journald.confsystemdDeveloperLennartPoetteringlennart@poettering.netjournald.conf5journald.confJournal service configuration file/etc/systemd/journald.confDescriptionThis files configures various parameters of the
systemd journal service
systemd-journald.service8.OptionsAll options are configured in the
[Journal] section:Storage=Controls where to
store journal data. One of
volatile,
persistent,
auto and
none. If
volatile journal
log data will be stored only in
memory, i.e. below the
/run/log/journal
hierarchy (which is created if
needed). If
persistent data will
be stored preferably on disk,
i.e. below the
/var/log/journal
hierarchy (which is created if
needed), with a fallback to
/run/log/journal
(which is created if needed), during
early boot and if the disk is not
writable. auto is
similar to
persistent but the
directory
/var/log/journal
is not created if needed, so that its
existence controls where log data
goes. none turns
off all storage, all log data received
will be dropped. Forwarding to other
targets, such as the console, the
kernel log buffer or a syslog daemon
will still work however. Defaults to
auto.Compress=Takes a boolean
value. If enabled (the default) data
objects that shall be stored in the
journal and are larger than a certain
threshold are compressed with the XZ
compression algorithm before they are
written to the file
system.Seal=Takes a boolean
value. If enabled (the default) and a
sealing key is available (as created
by
journalctl1's
command), forward secure sealing (FSS)
for all persistent journal files is
enabled. FSS is based on Seekable
Sequential Key Generators by
G. A. Marson and B. Poettering and
may be used to protect journal files
from unnoticed
alteration.SplitMode=Controls whether to
split up journal files per user. One
of login,
uid and
none. If
login each logged
in user will get his own journal
files, but systemd user IDs will log
into the system journal. If
uid any user ID
will get his own journal files
regardless whether it belongs to a
system service or refers to a real
logged in user. If
none journal files
are not split up per-user and all
messages are stored in the single
system journal. Note that splitting
up journal files per-user is only
available of journals are stored
persistently. If journals are stored
on volatile storage (see above) only a
single journal file for all user IDs
is kept. Defaults to
login.RateLimitInterval=RateLimitBurst=Configures the rate
limiting that is applied to all
messages generated on the system. If
in the time interval defined by
RateLimitInterval=
more messages than specified in
RateLimitBurst= are
logged by a service all further
messages within the interval are
dropped, until the interval is over. A
message about the number of dropped
messages is generated. This rate
limiting is applied per-service, so
that two services which log do not
interfere with each other's
limits. Defaults to 200 messages in
10s. The time specification for
RateLimitInterval=
may be specified in the following
units: s,
min,
h,
ms,
us. To turn off any
kind of rate limiting, set either
value to 0.SystemMaxUse=SystemKeepFree=SystemMaxFileSize=RuntimeMaxUse=RuntimeKeepFree=RuntimeMaxFileSize=Enforce size limits on
the journal files stored. The options
prefixed with
System apply to the
journal files when stored on a
persistent file system, more
specifically
/var/log/journal. The
options prefixed with
Runtime apply to
the journal files when stored on a
volatile in-memory file system, more
specifically
/run/log/journal. The
former is used only when
/var is mounted,
writable and the directory
/var/log/journal
exists. Otherwise only the latter
applies. Note that this means that
during early boot and if the
administrator disabled persistent
logging only the latter options apply,
while the former apply if persistent
logging is enabled and the system is
fully booted
up. journalctl and
systemd-journald
ignore all files with names not ending
with .journal or
.journal~, so only
such files, located in the appropriate
directories, are taken into account
when calculating current disk usage.
SystemMaxUse=
and RuntimeMaxUse=
control how much disk space the
journal may use up at
maximum. Defaults to 10% of the size
of the respective file
system. SystemKeepFree=
and
RuntimeKeepFree=
control how much disk space the
journal shall always leave free for
other uses if less than the disk space
configured in
SystemMaxUse= and
RuntimeMaxUse= is
available. Defaults to 15% of the size
of the respective file
system. SystemMaxFileSize=
and
RuntimeMaxFileSize=
control how large individual journal
files may grow at maximum. This
influences the granularity in which
disk space is made available through
rotation, i.e. deletion of historic
data. Defaults to one eighth of the
values configured with
SystemMaxUse= and
RuntimeMaxUse=, so
that usually seven rotated journal
files are kept as history. Specify
values in bytes or use K, M, G, T, P,
E as units for the specified sizes
(equal to 1024, 1024²,... bytes).
Note that size limits are enforced
synchronously when journal files
are extended, and no explicit
rotation step triggered by
time is needed.MaxFileSec=The maximum time to
store entries in a single journal
file, before rotating to the next
one. Normally time-based rotation
should not be required as size-based
rotation with options such as
SystemMaxFileSize=
should be sufficient to ensure that
journal files don't grow without
bounds. However, to ensure that not
too much data is lost at once when old
journal files are deleted it might
make sense to change this value from
the default of one month. Set to 0 to
turn off this feature. This setting
takes time values which may be
suffixed with the units year, month,
week, day, h, m to override the
default time unit of
seconds.MaxRetentionSec=The maximum time to
store journal entries. This
controls whether journal files
containing entries older then the
specified time span are
deleted. Normally time-based deletion
of old journal files should not be
required as size-based deletion with
options such as
SystemMaxUse=
should be sufficient to ensure that
journal files don't grow without
bounds. However, to enforce data
retention policies it might make sense
to change this value from the
default of 0 (which turns off this
feature). This setting also takes
time values which may be suffixed with
the units year, month, week, day, h, m
to override the default time unit of
seconds. SyncIntervalSec=The timeout before syncing journal
data to disk. After syncing journal files have
OFFLINE state. Default timeout is 5 minutes.
ForwardToSyslog=ForwardToKMsg=ForwardToConsole=Control whether log
messages received by the journal
daemon shall be forwarded to a
traditional syslog daemon, to the
kernel log buffer (kmsg), or to the
system console. These options take
boolean arguments. If forwarding to
syslog is enabled but no syslog daemon
is running the respective option has
no effect. By default only forwarding
to syslog is enabled. These settings
may be overridden at boot time with
the kernel command line options
systemd.journald.forward_to_syslog=,
systemd.journald.forward_to_kmsg=
and
systemd.journald.forward_to_console=.
MaxLevelStore=MaxLevelSyslog=MaxLevelKMsg=MaxLevelConsole=Controls the maximum
log level of messages that are stored
on disk, forwarded to syslog, kmsg or
the console (if that is enabled, see
above). As argument, takes one of
emerg,
alert,
crit,
err,
warning,
notice,
info,
debug or integer
values in the range of 0..7 (corresponding
to the same levels). Messages equal or below
the log level specified are
stored/forwarded, messages above are
dropped. Defaults to
debug for
MaxLevelStore= and
MaxLevelSyslog=, to
ensure that the all messages are
written to disk and forwarded to
syslog. Defaults to
notice for
MaxLevelKMsg= and
info for
MaxLevelConsole=.TTYPath=Change the console TTY
to use if
ForwardToConsole=yes
is used. Defaults to
/dev/console.See Alsosystemd1,
systemd-journald.service8,
journalctl1,
systemd.journal-fields7,
systemd-system.conf5