udevsystemdDeveloperGregKroah-Hartmanngreg@kroah.comDeveloperKaySieverskay@vrfy.orgudev7udevLinux dynamic device managementDescriptionudev supplies the system software with device events, manages permissions
of device nodes and may create additional symlinks in the /dev
directory, or renames network interfaces. The kernel usually just assigns unpredictable
device names based on the order of discovery. Meaningful symlinks or network device
names provide a way to reliably identify devices based on their properties or
current configuration.The udev daemon, udevd8, receives device uevents directly from
the kernel whenever a device is added or removed from the system, or it changes its
state. When udev receives a device event, it matches its configured set of rules
against various device attributes to identify the device. Rules that match may
provide additional device information to be stored in the udev database or
to be used to create meaningful symlink names.All device information udev processes is stored in the udev database and
sent out to possible event subscribers. Access to all stored data and the event
sources is provided by the library libudev.Configurationudev configuration files are placed in /etc/udev
and /usr/lib/udev. All empty lines or lines beginning with
'#' are ignored.Configuration fileudev expects its main configuration file at /etc/udev/udev.conf.
It consists of a set of variables allowing the user to override default udev values.
The following variables can be set:Specifies where to place the device nodes in the filesystem.
The default value is /dev.The logging priority. Valid values are the numerical syslog priorities
or their textual representations: ,
and .Rules filesThe udev rules are read from the files located in the
system rules directory /usr/lib/udev/rules.d,
the volatile runtime directory /run/udev/rules.d
and the local administration directory /etc/udev/rules.d.
All rules files are collectively sorted and processed in lexical order,
regardless of the directories in which they live. However, files with
identical file names replace each other. Files in /etc
have the highest priority, files in /run take precedence
over files with the same name in /lib. This can be
used to override a system-supplied rules file with a local file if needed;
a symlink in /etc with the same name as a rules file in
/lib, pointing to /dev/null,
disables the rules file entirely.Rule files must have the extension .rules; other
extensions are ignored.Every line in the rules file contains at least one key-value pair.
There are two kind of keys: match and assignment.
If all match keys are matching against its value, the rule gets applied and the
assignment keys get the specified value assigned.A matching rule may rename a network interface, add symlinks
pointing to the device node, or run a specified program as part of
the event handling.A rule consists of a comma-separated list of one or more key-value pairs.
Each key has a distinct operation, depending on the used operator. Valid
operators are:Compare for equality.Compare for inequality.Assign a value to a key. Keys that represent a list are reset
and only this single value is assigned.Add the value to a key that holds a list of entries.Assign a value to a key finally; disallow any later changes.The following key names can be used to match against device properties.
Some of the keys also match against properties of the parent devices in sysfs,
not only the device that has generated the event. If multiple keys that match
a parent device are specified in a single rule, all these keys must match at
one and the same parent device.Match the name of the event action.Match the devpath of the event device.Match the name of the event device.Match the name of a network interface. It can be used once the
NAME key has been set in one of the preceding rules.Match the name of a symlink targeting the node. It can
be used once a SYMLINK key has been set in one of the preceding
rules. There may be multiple symlinks; only one needs to match.
Match the subsystem of the event device.Match the driver name of the event device. Only set this key for devices
which are bound to a driver at the time the event is generated.Match sysfs attribute values of the event device. Trailing
whitespace in the attribute values is ignored unless the specified match
value itself contains trailing whitespace.
Search the devpath upwards for a matching device name.Search the devpath upwards for a matching device subsystem name.Search the devpath upwards for a matching device driver name.Search the devpath upwards for a device with matching sysfs attribute values.
If multiple matches are specified, all of them
must match on the same device. Trailing whitespace in the attribute values is ignored
unless the specified match value itself contains trailing whitespace.Search the devpath upwards for a device with matching tag.Match against a device property value.Match against a device tag.Test the existence of a file. An octal mode mask can be specified
if needed.Execute a program to determine whether there
is a match; the key is true if the program returns
successfully. The device properties are made available to the
executed program in the environment. The program's stdout
is available in the RESULT key.Match the returned string of the last PROGRAM call. This key can
be used in the same or in any later rule after a PROGRAM call.Most of the fields support shell-style pattern matching. The following
pattern characters are supported:Matches zero or more characters.Matches any single character.Matches any single character specified within the brackets. For
example, the pattern string 'tty[SR]' would match either 'ttyS' or 'ttyR'.
Ranges are also supported via the '-' character.
For example, to match on the range of all digits, the pattern [0-9] could
be used. If the first character following the '[' is a '!', any characters
not enclosed are matched.The following keys can get values assigned:The name to use for a network interface. The name of a device node
can not be changed by udev, only additional symlinks can be created.The name of a symlink targeting the node. Every matching rule adds
this value to the list of symlinks to be created. Multiple symlinks may be
specified by separating the names by the space character. In case multiple
devices claim the same name, the link always points to the device with
the highest link_priority. If the current device goes away, the links are
re-evaluated and the device with the next highest link_priority becomes the owner of
the link. If no link_priority is specified, the order of the devices (and
which one of them owns the link) is undefined. Also, symlink names must
never conflict with the kernel's default device node names, as that would
result in unpredictable behavior.
The permissions for the device node. Every specified value overrides
the compiled-in default value.The value that should be written to a sysfs attribute of the
event device.Set a device property value. Property names with a leading '.'
are neither stored in the database nor exported to events or
external tools (run by, say, the PROGRAM match key).Attach a tag to a device. This is used to filter events for users
of libudev's monitor functionality, or to enumerate a group of tagged
devices. The implementation can only work efficiently if only a few
tags are attached to a device. It is only meant to be used in
contexts with specific device filter requirements, and not as a
general-purpose flag. Excessive use might result in inefficient event
handling.Add a program to the list of programs to be executed for a specific
device.If no absolute path is given, the program is expected to live in
/usr/lib/udev, otherwise the absolute path must be specified. The program
name and following arguments are separated by spaces. Single quotes can
be used to specify arguments with spaces.This can only be used for very short running tasks. Running an
event process for a long period of time may block all further events for
this or a dependent device. Starting daemons or other long running processes
is not appropriate for udev.A named label to which a GOTO may jump.Jumps to the next LABEL with a matching name.Import a set of variables as device properties,
depending on type:Execute an external program specified as the assigned value and
import its output, which must be in environment key
format. Path specification, command/argument separation,
and quoting work like in .Import a text file specified as the assigned value, the content
of which must be in environment key format.Import a single property specified as the assigned value from the
current device database. This works only if the database is already populated
by an earlier event.Import a single property from the kernel command line. For simple flags
the value of the property is set to '1'.Import the stored keys from the parent device by reading
the database entry of the parent device. The value assigned to
is used as a filter of key names
to import (with the same shell-style pattern matching used for
comparisons).Wait for a file to become available or until a timeout of
10 seconds expires. The path is relative to the sysfs device;
if no path is specified, this waits for an attribute to appear.Rule and device options:Specify the priority of the created symlinks. Devices with higher
priorities overwrite existing symlinks of other devices. The default is 0.Number of seconds an event waits for operations to finish before
giving up and terminating itself.Usually control and other possibly unsafe characters are replaced
in strings used for device naming. The mode of replacement can be specified
with this option.Apply the permissions specified in this rule to the static device node with
the specified name. Static device nodes might be provided by kernel modules
or copied from /usr/lib/udev/devices. These nodes might not have
a corresponding kernel device at the time udevd is started; they can trigger
automatic kernel module loading.Watch the device node with inotify; when the node is closed after being opened for
writing, a change uevent is synthesized.Disable the watching of a device node with inotify.The , , ,
, , and
fields support simple string substitutions. The
substitutions are performed after all rules have been processed, right before the program
is executed, allowing for the use of device properties set by earlier matching
rules. For all other fields, substitutions are performed while the individual rule is
being processed. The available substitutions are:, The kernel name for this device., The kernel number for this device. For example, 'sda3' has
kernel number of '3', The devpath of the device., The name of the device matched while searching the devpath upwards for
, , and .
The driver name of the device matched while searching the devpath upwards for
, , and .
, The value of a sysfs attribute found at the device where
all keys of the rule have matched. If the matching device does not have
such an attribute, and a previous KERNELS, SUBSYSTEMS, DRIVERS, or
ATTRS test selected a parent device, then the attribute from that
parent device is used.If the attribute is a symlink, the last element of the symlink target is
returned as the value., A device property value., The kernel major number for the device., The kernel minor number for the device., The string returned by the external program requested with PROGRAM.
A single part of the string, separated by a space character, may be selected
by specifying the part number as an attribute: .
If the number is followed by the '+' character, this part plus all remaining parts
of the result string are substituted: , The node name of the parent device.The current name of the device. If not changed by a rule, it is the
name of the kernel device.A space-separated list of the current symlinks. The value is
only set during a remove event or if an earlier rule assigned a value., The udev_root value., The sysfs mount point., The name of the device node.The '%' character itself.The '$' character itself.See Alsoudevd8,
udevadm8