eudev/udev.8
kay.sievers@vrfy.org e68faf511d [PATCH] udev - more CALLOUT is PROGRAM now
On Tue, Jan 13, 2004 at 02:45:17AM +0100, Kay Sievers wrote:
> replace CALLOUT by PROGRAM and fix old rule format

One is missing.
2005-04-26 21:13:16 -07:00

290 lines
8.0 KiB
Groff

.TH UDEV 8 "October 2003" "" "Linux Administrator's Manual"
.SH NAME
udev \- Linux configurable dynamic device naming support
.SH SYNOPSIS
.BI udev " hotplug-subsystem"
.br
.B udev
.RI "[-q " query_type " -p " sysfs_path "] [-drVh]"
.SH "DESCRIPTION"
.B udev
creates or removes device node files usually located in the /dev directory.
Its goal is to provide a dynamic device directory that contains only the files
for devices that are actually present.
.P
As part of the
.B hotplug
subsystem,
.B udev
is executed if a kernel device is added or removed from the system.
On device creation,
.B udev
reads the sysfs directory of the given device to collect device attributes
like label, serial number or bus device number.
These attributes may used as keys to determine a
unique name for device file creation.
.B udev
maintains a database for devices present on the system.
.br
On device removal,
.B udev
queries its database for the name of the device file to be deleted.
.SH "OPTIONS"
.B udev
normally is called by
.B hotplug
with the subsystem as argument and various environment variables set.
.br
It may also called with the following options:
.TP
.B -V
Print the version information.
.TP
.B -r
Print the the
.B udev_root
directory. When used in conjunction with a query for the node name, the
.B udev_root
will be prepended.
.TP
.BI -q " query_type"
Query the database for specified value of a created device node.
Valid types are:
.BR name ", " symlink ", " owner " or " group .
.TP
.BI -p " sysfs_path"
Specify the sysfs path needed for the query.
.TP
.B -d
Dump the whole database.
.TP
.B -h
Print help text.
.SH "CONFIGURATION"
All
.B udev
configuration files consist of a set of lines of text. All empty
lines, and lines beginning with a '#' will be ignored.
.P
.B udev
expects its main configuration file at
.I /etc/udev/udev.conf.
The file consists of a set of variables and values that allow the user to
override default udev values. The current set of variables that can be
overridden in this file is:
.TP
.B udev_root
This is the where in the filesystem to place the device nodes. The default
value for this is
.I /udev/
.TP
.B udev_db
The name and location of the udev database. The default value for this is
.I /udev/.udev.tdb
.TP
.B udev_rules
This is the location of the udev rules file. The default value for this is
.I /etc/udev/udev.rules
.TP
.B udev_permissions
This is the location of the udev permission file. The default value for this is
.I /etc/udev/udev.permissions
.TP
.B default_mode
This is the default mode for all nodes that have no explicit match in the
permissions file. The default value for this is
.I 0666
.br
.P
.RI "A sample " udev.conf " might look like this:
.sp
.nf
# udev_root - where in the filesystem to place the device nodes
udev_root="/udev/"
# udev_db - The name and location of the udev database.
udev_db="/udev/.udev.tdb"
# udev_rules - The name and location of the udev rules file
udev_rules="/etc/udev/udev.rules"
# udev_permissions - The name and location of the udev permission file
udev_permissions="/etc/udev/udev.permissions"
# default_mode - set the default mode for all nodes that have no
# explicit match in the permissions file
default_mode="0666"
.fi
.P
The rules for udev to use when naming devices may specified at
.I /etc/udev/udev.rules
or specified by the
.I udev_rules
value in the
.I /etc/udev/udev.conf
file.
.P
Every line in the rules file defines the mapping between device attributes
and the device file name. One ore more keys are specified to match a rule
with the current device. If all keys are matching, the rule will be applied
and the name is used for the device node. One or more optional symlinks
targeting the node may be specified.
.br
If no matching rule is found, the default kernel device name is used.
.P
The line format is:
.sp
.I key,[key,...] name [, symlink]
.sp
where keys are:
.TP
.B BUS
Match the bus type of the device.
(The sysfs device bus must be able to be determined by a "device" symlink.)
.TP
.B KERNEL
Match the kernel device name.
.TP
.B ID
Match the device number on the bus, like PCI bus id.
.TP
.B PLACE
Match the topological position on bus, like physical port of USB device
.TP
.BI SYSFS_ filename
Match sysfs device attribute like label, vendor, USB serial number, SCSI UUID
or file system label. Up to 5 different sysfs files can be checked, with
all of the values being required in order to match the rule.
.TP
.B PROGRAM
Call external program. This key is valid if the program returns successful.
The string returned by the program may additionally matched with the
.B RESULT
key.
.TP
.B RESULT
Match the returned string of the last
.B PROGRAM
call. This key may used in any following rule after a
.B PROGRAM
call.
.P
.RB "The " NAME " ," SYMLINK " and " PROGRAM
fields support simple printf-like string substitution:
.TP
.B %n
The "kernel number" of the device.
for example, 'sda3' has a "kernel number" of '3'
.TP
.B %k
The "kernel name" for the device.
.TP
.B %M
The kernel major number for the device.
.TP
.B %m
The kernel minor number for the device.
.TP
.B %b
The bus id for the device.
.TP
.B %c
The
.B PROGRAM
returned string.
(This does not work within the
.B PROGRAM
field for the obvious reason.)
.TP
.B %D
Use the devfs style disk name for this device.
For partitions, this will result in 'part%n'
If this is not a partition, it will result in 'disc'.
.P
.RI "A sample " udev.rules " might look like this:"
.sp
.nf
# if /sbin/scsi_id returns "OEM 0815" device will be called disk1
BUS="scsi", PROGRAM="/sbin/scsi_id", RESULT="OEM 0815", NAME="disk1"
# USB printer to be called lp_color
BUS="usb", SYSFS_serial="W09090207101241330", NAME="lp_color"
# SCSI disk with a specific vendor and model number is to be called boot
BUS="scsi", SYSFS_vendor="IBM", SYSFS_model="ST336", NAME="boot%n"
# sound card with PCI bus id 00:0b.0 to be called dsp
BUS="pci", ID="00:0b.0", NAME="dsp"
# USB mouse at third port of the second hub to be called mouse1
BUS="usb", PLACE="2.3", NAME="mouse1"
# ttyUSB1 should always be called pda with two additional symlinks
KERNEL="ttyUSB1", NAME="pda", SYMLINK="palmtop handheld"
# multiple USB webcams with symlinks to be called webcam0, webcam1, ...
BUS="usb", SYSFS_model="XV3", NAME="video%n", SYMLINK="webcam%n"
.fi
.P
Permissions and ownership for the created device files may specified at
.I /etc/udev/udev.permissions
or specified by the
.I udev_permission
value in the
.I /etc/udev/udev.conf
file.
.br
Every line lists a device name followed by owner, group and permission
mode. All values are separated by colons. The name field may contain a
pattern to apply the values to a whole class of devices.
.br
If
.B udev
was built using klibc or is used before the user database is accessible (e.g.
.BR initrd "(4)), only numeric owner and group values may be used."
.sp
.RI "A sample " udev.permissions " might look like this:"
.sp
.nf
#name:user:group:mode
input/*:root:root:644
ttyUSB1:0:8:0660
video*:root:video:0660
dsp1:::0666
.fi
.P
A number of different fields in the above configuration files support a simple
form of shell style pattern matching. It supports the following pattern characters:
.TP
.B *
Matches zero, one, or more characters.
.TP
.B ?
Matches any single character, but does not match zero characters.
.TP
.B [ ]
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 within this match with the '-' character. For example, to match on
the range of all digits, the pattern [0-9] would be used. If the first character
following the '[' is a '!' then any character not enclosed is matched.
.SH "FILES"
.nf
/sbin/udev udev program
/etc/udev/* udev config files
/etc/hotplug.d/default/udev.hotplug hotplug symlink to udev program
.fi
.LP
.SH "SEE ALSO"
.BR hotplug (8)
.PP
The
.I http://linux-hotplug.sourceforge.net/
web site.
.SH AUTHORS
.B udev
was developed by Greg Kroah-Hartman <greg@kroah.com> with much help from
Dan Stekloff <dsteklof@us.ibm.com>, Kay Sievers <kay.sievers@vrfy.org>, and
many others.