This package aggregates and abstracts Ubuntu specific logic and knowledge about third-party driver packages, and provides APIs for installers and driver configuration GUIs. It also contains some NVidia specific support code to find the most appropriate driver version (as we usually ship several), as well as setting up the alternatives symlinks that the proprietary NVidia and FGLRX packages use.
The simplest frontend is the ubuntu-drivers
command line tool. You can use
it to show the available driver packages which apply to the current system
(ubuntu-drivers list
), or to install all drivers which are appropriate for
automatic installation (sudo ubuntu-drivers autoinstall
), which is mostly
useful for integration into installers.
Please see ubuntu-drivers --help
for details.
The UbuntuDrivers.detect
Python module provides some functions to detect the
system's hardware, matching driver packages, and packages which are eligible
for automatic installation.
The three main functions are:
-
Which driver packages apply to this system?
packages = UbuntuDrivers.detect.system_driver_packages()
-
Which devices need drivers, and which packages do they need?
driver_info = UbuntuDrivers.detect.system_device_drivers()
-
Which driver package(s) applies to this piece of hardware?
import apt apt_cache = apt.Cache apt_packages = UbuntuDrivers.detect.packages_for_modalias(apt_cache, modalias)
These functions only use python-apt. They do not need any other dependencies, root privileges, D-BUS calls, etc.
The principal method of mapping hardware to driver packages is to use modalias patterns. Hardware devices export a "modalias" sysfs attribute, for example
$ cat /sys/devices/pci0000:00/0000:00:1b.0/modalias
pci:v00008086d00003B56sv000017AAsd0000215Ebc04sc03i00
Kernel modules declare which hardware they can handle with modalias patterns (globs), e. g.:
$ modinfo snd_hda_intel
[...]
alias: pci:v00008086d*sv*sd*bc04sc03i00*
Driver packages which are not installed by default (e. g. backports of drivers
from newer Linux packages, or the proprietary NVidia driver package
nvidia-current
) have a Modaliases:
package header which includes all
modalias patterns from all kernel modules that they ship. It is recommended to
add these headers to the package with dh_modaliases(1)
.
ubuntu-drivers-common
uses these package headers to map a particular piece of
hardware (identified by a modalias) to the driver packages which cover that
hardware.
For some kinds of drivers the modalias detection approach does not work. For
example, the "sl-modem-daemon" driver requires some checks in
/proc/asound/cards
and aplay -l
to decide whether or not it applies to the
system. These special cases can be put into a detection plugin
, by adding a
small piece of Python code to /usr/share/ubuntu-drivers-common/detect/NAME.py
(shipped in ./detect-plugins/
in the ubuntu-drivers-common
source). They need
to export a method
def detect(apt_cache):
# do detection logic here
return ['driver_package', ...]
which can do any kind of detection and then return the resulting set of packages that apply to the current system. Please note that this cannot rely on having root privileges.
For the autopkgtest of ubuntu-drivers, the following command can be used when developing test cases:
$ PYTHONPATH=. tests/run test_ubuntu_drivers
Testing in a clean environment is always recommended. Using a pbuilder chroot, an sbuild chroot, or a direct upload to a PPA, will reduce the chances of tests failing due to your specific system.