Provided by: dkms_2.8.1-5ubuntu2_all 
NAME
dkms - Dynamic Kernel Module Support
SYNOPSIS
dkms [action] [options] [module/module-version] [/path/to/source-tree] [/path/to/tarball.tar]
[/path/to/driver.rpm]
DESCRIPTION
dkms is a framework which allows kernel modules to be dynamically built for each kernel on your system in
a simplified and organized fashion.
ACTIONS
add [module/module-version] [/path/to/source-tree] [/path/to/tarball.tar]
Adds a module/module-version combination to the tree for builds and installs. If
module/module-version, -m module/module-version, or -m module -v version are passed as options, this
command requires source in /usr/src/<module>-<module-version>/ as well as a properly formatted
dkms.conf file. If /path/to/source-tree is passed as an option, and source-tree contains a dkms.conf
file, it will copy /path/to/source-tree to /usr/src/module-module-version. If /path/to/tarball.tar
is passed, this command behaves like the ldtarball command.
remove [module/module-version] [-k kernel/arch] [--all]
Removes a module/version or module/version/kernel/arch combination from the tree. If the module is
currently installed, it first uninstalls it and if applicable, will replace it with its
original_module. Use the --all option in order to remove all instances for every kernel at once.
build [module/module-version] [-k kernel/arch]
Builds the specified module/version combo for the specified kernel/arch. If the -k option is not
specified it builds for the currently running kernel and arch.. All builds occur in the directory
/var/lib/dkms/<module>/<module-version>/build/. If the module/module-version combo has not been
added, dkms will try to add it, and in that case build can take the same arguments that add can.
install [module/module-version] [-k kernel/arch] [/path/to/driver.rpm]
Installs a built module/version combo onto the kernel it was built for. If the kernel option is not
specified it assumes the currently running kernel. If the module has not been built, dkms will try
to build it. If the module has not been added, dkms will try to add it. In both cases, the install
command can then take the same arguments as the build or add commands. If you pass a .rpm file, dkms
will try to install that file with rpm -Uvh , and it will perform an autoinstall action to be sure
that everything is built for your kernel if the RPM installed successfully.
uninstall [module/module-version] [-k kernel/arch]
Uninstalls an installed module/module-version combo from the kernel/arch passed in the -k option, or
the current kernel if the -k option was not passed. upon. After uninstall completion, the driver
will be left in the built state. To completely remove a driver, the remove action should be
utilized.
match [--templatekernel kernel/arch] [-k kernel/arch]
Match installs modules onto the specified kernel by looking at the configuration of the specified
templatekernel. Every module that is installed on the templatekernel within dkms is then installed
on that specified kernel.
mkdriverdisk [-d distro] [-r release] [--media mediatype] [-k kernel/arch] [module/version]
Creates a floppy driver disk image for use when updated drivers are needed to install an OS.
Currently, the supported distributions are redhat, suse and UnitedLinux. For Red Hat driver disks,
necessary driver disk files are looked for in the redhat_driver_disk subdirectory of your module
source directory. You must specify the distro while using this action. Driver disks can be made for
single kernels or can be made to support multiple kernels. To create a driver disk image with
modules for multiple kernels, just specify multiple -k parameters on the command line (-k
kernel1/arch1 -k kernel2/arch2).
Red Hat introduced DDv3 starting with RHEL6. To create Red Hat DDv3, specify -d redhat3 and specify
the specfile to use with --spec=specfile. If no specfile is specified, DKMS will use
/etc/dkms/template-dkms-redhat-kmod.spec
For suse/UnitedLinux driver disks, /usr/share/YaST2/modules/Vendor.ycp will also be copied to the
driver disk; no other files are needed. However, for these distros, you must specify a -r release.
For SuSE 9.1, it would be -d suse -r 9.1. For SLES9, it would be -d suse -r sles9.
By default the disk image it creates is 1440 (k) in size. This can be overridden by specifying a
different --size #### which should should be given as a number in kilobytes divisible by 20.
You may have more content than will fit on a floppy. Therefore, DKMS can now generate image files of
different types. --media floppy (default) to generate a floppy disk image, or --media iso to
generate a CD-ROM ISO file, or --media tar to generate a tar file.
You may copy the floppy or ISO image file to a USB key to be used with OS installer.
mktarball [module/module-version] [-k kernel/arch] [--archive /path/to/tarball.tar] [--source-only]
[--binaries-only]
Creates a tarball archive for the specified module/version of all files in the DKMS tree for that
module/version combination. This includes the source and any built modules for kernels in the tree
(as specified). Otherwise, you can specify a singular kernel to archive only, or multiple kernels to
archive (-k kernel1/arch1 -k kernel2/arch2). Optionally, you can use --archive to specify the file
that you would like to save this tarball to. You can also specify --binaries-only if you want the
resultant tarball not to include the module source. Likewise, --source-only can be used to specify
that no prebuilt binaries should be included in the tarball. In general, mktarball is great for
systems management purposes as you can build your driver on just one system and then use ldtarball on
all of your other systems to get the same built modules loaded without having to wait for anything to
compile.
ldtarball [/path/to/tarball.tar] [--force]
This takes a tarball made from the mktarball command and loads it into your DKMS tree. This will
leave any newly added modules in the built state and dkms install should then be called to install
any of them. If files already exist where ldtarball is attempting to place them, it will warn and
not copy over them. The --force option should be used to override this.
mkrpm [module/module-version] [-k kernel/arch] [--source-only] [--binaries-only]
This action allows you to create an RPM package for a specified module / version. It uses a template
.spec file found in /etc/dkms/template-dkms-mkrpm.spec as the basis for the RPM. Alternatively, if
DKMS finds a file called /usr/src/<module>-<module-version>/<module>-dkms-mkrpm.spec it will use that
.spec file instead. In general, a DKMS tarball is placed inside the contents of this RPM, and the
RPM itself calls various DKMS commands to load this tarball, build and install modules on the end
user's system. If you do not want your RPM to contain any prebuilt binaries, be sure to specify
--source-only in the mkrpm command.
mkdeb [module/module-version] [-k kernel/arch]
This action allows you to create a debian binary package for a specified module / version. It uses a
template debian directory found in /etc/dkms/template-dkms-mkdeb as the basis for the package.
Alternatively, if DKMS finds a file called /usr/src/<module>-<module-version>/<module>-dkms-mkdeb it
will use that folder instead. In general, a DKMS tarball is placed inside the contents of this
package, and the package itself calls various DKMS commands to load this tarball, build and install
modules on the end user's system.
mkbmdeb [module/module-version] [-k kernel/arch]
Creates a Debian binary package containing just the binary modules in the /lib/modules installation
path. This package does not depend on dkms and does not require a toolchain to be installed on the
target host. Useful if you want to have a package to install on hosts identical to the build system
without installing the full toolchain on them. It uses a template debian directory found in
/etc/dkms/template-dkms-mkbmdeb as the basis for the package.
mkdsc [module/module-version] [-k kernel/arch]
This action allows you to create a debian source package for a specified module / version. It will
create a .tar.gz, and a .dsc. All options supported by mkdeb are supported by it. The main
difference in it's usage is that it will look in /etc/dkms/template-dkms-mkdsc as the basis for the
package. Alternatively, if DKMS finds a file called
/usr/src/<module>-<module-version>/<module>-dkms-mkdsc it will use that folder instead.
mkkmp [module/module-version] [--spec specfile]
This action allows you to create an Kernel Module Package source RPM for a specified module /
version. It uses the .spec file specified by --spec=specfile else $module-kmp.spec as the basis for
the RPM. The generated source RPM may then be built using SuSE's build.rpm or Fedora/RHEL's mock
chroot environments. See http://kerneldrivers.org/ for more details on KMPs.
status [module/module-version] [-k kernel/arch]
Returns the current status of modules, versions and kernels within the tree as well as whether they
have been added, built or installed. Status can be shown for just a certain module, a certain
kernel, a module/version combination or a module/version/kernel combination.
autoinstall
Attempt to install the latest revision of all modules that have been installed for other kernel
revisions. dkms_autoinstaller is a stub that uses this action to perform its work.
OPTIONS
-m <module>/<module-version>
The name of the module and module version you want to operate on. The -m part of this option is
optional, and can be omitted in virtually all circumstances.
-v <module-version>
The version of the module to execute the specified action upon. This option only has to be
specified if you pass a -m option without a <module-version> component of its own.
-k <kernel-version>/<arch>
The kernel and arch to perform the action upon. You can specify multiple kernel version/arch
pairs on the command line by repeating the -k argument with a different kernel version and arch.
However, not all actions support multiple kernel versions (it will error out in this case). The
arch part can be omitted, and DKMS will assume you want it to be the arch of the currently running
system.
-a, --arch
The system architecture to perform the action upon. It is optional if you pass it as part of the
-k option. If not specified, it assumes the arch of the currently running system (`uname -m`).
You can specify multiple arch parameters on the same command line by repeating the -a argument
with a different arch name. When multiple architectures are specified, there must be a 1:1
relationship between -k arguments to -a arguments. DKMS will then assume the first -a argument
aligns with the first -k kernel and so on for the second, third, etc.
For example, if you were to specify: -k kernel1 -k kernel2 -a i386 -k kernel3 -a i686 -a x86_64,
DKMS would process this as: kernel1-i386, kernel2-i686, kernel3-x86_64.
-q, --quiet
Quiet.
-V, --version
Prints the currently installed version of dkms and exits.
-c <dkms.conf-location>
The location of the dkms.conf file. This is needed for the add action and if not specified, it is
assumed to be located in /usr/src/<module>-<module-version>/. See below for more information on
the format of dkms.conf.
-d, --distro
The distribution being used. This is only currently needed for mkdriverdisk. The supported
distros are redhat, suse and UnitedLinux. See the sections on mkdriverdisk and mkkmp for more
information.
-r, --release
The release being used. This is only currently used for mkdriverdisk and is only used for suse or
UnitedLinux distros (eg. -r 9.1). It is used in the internal makeup of the driverdisk.
--size The size of the driver disk image to be created. By default, this value is set at 1440. Any
different size should be given as an integer value only, should be divisible by 20 and should
represent the number of kilobytes of the image size you desire.
--config <kernel-.config-location>
During a build this option is used to specify an alternate location for the kernel .config file
which was used to compile that kernel. Normally, dkms uses the Red Hat standard location and
config filenames located in /usr/src/linux-<kernel>/configs/. If the config for the kernel that
you are building a module for is not located here or does not have the expected name in this
location, you will need to tell dkms where the necessary .config can be found so that your kernel
can be properly prepared for the module build.
--archive <tarball-location>
This option is used during a ldtarball action to specify the location of the tarball you wish to
load into your DKMS tree. You only have to specify the --archive part of this option if
<tarball-location> does not already exist as a file.
--templatekernel <kernel-version>
This option is required for the action: match. Match will look at the templatekernel specified
and install all of the same module/version combinations on the other kernel.
--force
This option can be used in conjunction with ldtarball to force copying over of extant files.
--binaries-only
This option can be used in conjunction with mktarball in order to create a DKMS tarball which does
not contain the source for the module within it. This can be helpful in reducing the size of the
tarball if you know that the system which this tarball will be loaded upon already has the source
installed. In order to load a tarball made as binaries-only you must have the module source in
that systems DKMS tree. If you do not, DKMS will refuse to load a binaries-only tarball.
--source-only
This option can be used in conjunction with mktarball or mkrpm or mkdeb in order to create a DKMS
tarball which does not contain any prebuilt kernel module binaries within it. This is helpful if
you simply want to easily tar up your source but don't want anything prebuilt within it.
Likewise, if you are using mkrpm but do not want the RPM you create to have any prebuilt modules
within it, passing this option will keep its internal DKMS tarball from containing any prebuilt
modules.
--all This option can be used to automatically specify all relevant kernels/arches for a module/module-
version. This is useful for things like remove , mktarball , etc. This saves the trouble of
having to actually specify -k kernel1 -a arch1 -k kernel2 -a arch2 for every kernel you have built
your module for.
--no-prepare-kernel
This option keeps DKMS from first preparing your kernel before building a module for it.
Generally, this option should not be used so as to ensure that modules are compiled correctly.
--no-clean-kernel
This option keeps DKMS from cleaning your kernel source tree after a build.
--no-depmod
This option prevents DKMS from running the depmod command during install and uninstall which will
avoid (re)calculating module dependencies and thereby save time.
--kernelsourcedir <kernel-source-directory-location>
Using this option you can specify the location of your kernel source directory. Most likely you
will not need to set this if your kernel source is accessible via
/lib/modules/$kernel_version/build.
--directive <"cli-directive=cli-value">
Using this option, you can specify additional directives from the command line. The --directive
option can be used multiple times on the same command-line to specify multiple additional command
line directives.
--rpm_safe_upgrade
This flag should be used when packaging DKMS enabled modules in RPMs. It should be specified
during both the add and remove actions in the RPM spec to ensure that DKMS and RPM behave
correctly in all scenarios when upgrading between various versions of a dkms enabled module RPM
package. See the sample.spec file for an example or read more in the section below on Creating
RPMs Which Utilize DKMS.
--spec specfile
This option is used by the mkkmp action to specify which RPM spec file to use when generating the
KMP. specfile will be sought in the module source directory.
--dkmstree path/to/place
Provides a destination tree for building and installing modules to. Useful in cases that you
don't want to contaminate a system when using solely for building.
--sourcetree path/to/place
Provides a location to build a DKMS package from. Useful for systems that you may not have root
access, but would still like to be able to build DKMS packages.
--installtree path/to/place
Provides a location to place modules when a dkms install command is issued.
--legacy-postinst=[0|1]
Includes a legacy postinstall script so that a DEB or RPM built by DKMS can be used on versions
prior than DKMS 2.1. This option currently defaults to 1.
--dkmsframework path/to/file
A supplemental configuration file to the system-wide dkms framework, typically located in
/etc/dkms/framework.conf. All option that are normally provided on a command line can be provided
in this file.
-j number
Run no more than number jobs in parallel; see the -j option of make(1). Defaults to the number of
CPUs in the system, detected by nproc(1). Specify 0 to impose no limit on the number of parallel
jobs.
ORIGINAL MODULES
During the first install of a module for a <kernelversion>, dkms will search /lib/modules/<kernelversion>
for a pre-existing module of the same name. If one is found, it will automatically be saved as an
"original_module" so that if the newer module is later removed, dkms will put the original module back in
its place. Currently, DKMS searches for these original modules with first preference going to modules
located in /lib/modules/<kernelversion>/updates/ followed by $DEST_MODULE_LOCATION (as specified in
dkms.conf ). If one cannot be found in either location, a find will be used to locate one for that
kernel. If none are found, then during a later uninstall, your kernel will not have that module
replaced.
If more than one is found, then the first one located (by preference indicated above) will be considered
the "original_module". As well, all copies of the same-named module will be removed from your kernel
tree and placed into /var/lib/dkms/<module>/original_module/$kernelver/collisions so that they can be
*manually* accessible later. DKMS will never actually do anything with the modules found underneath the
/collisions directory, and they will be stored there until you manually delete them.
DKMS.CONF
When performing an add , a proper dkms.conf file must be found. A properly formatted conf file is
essential for communicating to dkms how and where the module should be installed. While not all the
directives are required, providing as many as possible helps to limit any ambiguity. Note that the
dkms.conf is really only a shell-script of variable definitions which are then sourced in by the dkms
executable (of the format, DIRECTIVE="directive text goes here"). As well, the directives are
case-sensitive and should be given in ALL CAPS.
It is important to understand that many of the DKMS directives are arrays whose index values are tied
together. These array associations can be considered families, and there are currently four such
families of directive arrays. MAKE[#] and MAKE_MATCH[#] make up one family. PATCH[#] and PATCH_MATCH[#]
make up the second family. The third and largest family consists of BUILT_MODULE_NAME[#],
BUILT_MODULE_LOCATION[#], DEST_MODULE_NAME[#], DEST_MODULE_LOCATION[#], MODULES_CONF_ALIAS_TYPE[#],
MODULES_CONF_OBSOLETES[#], MODULES_CONF_OBSOLETE_ONLY[#] and STRIP[#]. The fourth family is made up of
only MODULES_CONF[#]. When indexing these arrays when creating your dkms.conf, each family should start
at index value 0.
MAKE[#]=
The MAKE directive array tells DKMS which make command should be used for building your module.
The default make command should be put into MAKE[0]. Other entries in the MAKE array will only be
used if their corresponding entry in MAKE_MATCH[#] matches, as a regular expression (using egrep),
the kernel that the module is being built for. Note that if no value is placed in MAKE_MATCH[#]
for any MAKE[#] where # > 0, then that MAKE directive is ignored. MAKE_MATCH[0] is optional and
if it is populated, it will be used to determine if MAKE[0] should be used to build the module for
that kernel. If multiple MAKE_MATCH directives match against the kernel being built for, the last
matching MAKE[#] will be used to build your module. If no MAKE directive is specified or if no
MAKE_MATCH matches the kernel being built for, DKMS will attempt to use a generic MAKE command to
build your module.
KERNELRELEASE will be automatically appended to MAKE[#]. If you want to suppress this behavior,
you can quote the make command: 'make'.
MAKE_MATCH[#]=
See the above entry on MAKE[#] directives. This array should be populated with regular
expressions which, when matched against the kernel being built for, will tell DKMS to use the
corresponding make command in the MAKE[#] directive array to build your module.
BUILT_MODULE_NAME[#]=
This directive gives the name of the module just after it is built. If your DKMS module package
contains more than one module to install, this is a required directive for all of the modules.
This directive should explicitly not contain any trailing ".o" or ".ko". Note that for each
module within a dkms package, the numeric value of # must be the same for each of
BUILT_MODULE_NAME, BUILT_MODULE_LOCATION, DEST_MODULE_NAME and DEST_MODULE_LOCATION and that the
numbering should start at 0 (eg. BUILT_MODULE_NAME[0]="qla2200" BUILT_MODULE_NAME[1]="qla2300").
BUILT_MODULE_LOCATION[#]=
This directive tells DKMS where to find your built module after it has been built. This pathname
should be given relative to the root directory of your source files (where your dkms.conf file can
be found). If unset, DKMS expects to find your BUILT_MODULE_NAME[#] in the root directory of your
source files. Note that for each module within a dkms package, the numeric value of # must be the
same for each of BUILT_MODULE_NAME, BUILT_MODULE_LOCATION, DEST_MODULE_NAME and
DEST_MODULE_LOCATION and that the numbering should start at 0 (eg.
BUILT_MODULE_LOCATION[0]="some/dir/" BUILT_MODULE_LOCATION[1]="other/dir/").
DEST_MODULE_NAME[#]=
This directive can be used to specify the name of the module as it should be installed. This will
rename the module from BUILT_MODULE_NAME[#] to DEST_MODULE_NAME[#]. This directive should
explicitly not contain any trailing ".o" or ".ko". If unset, it is assumed to be the same value
as BUILT_MODULE_NAME[#]. Note that for each module within a dkms package, the numeric value of #
must be the same for each of BUILT_MODULE_NAME, BUILT_MODULE_LOCATION, DEST_MODULE_NAME and
DEST_MODULE_LOCATION and that the numbering should start at 0 (eg.
DEST_MODULE_NAME[0]="qla2200_6x" DEST_MODULE_NAME[1]="qla2300_6x").
DEST_MODULE_LOCATION[#]=
This directive specifies the destination where a module should be installed to, once compiled. It
also is used for finding original_modules. This is a required directive, except as noted below.
This directive must start with the text "/kernel" which is in reference to
/lib/modules/<kernelversion>/kernel. Note that for each module within a dkms package, the numeric
value of # must be the same for each of BUILT_MODULE_NAME, BUILT_MODULE_LOCATION, DEST_MODULE_NAME
and DEST_MODULE_LOCATION and that the numbering should start at 0 (eg.
DEST_MODULE_LOCATION[0]="/kernel/drivers/something/"
DEST_MODULE_LOCATION[1]="/kernel/drivers/other/").
DEST_MODULE_LOCATION is ignored on Fedora and Red Hat Enterprise Linux, Novell SuSE Linux
Enterprise Server 10 and higher, Novell SuSE Linux 10.0 and higher, and Ubuntu. Instead, the
proper distribution-specific directory is used.
MODULES_CONF_ALIAS_TYPE[#]=
This directive array specifies how your modules should be aliased in /etc/modules.conf when your
module is installed. This is done in an intelligent fashion so if DKMS detects an already
existing reference in modules.conf, it won't add a new line. If it is not detected, it will add
it to the modules.conf as the last alias number for that alias type (eg. if
MODULES_CONF_ALIAS_TYPE="scsi_hostadapter", no alias currently exists for that module and the last
scsi_hostadapter reference is 6, then your module will be added as "scsi_hostadapter7"). Common
values for this directive include: scsi_hostadapter , sound-slot- and eth. Note that the numeric
value of # is tied to the index of BUILT_MODULE_NAME, BUILT_MODULE_LOCATION, DEST_MODULE_NAME and
DEST_MODULE_LOCATION. The index is also tied to MODULES_CONF_OBSOLETES.
MODULES_CONF_OBSOLETES[#]=
This directive array tells DKMS what modules.conf alias references are obsoleted by the module you
are installing. If your module obsoletes more than one module, this directive should be a
comma-delimited list of those modules that are obsoleted (eg. for megaraid2,
MODULES_CONF_OBSOLETES[0]="megaraid,megaraid_2002"). When you are installing your module, DKMS
ensures that any entries in /etc/modules.conf with the same MODULES_CONF_ALIAS_TYPE are changed
over to the new module name. When you are uninstalling your module, depending on the modules in
your /lib/modules tree, DKMS will take different actions. If you kernel has an original_module,
then modules.conf will not be touched and the non-obsolete reference will remain. If the kernel
does not have an original_module but does have one of the obsolete modules, it will replace those
references with the first obsolete module name in the comma-delimited list that is also in that
kernel (thus, your obsolete list should be prioritized from left to right). If no original_module
or obsolete modules are found within the kernel, the alias entry is removed all-together. Note
that the numeric value of # is tied to the index of BUILT_MODULE_NAME, BUILT_MODULE_LOCATION,
DEST_MODULE_NAME and DEST_MODULE_LOCATION. The index is also tied to MODULES_CONF_ALIAS_TYPE.
MODULES_CONF_OBSOLETE_ONLY[#]=
If set to yes , this directive will tell DKMS to only modify /etc/modules.conf if it finds within
it an obsolete reference as specified in the corresponding value of MODULES_CONF_OBSOLETES[#]
array directive.
STRIP[#]=
By default strip is considered to be "yes". If set to "no", DKMS will not run strip -g against
your built module to remove debug symbols from it. STRIP[0] is used as the default for any unset
entries in the STRIP array.
PACKAGE_NAME=
This directive is used to give the name associated with the entire package of modules. This is
the same name that is used with the -m option when building, adding, etc. and may not necessarily
be the same as the MODULE_NAME. This directive must be present in every dkms.conf.
PACKAGE_VERSION=
This directive is used to give the version associated with the entire package of modules being
installed within that dkms package. This directive must be present in every dkms.conf.
CLEAN= CLEAN specifies the make clean command to be used to clean up both before and after building the
module. If unset, it is assumed to be "make clean".
REMAKE_INITRD=
This directive specifies whether your initrd should be remade after the module is installed onto
the kernel. Any text after the first character is ignored and if the first character is not a "y"
or a "Y", it is assumed that REMAKE_INITRD="no".
MODULES_CONF[#]=
This directive array specifies what static configuration text lines need to be added into
/etc/modules.conf for your module. See the section on MODULES.CONF CHANGES for more information
regarding the implications of modifying /etc/modules.conf
OBSOLETE_BY=
This directive allows you to specify a kernel version that obsoletes the necessity for this
particular DKMS module. This can be specified as a particular upstream kernel or an ABI bump of a
kernel. For example, "2.6.24" would be an upstream kernel and "2.6.24-16" would represent an ABI
bump for a kernel. Both are valid in this area.
Please avoid the use of OBSOLETE_BY wherever possible. It's use indicates a lack of proper module
versioning using MODULE_VERSION() tags in the module source itself. It is better to fix the
MODULE_VERSION() tags than use OBSOLETE_BY. This also introduces a implicit distribution/version
dependency on the package, as the value of OBSOLETE_BY is meaningful only in the context of a
single distribution/version.
If you feel you must use it, please use as such in dkms.conf:
ubuntu_804="Ubuntu
8.04"
if [ -x /usr/bin/lsb_release ]; then
if [ "$(/usr/bin/lsb_release -sir)" == "${ubuntu_804}" ]; then
OBSOLETE_BY="2.6.25"
fi
fi
PATCH[#]=
Use the PATCH directive array to specify patches which should be applied to your source before a
build occurs. All patches are expected to be in -p1 format and are applied with the patch -p1
command. Each directive should specify the filename of the patch to apply, and all patches must
be located in the patches subdirectory of your source directory (
/usr/src/<module>-<module-version>/patches/ ). If any patch fails to apply, the build will be
halted and the rejections can be inspected in /var/lib/dkms/<module>/<module-version>/build/. If
a PATCH should only be applied conditionally, the PATCH_MATCH[#] array should be used, and a
corresponding regular expression should be placed in PATCH_MATCH[#] which will alert dkms to only
use that PATCH[#] if the regular expression matches the kernel which the module is currently being
built for.
PATCH_MATCH[#]=
See the above description for PATCH[#] directives. If you only want a patch applied in certain
scenarios, the PATCH_MATCH array should be utilized by giving a regular expression which matches
the kernels you intend the corresponding PATCH[#] to be applied to before building that module.
AUTOINSTALL=
If this directive is set to yes then the service /etc/rc.d/init.d/dkms_autoinstaller will
automatically try to install this module on any kernel you boot into. See the section on
dkms_autoinstaller for more information.
BUILD_DEPENDS[#]=
This optional directive is an array that allows you to specify other modules as dependencies for
your module. Each array element should be the PACKAGE_NAME of another module that is managed by
dkms. Do not specify a version or architecture in the dependency. Note that this directive is only
advisory; missing or broken dependencies cause non-fatal warnings.
BUILD_EXCLUSIVE_KERNEL=
This optional directive allows you to specify a regular expression which defines the subset of
kernels which DKMS is allowed to build your module for. If the kernel being built for does not
match against this regular expression, the dkms build will error out. For example, if you set it
as ="^2.4.*", your module would not be built for 2.6 kernels.
BUILD_EXCLUSIVE_ARCH=
This optional directive functions very similarly to BUILD_EXCLUSIVE_KERNEL except that it matches
against the kernel architecture. For example, if you set it to ="i.86", your module would not be
built for ia32e, x86_64, amd64, s390, etc.
POST_ADD=
The name of the script to be run after an add is performed. The path should be given relative to
the root directory of your source.
POST_BUILD=
The name of the script to be run after a build is performed. The path should be given relative to
the root directory of your source.
POST_INSTALL=
The name of the script to be run after an install is performed. The path should be given relative
to the root directory of your source.
POST_REMOVE=
The name of the script to be run after a remove is performed. The path should be given relative to
the root directory of your source.
PRE_BUILD=
The name of the script to be run before a build is performed. The path should be given relative to
the root directory of your source.
PRE_INSTALL=
The name of the script to be run before an install is performed. The path should be given relative
to the root directory of your source. If the script exits with a non-zero value, the install will
be aborted. This is typically used to perform a custom version comparison.
SIGN_TOOL=
The module signing tool to be run at a build. Two arguments will be passed to the signing tool.
The first argument is the target kernel version, the second is the module file path. If the tool
exits with a non-zero value, the build will be aborted.
DKMS.CONF VARIABLES
Within your dkms.conf file, you can use certain variables which will be replaced at run-time with
their values.
$kernelver
This variable can be used within a directive definition and during use, the actual kernel version
in question will be substituted in its place. This is especially useful in MAKE commands when
specifying which INCLUDE statements should be used when compiling your module (eg. MAKE="make all
INCLUDEDIR=/lib/modules/${kernelver}/build/include").
$dkms_tree
See the section on /etc/dkms/framework.conf for more information. This variable represents the
location of the DKMS tree on the local system. By default this is /var/lib/dkms , but this value
should not be hard-coded into a dkms.conf in the event that the local user has changed it on their
system.
$source_tree
See the section on /etc/dkms/framework.conf for more information. This variable represents the
location where DKMS keeps source on the local system. By default this is /usr/src , but this
value should not be hard-coded into a dkms.conf in the event that the local user has changed it on
their system.
$kernel_source_dir
This variable holds the value of the location of your kernel source directory. Usually, this will
be /lib/modules/$kernelver/build , unless otherwise specified with the --kernelsourcedir option.
DKMS.CONF OVERRIDES
You can override the module-provided dkms.conf files. Every time after a dkms.conf file is read, dkms
will look for and read the following files in order:
/etc/dkms/<module>.conf
/etc/dkms/<module>-<module-version>.conf
/etc/dkms/<module>-<module-version>-<kernel>.conf
/etc/dkms/<module>-<module-version>-<kernel>-<arch>.conf
You can use these files to override settings in the module-provided dkms.conf files.
/etc/dkms/framework.conf
This configuration file controls how the overall DKMS framework handles. It is sourced in every time the
dkms command is run. Mainly it can currently be used to set different default values for the variables.
$dkms_tree , $source_tree and $install_tree which control where DKMS looks for its framework. The
$symlink_modules variable controls whether binary modules are copied to /lib/modules or if only symlinks
are created there. Note that these variables can also be manipulated on the command line with --dkmstree,
--sourcetree, --installtree and --symlink-modules options.
The $autoinstall_all_kernels variable is used by the common postinst for DKMS modules. It controls if the
build should be done for all installed kernels or only for the current and latest installed kernel. It
has no command line equivalent.
dkms_autoinstaller
This boot-time service automatically installs any module which has AUTOINSTALL="yes" set in its dkms.conf
file. The service works quite simply and if multiple versions of a module are in your system's DKMS
tree, it will not do anything and instead explain that manual intervention is required.
MODULES.CONF / MODPROBE.CONF CHANGES
Changes that your module will make to /etc/modules.conf or /etc/modprobe.conf should be specified with
the MODULES_CONF_ALIAS_TYPE[#] , the MODULES_CONF_OBSOLETES[#] and the MODULES_CONF[#] directive arrays.
These arrays should also be used even if your distro uses /etc/sysconfig/kernel to track kernel modules.
When the first module is installed upon the first kernel within the user's system, these entries in
MODULES_CONF[#] are automatically added to /etc/modules.conf and if REMAKE_INITRD is specified, then the
user's initrd is then remade. Subsequently, as your modules are then later removed from the user's
system, until the final module/version combination is removed from the final kernel version, those
references in modules.conf will remain. Once the last module/version combination is removed, those
references are then removed.
As modules/versions are removed and initrds are remade, one of three things will happen if you have
specified a MODULES_CONF_ALIAS_TYPE. If no original_module exists for that kernel, and no
MODULES_CONF_OBSOLETES modules are found in that kernel too, the modules.conf alias references will
temporarily be removed so that the initrd will successfully remake. Once the initrd is remade, however;
those references are then automatically put back into modules.conf (unless you are removing the last
instance of the module on the last kernel). However, if no original_module exists, but there is an
OBSOLETE module found within that kernel, the alias reference is temporarily shifted to point to the
OBSOLETE module so that the initrd can be remade. After it is remade, it then automatically puts back
the alias reference (unless you are removing the last instance of the module on the last kernel).
Lastly, if an original_module does exist for the kernel version, then modules.conf is not touched and all
references persist (even if you are removing the last instance of the module on the last kernel).
Certain module installations might not only require adding references to modules.conf but also require
removing conflicting references that might exist in the user's system. If this is the case, the
MODULES_CONF_OBSOLETES[#] directive should be utilized to remove these references. More information
about this directive can be found in the DKMS.CONF section of this man page.
Note that the end state of your modules.conf file very much depends on what kernel modules exist in the
final kernel you remove your DKMS module from. This is an imperfect system caused by the fact that there
is only one modules.conf file for every kernel on your system even though various kernels use different
modules. In a perfect world, there would be one modules.conf file for every kernel (just like
System.map).
CREATING RPMS WHICH UTILIZE DKMS
See the sample.spec file packaged with DKMS as an example for what your RPM spec file might look like.
Creating RPMs which utilize dkms is a fairly straight-forward process. The RPM need only to install the
source into /usr/src/<module>-<module-version>/ and then employ dkms itself to do all the work of
installation. As such, the RPM should first untar the source into this directory. From here, within the
RPM .spec file, a dkms add should be called (remember to use the --rpm_safe_upgrade flag during the add)
followed by a dkms build followed by a dkms install. Your dkms.conf file should be placed within the
/usr/src/<module>-<module-version>/ directory.
Under the removal parts of the .spec file, all that needs to be called is a: dkms remove -m <module> -v
<module-version> --all --rpm_safe_upgrade. Use of the --rpm_safe_upgrade flag is imperative for making
sure DKMS and RPM play nicely together in all scenarios of using the -Uvh flag with RPM to upgrade dkms
enabled packages. It will only function if used during both the add and remove actions within the same
RPM spec file. Its use makes sure that when upgrading between different releases of an RPM for the same
<module-version>, DKMS does not do anything dumb (eg. it ensures a smooth upgrade from
megaraid-2.09-5.noarch.rpm to megaraid-2.09-6.noarch.rpm).
It should be noted that a binary RPM which contains source is not a traditional practice. However, given
the benefits of dkms it hopefully will become so. As the RPM created which utilizes dkms is not
architecture specific, BuildArch: noarch should be specified in the .spec file to indicate that the
package can work regardless of the system architecture. Also note that DKMS RPM upgrades (-U option)
will automatically work because of the structure of the dkms tree.
Lastly, as a matter of convention, you should name your RPM:
<package>-<version>-<rpm-version>dkms.noarch.rpm. The word dkms as part of the rpm-version signifies
that the RPM works within the DKMS framework.
AUTHOR
Gary Lerhaupt
WEBPAGE
https://github.com/dell/dkms
WHITE-PAPERS
http://www.dell.com/downloads/global/power/1q04-ler.pdf
http://www.linuxjournal.com/article.php?sid=6896
MAILING-LIST
dkms-devel@dell.com http://lists.us.dell.com/mailman/listinfo/dkms-devel
REFERENCES
Kernel Module Packages http://kerneldrivers.org
Novell Kernel Module Packages http://www.suse.de/~agruen/KMPM
Fedora Kernel Module Packages http://fedoraproject.org/wiki/Extras/KernelModuleProposal
RELEASE_STRING-RELEASE_VERSION RELEASE_DATE DKMS(8)