add_drv(1M) add_drv(1M)
NAME
add_drv - add a new device driver to the system
SYNOPSIS
add_drv [-b basedir] [-c class_name] [ -i 'identify_name...'] [ -m 'permission','...'] [-p 'policy'] [-P privilege] [-n] [-f] [-v]
device_driver
The add_drv command is used to inform the system about newly installed device drivers.
Each device on the system has a name associated with it. This name is represented by the name property for the device. Similarly, the
device may also have a list of driver names associated with it. This list is represented by the compatible property for the device.
The system determines which devices will be managed by the driver being added by examining the contents of the name property and the com-
patible property (if it exists) on each device. If the value in the name property does not match the driver being added, each entry in the
compatible property is tried, in order, until either a match occurs or there are no more entries in the compatible property.
In some cases, adding a new driver may require a reconfiguration boot. See the NOTES section.
Aliases might require quoting (with double-quotes) if they contain numbers. See .
/etc/minor_perm File
add_drv and update_drv(1M) read the /etc/minor_perm file to obtain permission information. The permission specified is applied to matching
minor nodes created when a device bound to the driver is attached. A minor node's permission may be manually changed by chmod(1). For such
nodes, the specified permissions apply, overriding the default permissions specified via add_drv or update_drv(1M).
The format of the /etc/minor_perm file is as follows:
name:minor_name permissions owner group
minor_name may be the actual name of the minor node, or contain shell metacharacters to represent several minor nodes (see sh(1)).
For example:
sd:* 0640 root sys
zs:[a-z],cu 0600 uucp uucp
mm:kmem 0640 root bin
The first line sets all devices exported by the sd node to 0640 permissions, owned by root, with group sys. In the second line, devices
such as a,cu and z,cu exported by the zs driver are set to 0600 permission, owned by uucp, with group uucp. In the third line the kmem
device exported by the mm driver is set to 0640 permission, owned by root, with group bin.
-bbasedir Installs the driver on the system with a root directory of basedir rather than installing on the system executing
add_drv. This option is typically used in package post-installation scripts when the package is not being installed
on the system executing the pkgadd command. The system using basedir as its root directory must reboot to complete
the driver installation.
Note - The root file system of any non-global zones must not be referenced with the -b option. Doing so might dam-
age the global zone's file system, might compromise the security of the global zone, and might damage the
non-global zone's file system. See zones(5).
-cclass_name The driver being added to the system exports the class class_name.
-f Normally if a reconfiguration boot is required to complete the configuration of the driver into the system, add_drv
will not add the driver. The force flag forces add_drv to add the driver even if a reconfiguration boot is
required. See the -v flag.
-i 'identify_name' A white-space separated list of aliases for the driver device_driver.
-m 'permission' Specify the file system permissions for device nodes created by the system on behalf of device_driver.
-n Do not try to load and attach device_driver, just modify the system configuration files for the device_driver.
-p 'policy' Specify an additional device security policy.
The device security policy constists of several whitespace separated tokens:
{minorspec {token=value}+}+
minorspec is a simple wildcard pattern for a minor device. A single * matches all minor devices. Only one * is
allowed in the pattern.
Patterns are matched in the following order:
o entries without a wildcard
o entries with wildcards, longest wildcard first
The following tokens are defined: read_priv_set and write_priv_set. read_priv_set defines the privileges that need
to be asserted in the effective set of the calling process when opening a device for reading. write_priv_set
defines the privileges that need to be asserted in the effective set of the calling process when opening a device
for writing. See privileges(5).
A missing minor spec is interpreted as a *.
-P 'privilege' Specify additional, comma separated, privileges used by the driver. You can also use specific privileges in the
device's policy.
-v The verbose flag causes add_drv to provide additional information regarding the success or failure of a driver's
configuration into the system. See the EXAMPLES section.
Example 1: Adding SUNW Example Driver to the System
The following example adds the SUNW,example driver to a 32-bit system, with an alias name of SUNW,alias. It assumes the driver has already
been copied to /usr/kernel/drv.
example# add_drv -m '* 0666 bin bin','a 0644 root sys'
-p 'a write_priv_set=sys_config * write_priv_set=none'
-i 'SUNW,alias' SUNW,example
Every minor node created by the system for the SUNW,example driver will have the permission 0666, and be owned by user bin in the group
bin, except for the minor device a, which will be owned by root, group sys, and have a permission of 0644. The specified device policy
requires no additional privileges to open all minor nodes, except minor device a, which requires the sys_config privilege when opening the
device for writing.
Example 2: Adding Driver to the Client /export/root/sun1
The following example adds the driver to the client /export/root/sun1. The driver is installed and loaded when the client machine, sun1, is
rebooted. This second example produces the same result as the first, except the changes are on the diskless client, sun1, and the client
must be rebooted for the driver to be installed.
example# add_drv -m '* 0666 bin bin','a 0644 root sys'
-i 'SUNW,alias' -b /export/root/sun1
SUNW,example
See the note in the description of the -b option, above, specifying the caveat regarding the use of this option with the Solaris zones fea-
ture.
Example 3: Adding Driver for a Device Already Managed by an Existing Driver
The following example illustrates the case where a new driver is added for a device that is already managed by an existing driver. Consider
a device that is currently managed by the driver dumb_framebuffer. The name and compatible properties for this device are as follows:
name="display"
compatible="whizzy_framebuffer", "dumb_framebuffer"
If add_drv is used to add the whizzy_framebuffer driver, the following will result.
example# add_drv whizzy_framebuffer
Error: Could not install driver (whizzy_framebuffer)
Device managed by another driver.
If the -v flag is specified, the following will result.
example# add_drv -v whizzy_framebuffer
Error: Could not install driver (whizzy_framebuffer)
Device managed by another driver.
Driver installation failed because the following
entries in /devices would be affected:
/devices/iommu@f,e0000000/sbus@f,e0001000/display[:*]
(Device currently managed by driver "dumb_framebuffer")
The following entries in /dev would be affected:
/dev/fbs/dumb_framebuffer0
If the -v and -f flags are specified, the driver will be added resulting in the following.
example# add_drv -vf whizzy_framebuffer
A reconfiguration boot must be performed to complete the
installation of this driver.
The following entries in /devices will be affected:
/devices/iommu@f,e0000000/sbus@f,e0001000/display[:*]
(Device currently managed by driver "dumb_framebuffer"
The following entries in /dev will be affected:
/dev/fbs/dumb_framebuffer0
The above example is currently only relevant to devices exporting a generic device name.
Example 4: Use of Double Quotes in Specifying Driver Alias
The following example shows the use of double quotes in specifying a driver alias that contains numbers.
example# add_drv -i '"pci10c5,25"' smc
add_drv returns 0 on success and 1 on failure.
/kernel/drv
32-bit boot device drivers
/kernel/drv/sparcv9
64-bit SPARC boot device drivers
/kernel/drv/amd64
64-bit boot device drivers
/usr/kernel/drv
other 32-bit drivers that could potentially be shared between platforms
/usr/kernel/drv/sparcv9
other 64-bit SPARC drivers that could potentially be shared between platforms
/usr/kernel/drv/amd64
other 64-bit drivers that could potentially be shared between platforms
/platform/`uname -i`/kernel/drv
32-bit platform-dependent drivers
/platform/`uname -i`/kernel/drv/sparcv9
64-bit SPARC platform-dependent drivers
/platform/`uname -i`/kernel/drv/amd64
64-bit platform-dependent drivers
/etc/driver_aliases
driver aliases file
/etc/driver_classes
driver classes file
/etc/minor_perm
minor node permissions
/etc/name_to_major
major number binding
/etc/security/device_policy
device policy
/etc/security/extra_privs
device privileges
See attributes(5) for descriptions of the following attributes:
+-----------------------------+-----------------------------+
| ATTRIBUTE TYPE | ATTRIBUTE VALUE |
+-----------------------------+-----------------------------+
|Availability |SUNWcsu |
+-----------------------------+-----------------------------+
boot(1M), chmod(1), devfsadm(1M), kernel(1M), modinfo(1M), rem_drv(1M), update_drv(1M), driver.conf(4), system(4), attributes(5), privi-
leges(5), devfs(7FS), ddi_create_minor_node(9F)
It is possible to add a driver for a device already being managed by a different driver, where the driver being added appears in the
device's compatible list before the current driver. In such cases, a reconfiguration boot is required (see boot(1M) and kernel(1M)). After
the reconfiguration boot, device links in /dev and references to these files may no longer be valid (see the -v flag). If a reconfiguration
boot would be required to complete the driver installation, add_drv will fail unless the -f option is specified. See Example 3 in the EXAM-
PLES section.
With the introduction of the device policy several drivers have had their minor permissions changed and a device policy instated. The typi-
cal network driver should use the following device policy:
add_drv -p 'read_priv_set=net_rawaccess
write_priv_set=net_rawaccess' -m '* 666 root sys'
mynet
This document does not constitute an API. /etc/minor_perm, /etc/name_to_major, /etc/driver_classes, and /devices may not exist or may have
different contents or interpretations in a future release. The existence of this notice does not imply that any other documentation that
lacks this notice constitutes an API.
/etc/minor_perm can only be updated by add_drv(1M), rem_drv(1M) or update_drv(1M).
Previous versions of add_drv accepted a pathname for device_driver. This feature is no longer supported and results in failure.
6 Apr 2005 add_drv(1M)