally atomically) whenever the boot
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loader configuration changes. A foreign boot loader installer script should
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hence synthesize drop-in snippets and symlinks for all boot entries at boot
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or whenever they change if it wants to integrate with systemd-logind's APIs.
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installed systemd tests:
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* `$SYSTEMD_TEST_DATA` — override the location of test data. This is useful if
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a test executable is moved to an arbitrary location.
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nss-systemd:
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* `$SYSTEMD_NSS_BYPASS_SYNTHETIC=1` — if set, `nss-systemd` won't synthesize
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user/group records for the `root` and `nobody` users if they are missing from
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`/etc/passwd`.
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* `$SYSTEMD_NSS_DYNAMIC_BYPASS=1` — if set, `nss-systemd` won't return
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user/group records for dynamically registered service users (i.e. users
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registered through `DynamicUser=1`).
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* `$SYSTEMD_NSS_BYPASS_BUS=1` — if set, `nss-systemd` won't use D-Bus to do
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dynamic user lookups. This is primarily useful to make `nss-systemd` work
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safely from within `dbus-daemon`.
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systemd-timedated:
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* `$SYSTEMD_TIMEDATED_NTP_SERVICES=…` — colon-separated list of unit names of
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NTP client services. If set, `timedatectl set-ntp on` enables and starts the
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first existing unit listed in the environment variable, and
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`timedatectl set-ntp off` disables and stops all listed units.
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systemd-sulogin-shell:
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* `$SYSTEMD_SULOGIN_FORCE=1` — This skips asking for the root password if the
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root password is not available (such as when the root account is locked).
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See `sulogin(8)` for more details.
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bootctl and other tools that access the EFI System Partition (ESP):
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* `$SYSTEMD_RELAX_ESP_CHECKS=1` — if set, the ESP validation checks are
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relaxed. Specifically, validation checks that ensure the specified ESP path
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is a FAT file system are turned off, as are checks that the path is located
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on a GPT partition with the correct type UUID.
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* `$SYSTEMD_ESP_PATH=…` — override the path to the EFI System Partition. This
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may be used to override ESP path auto detection, and redirect any accesses to
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the ESP to the specified directory. Not that unlike with bootctl's --path=
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switch only very superficial validation of the specified path is done when
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this environment variable is used.
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systemd itself:
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* `$SYSTEMD_ACTIVATION_UNIT` — set for all NSS and PAM module invocations that
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are done by the service manager on behalf of a specific unit, in child
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processes that are later (after execve()) going to become unit
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processes. Contains the full unit name (e.g. "foobar.service"). NSS and PAM
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modules can use this information to determine in which context and on whose
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behalf they are being called, which may be useful to avoid deadlocks, for
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example to bypass IPC calls to the very service that is about to be
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started. Note that NSS and PAM modules should be careful to only rely on this
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data when invoked privileged, or possibly only when getppid() returns 1, as
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setting environment variables is of course possible in any even unprivileged
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contexts.
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* `$SYSTEMD_ACTIVATION_SCOPE` — closely related to `$SYSTEMD_ACTIVATION_UNIT`,
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it is either set to `system` or `user` depending on whether the NSS/PAM
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module is called by systemd in `--system` or `--user` mode.
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systemd-remount-fs:
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* `$SYSTEMD_REMOUNT_ROOT_RW=1` — if set and no entry for the root directory
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exists in /etc/fstab (this file always takes precedence), then the root
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directory is remounted writable. This is primarily used by
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systemd-gpt-auto-generator to ensure the root partition is mounted writable
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in accordance to the GPT partition flags.
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systemd-firstboot and localectl:
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* `SYSTEMD_LIST_NON_UTF8_LOCALES=1` – if set non-UTF-8 locales are listed among
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the installed ones. By default non-UTF-8 locales are suppressed from the
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selection, since we are living in the 21st century.
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