udevadmsystemdudevadm8udevadmudev management tooludevadmudevadm info optionsdevpathudevadm trigger optionsdevpathudevadm settle optionsudevadm control optionudevadm monitor optionsudevadm test optionsdevpathudevadm test-builtin optionscommanddevpathudevadm wait optionsdevice|syspathudevadm lock optionscommandDescriptionudevadm expects a command and command
specific options. It controls the runtime behavior of
systemd-udevd, requests kernel events, manages
the event queue, and provides simple debugging mechanisms.OptionsPrint debug messages to standard error. This option is implied in udevadm test and
udevadm test-builtin commands.udevadm info
optionsdevpath|file|unitQuery the udev database for device information.Positional arguments should be used to specify one or more devices. Each one may be a device name
(in which case it must start with /dev/), a sys path (in which case it must start
with /sys/), or a systemd device unit name (in which case it must end with
.device, see
systemd.device5).
Query the database for the specified type of device data.
Valid TYPEs are:
name, symlink,
path, property,
all.When showing device properties using the
option, limit display to properties specified in the argument. The argument should
be a comma-separated list of property names. If not specified, all known properties
are shown.When showing device properties using the
option, print only their values, and skip the property name and =.Cannot be used together with or
.The /sys/ path of the device to query, e.g.
/sys//class/block/sda. This option is an alternative to
the positional argument with a /sys/ prefix. udevadm info
--path=/class/block/sda is equivalent to udevadm info
/sys/class/block/sda.The name of the device node or a symlink to query,
e.g. /dev//sda. This option is an alternative to the
positional argument with a /dev/ prefix. udevadm info
--name=sda is equivalent to udevadm info /dev/sda.Print absolute paths in name or symlink
query.Print all sysfs properties of the specified device that can be used
in udev rules to match the specified device. It prints all devices
along the chain, up to the root of sysfs that can be used in udev rules.Display a sysfs tree. This recursively iterates through the sysfs hierarchy and displays it
in a tree structure. If a path is specified only the subtree below and its parent directories are
shown. This will show both device and subsystem items.Print output as key/value pairs. Values are enclosed in single quotes.
This takes effects only when or
is specified.Add a prefix to the key name of exported values.
This implies .Print major/minor numbers of the underlying device, where the file lives on.
If this is specified, all positional arguments are ignored.Export the content of the udev database.Cleanup the udev database.Wait for device to be initialized. If argument SECONDS
is not specified, the default is to wait forever.The generated output shows the current device database entry in a terse format. Each line shown
is prefixed with one of the following characters:
udevadm info output prefixesPrefixMeaningP:Device path in /sys/M:Device name in /sys/ (i.e. the last component of P:)R:Device number in /sys/ (i.e. the numeric suffix of the last component of P:)U:Kernel subsystemT:Kernel device type within subsystemD:Kernel device node major/minorI:Network interface indexN:Kernel device node nameL:Device node symlink priorityS:Device node symlinkQ:Block device sequence number (DISKSEQ)V:Attached driverE:Device property
udevadm trigger
optionsdevpath|file|unitRequest device events from the kernel. Primarily used to replay events at system coldplug time.Takes device specifications as positional arguments. See the description of info
above.Print the list of devices which will be triggered.Do not actually trigger the event.Suppress error logging in triggering events.Trigger a specific type of devices. Valid types are all,
devices, and subsystems. The default value is
devices.Type of event to be triggered. Possible actions are add,
remove, change, move,
online, offline, bind,
and unbind. Also, the special value help can be used
to list the possible actions. The default value is change.
Takes a comma separated list of subsystems. When triggering events for devices, the
devices from the specified subsystems and their parents are triggered first. For example,
if , then firstly all block devices and
their parents are triggered, in the next all network devices and their parents are
triggered, and lastly the other devices are triggered. This option can be specified
multiple times, and in that case the lists of the subsystems will be merged. That is,
is equivalent to
.Trigger events for devices which belong to a
matching subsystem. This option supports shell style pattern matching.
When this option is specified more than once, then each matching result is ORed, that is,
all the devices in each subsystem are triggered.Do not trigger events for devices which belong to a matching subsystem. This option
supports shell style pattern matching. When this option is specified more than once,
then each matching result is ANDed, that is, devices which do not match all specified
subsystems are triggered.Trigger events for devices with a matching sysfs attribute. If a value is specified along
with the attribute name, the content of the attribute is matched against the given value using
shell style pattern matching. If no value is specified, the existence of the sysfs attribute is
checked. When this option is specified multiple times, then each matching result is ANDed,
that is, only devices which have all specified attributes are triggered.Do not trigger events for devices with a matching sysfs attribute. If a value is specified
along with the attribute name, the content of the attribute is matched against the given value
using shell style pattern matching. If no value is specified, the existence of the sysfs attribute
is checked. When this option is specified multiple times, then each matching result is ANDed,
that is, only devices which have none of the specified attributes are triggered.Trigger events for devices with a matching property value. This option supports shell style
pattern matching. When this option is specified more than once, then each matching result is ORed,
that is, devices which have one of the specified properties are triggered.Trigger events for devices with a matching tag. When this option is specified multiple times,
then each matching result is ANDed, that is, devices which have all specified tags are triggered.Trigger events for devices for which the last component (i.e. the filename) of the
/sys/ path matches the specified PATH. This option
supports shell style pattern matching. When this option is specified more than once, then each
matching result is ORed, that is, all devices which have any of the specified
NAME are triggered.Trigger events for devices with a matching device path. When this option is specified more than once,
then each matching result is ORed, that is, all specified devices are triggered.Trigger events for all children of a given device. When this option is specified more than once,
then each matching result is ORed, that is, all children of each specified device are triggered.When is specified, trigger events for devices
that are already initialized by systemd-udevd, and skip devices that
are not initialized yet.When is specified, trigger events for devices
that are not initialized by systemd-udevd yet, and skip devices that
are already initialized.Typically, it is essential that applications which intend to use such a match, make
sure a suitable udev rule is installed that sets at least one property on devices that
shall be matched. See also Initialized Devices section below for more details.WARNING: can potentially save a significant
amount of time compared to re-triggering all devices in the system and e.g. can be used to
optimize boot time. However, this is not safe to be used in a boot sequence in general.
Especially, when udev rules for a device depend on its parent devices (e.g.
ATTRS or IMPORT{parent} keys, see
udev7
for more details), the final state of the device becomes easily unstable with this option.
Apart from triggering events, also waits for those events to
finish. Note that this is different from calling udevadm
settle. udevadm settle waits for all
events to finish. This option only waits for events triggered by
the same command to finish.Trigger the synthetic device events, and associate a randomized UUID with each. These UUIDs
are printed to standard output, one line for each event. These UUIDs are included in the uevent
environment block (in the SYNTH_UUID= property) and may be used to track
delivery of the generated events.Before triggering uevents, wait for systemd-udevd daemon to be initialized.
Optionally takes timeout value. Default timeout is 5 seconds. This is equivalent to invoke
invoking udevadm control --ping before udevadm trigger.In addition, optional positional arguments can be used
to specify device names or sys paths. They must start with
/dev/ or /sys/
respectively.udevadm settle
optionsWatches the udev event queue, and exits if all current events are handled.Maximum number of seconds to wait for the event
queue to become empty. The default value is 120 seconds. A
value of 0 will check if the queue is empty and always
return immediately. A non-zero value will return an exit
code of 0 if queue became empty before timeout was reached,
non-zero otherwise.Stop waiting if file exists.See
systemd-udev-settle.service8
for more information.udevadm control optionModify the internal state of the running udev daemon.Signal and wait for systemd-udevd to exit. No option except for
can be specified after this option.
Note that systemd-udevd.service contains
and so as a result, this option restarts systemd-udevd.
If you want to stop systemd-udevd.service, please use the following:
systemctl stop systemd-udevd-control.socket systemd-udevd-kernel.socket systemd-udevd.serviceSet the internal log level of
systemd-udevd. Valid values are the
numerical syslog priorities or their textual
representations: ,
, ,
, ,
, , and
.Signal systemd-udevd to stop executing new events. Incoming events
will be queued.Signal systemd-udevd to enable the execution of events.Signal systemd-udevd to reload the rules files and other databases like the kernel
module index. Reloading rules and databases does not apply any changes to already
existing devices; the new configuration will only be applied to new events.Set a global property for all events.valueSet the maximum number of events, systemd-udevd will handle at the
same time.Send a ping message to systemd-udevd and wait for the reply. This may be useful to check that
systemd-udevd daemon is running.secondsThe maximum number of seconds to wait for a reply from systemd-udevd.udevadm monitor
optionsListens to the kernel uevents and events sent out by a udev rule
and prints the devpath of the event to the console. It can be used to analyze the
event timing, by comparing the timestamps of the kernel uevent and the udev event.
Print the kernel uevents.Print the udev event after the rule processing.Also print the properties of the event.Filter kernel uevents and udev events by subsystem[/devtype]. Only events with a matching subsystem value will pass.
When this option is specified more than once, then each matching result is ORed, that is, all devices in the specified
subsystems are monitored.Filter udev events by tag. Only udev events with a given tag attached will pass.
When this option is specified more than once, then each matching result is ORed, that is, devices which have one of the
specified tags are monitored.udevadm test
optionsdevpath|file|unitSimulate a udev event run for the given device, and print debug output.Type of event to be simulated. Possible actions are add,
remove, change, move,
online, offline, bind,
and unbind. Also, the special value help can be used
to list the possible actions. The default value is add.Specify when udevadm should resolve names of users
and groups. When set to early (the
default), names will be resolved when the rules are
parsed. When set to late, names will
be resolved for every event. When set to
never, names will never be resolved
and all devices will be owned by root.udevadm test-builtin
optionscommanddevpath|file|unitRun a built-in command COMMAND
for device DEVPATH, and print debug
output.Type of event to be simulated. Possible actions are add,
remove, change, move,
online, offline, bind,
and unbind. Also, the special value help can be used
to list the possible actions. The default value is add.udevadm wait
optionsdevice|syspath
…
Wait for devices or device symlinks being created and initialized by
systemd-udevd. Each device path must start with
/dev/ or /sys/, e.g. /dev/sda,
/dev/disk/by-path/pci-0000:3c:00.0-nvme-1-part1,
/sys/devices/pci0000:00/0000:00:1f.6/net/eth0, or
/sys/class/net/eth0. This can take multiple devices. This may be useful for
waiting for devices being processed by systemd-udevd after e.g. partitioning
or formatting the devices.Maximum number of seconds to wait for the specified devices or device symlinks being
created, initialized, or removed. The default value is infinity.Check if systemd-udevd initialized devices. Defaults to true. When
false, the command only checks if the specified devices exist. Set false to this setting if
there is no udev rules for the specified devices, as the devices will never be considered
as initialized in that case. See Initialized Devices section below for more details.When specified, the command wait for devices being removed instead of created or
initialized. If this is specified, will be ignored.When specified, also watches the udev event queue, and wait for all queued events
being processed by systemd-udevd.udevadm lock
optionscommand
…
udevadm lock takes an (advisory) exclusive lock(s) on a block device (or
multiple thereof), as per Locking Block Device
Access and invokes a program with the lock(s) taken. When the invoked program exits the lock(s)
are automatically released.This tool is in particular useful to ensure that
systemd-udevd.service8
does not probe a block device while changes are made to it, for example partitions created or file
systems formatted. Note that many tools that interface with block devices natively support taking
relevant locks, see for example
sfdisk8's
switch.The command expects at least one block device specified via or
, and a command line to execute as arguments.Takes a path to a device node of the device to lock. This switch may be used
multiple times (and in combination with ) in order to lock multiple
devices. If a partition block device node is specified the containing "whole" block device is
automatically determined and used for the lock, as per the specification. If multiple devices are
specified, they are deduplicated, sorted by the major/minor of their device nodes and then locked
in order.This switch must be used at least once, to specify at least one device to
lock. (Alternatively, use , see below.)If a path to a device node is specified, identical to
. However, this switch alternatively accepts a path to a regular file or
directory, in which case the block device of the file system the file/directory resides on is
automatically determined and used as if it was specified with
.Specifies how long to wait at most until all locks can be taken. Takes a value in
seconds, or in the usual supported time units, see
systemd.time7. If
specified as zero the lock is attempted and if not successful the invocation will immediately
fail. If passed as infinity (the default) the invocation will wait indefinitely
until the lock can be acquired. If the lock cannot be taken in the specified time the specified
command will not be executed and the invocation will fail.Instead of locking the specified device(s) and executing a command, just print the
device path(s) that would be locked, and execute no command. This command is useful to determine
the "whole" block device in case a partition block device is specified. The devices will be sorted
by their device node major number as primary ordering key and the minor number as secondary
ordering key (i.e. they are shown in the order they'd be locked). Note that the number of lines
printed here can be less than the the number of and
switches specified in case these resolve to the same "whole"
devices.Initialized DevicesInitialized devices are those for which at least one udev rule already completed execution
– for any action but remove — that set a property or other device setting (and
thus has an entry in the udev device database). Devices are no longer considered initialized if a
remove action is seen for them (which removes their entry in the udev device
database). Note that devices that have no udev rules are never considered initialized, but might
still be announced via the sd-device API (or similar).ExampleFormat a File SystemTake a lock on the backing block device while creating a file system, to ensure that
systemd-udevd doesn't probe or announce the new superblock before it is
comprehensively written:# udevadm lock --device=/dev/sda1 mkfs.ext4 /dev/sda1Format a RAID File SystemSimilar, but take locks on multiple devices at once:# udevadm lock --device=/dev/sda1 --device=/dev/sdb1 mkfs.btrfs /dev/sda1 /dev/sdb1Copy in a File SystemTake a lock on the backing block device while copying in a prepared file system image, to ensure
that systemd-udevd doesn't probe or announce the new superblock before it is fully
written:# udevadm lock -d /dev/sda1 dd if=fs.raw of=/dev/sda1See Alsoudev7,
systemd-udevd.service8