# Copyright 1999-2004 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/eclass/linux-mod.eclass,v 1.50 2005/07/11 21:03:56 brix Exp $ # Description: This eclass is used to interface with linux-info in such a way # to provide the functionality required and initial functions # required to install external modules against a kernel source # tree. # # Maintainer: John Mylchreest # Copyright 2004 Gentoo Linux # # Please direct your bugs to the current eclass maintainer :) # A Couple of env vars are available to effect usage of this eclass # These are as follows: # # Env Var Option Default Description # KERNEL_DIR /usr/src/linux The directory containing kernel # the target kernel sources. # ECONF_PARAMS The parameters to pass to econf. # If this is not set, then econf # isn't run. # BUILD_PARAMS The parameters to pass to emake. # BUILD_TARGETS clean modules The build targets to pass to # make. # MODULE_NAMES This is the modules which are # to be built automatically using # the default pkg_compile/install. # They are explained properly # below. It will only make # BUILD_TARGETS once in any # directory. # MODULE_NAMES - Detailed Overview # # The structure of each MODULE_NAMES entry is as follows: # modulename(libdir:srcdir:objdir) # for example: # MODULE_NAMES="module_pci(pci:${S}/pci:${S}) module_usb(usb:${S}/usb:${S})" # # what this would do is # cd ${S}/pci # make ${BUILD_PARAMS} ${BUILD_TARGETS} # cd ${S} # insinto /lib/modules/${KV_FULL}/pci # doins module_pci.${KV_OBJ} # # cd ${S}/usb # make ${BUILD_PARAMS} ${BUILD_TARGETS} # cd ${S} # insinto /lib/modules/${KV_FULL}/usb # doins module_usb.${KV_OBJ} # # if the srcdir isnt specified, it assumes ${S} # if the libdir isnt specified, it assumes misc. # if the objdir isnt specified, it assumes srcdir # There is also support for automatyed modules.d file generation. # This can be explicitly enabled by setting any of the following variables. # # # MODULESD_${modulename}_ENABLED This enables the modules.d file # generation even if we dont # specify any additional info. # MODULESD_${modulename}_EXAMPLES This is a bash array containing # a list of examples which should # be used. If you want us to try and # take a guess. Set this to "guess" # MODULESD_${modulename}_ALIASES This is a bash array containing # a list of associated aliases. # MODULESD_${modulename}_ADDITIONS This is a bash array containing # A list of additional things to # add to the bottom of the file. # This can be absolutely anything. # Each entry is a new line. # MODULES_${modulename}_DOCS This is a string list which contains # the full path to any associated # documents for $modulename inherit linux-info EXPORT_FUNCTIONS pkg_setup pkg_postinst src_install src_compile pkg_postrm IUSE="" # don't put pcmcia here, rather in the ebuilds that actually support pcmcia SLOT="0" DESCRIPTION="Based on the $ECLASS eclass" RDEPEND="virtual/modutils pcmcia? ( virtual/pcmcia )" DEPEND="virtual/linux-sources sys-apps/sed pcmcia? ( virtual/pcmcia )" # eclass utilities # ---------------------------------- unpack_pcmcia_sources() { # So while the two eclasses exist side-by-side and also the ebuilds inherit # both we need to check for PCMCIA_SOURCE_DIR, and if we find it, then we # bail out and assume pcmcia.eclass is working on it. [[ -n ${PCMCIA_SOURCE_DIR} ]] && return 1 if [[ -f "${1}" ]]; then PCMCIA_SOURCE_DIR="${WORKDIR}/pcmcia-cs/" ebegin "Decompressing pcmcia-cs sources" mkdir -p ${PCMCIA_SOURCE_DIR} tar -xjf ${1} -C ${PCMCIA_SOURCE_DIR} eend $? if [[ -f ${PCMCIA_SOURCE_DIR}/pcmcia-cs-version ]]; then PCMCIA_VERSION=$(cat ${PCMCIA_SOURCE_DIR}/pcmcia-cs-version) einfo "Found pcmcia-cs-${PCMCIA_VERSION}" fi fi } # Dummy function for compatibility. pcmcia_configure() { return 0; } pcmcia_src_unpack() { local pcmcia_tbz="${ROOT}/usr/src/pcmcia-cs/pcmcia-cs-build-env.tbz2" # if the kernel has pcmcia support built in, then we just ignore all this. if linux_chkconfig_present PCMCIA; then einfo "Kernel based PCMCIA support has been detected." else if kernel_is 2 4; then unpack_pcmcia_sources ${pcmcia_tbz}; else einfo "We have detected that you are running a 2.6 kernel" einfo "but you are not using the built-in PCMCIA support." einfo "We will assume you know what you are doing, but please" einfo "consider using the built in PCMCIA support instead." sleep 10 unpack_pcmcia_sources ${pcmcia_tbz}; fi fi } use_m() { # if we haven't determined the version yet, we need too. get_version; # if the kernel version is greater than 2.6.6 then we should use # M= instead of SUBDIRS= [ ${KV_MAJOR} -eq 2 -a ${KV_MINOR} -gt 5 -a ${KV_PATCH} -gt 5 ] && \ return 0 || return 1 } convert_to_m() { if use_m then [ ! -f "${1}" ] && \ die "convert_to_m() requires a filename as an argument" ebegin "Converting ${1/${WORKDIR}\//} to use M= instead of SUBDIRS=" sed -i 's:SUBDIRS=:M=:g' ${1} eend $? fi } update_depmod() { # if we haven't determined the version yet, we need too. get_version; ebegin "Updating module dependencies for ${KV_FULL}" if [ -r ${KV_OUT_DIR}/System.map ] then depmod -ae -F ${KV_OUT_DIR}/System.map -b ${ROOT} -r ${KV_FULL} eend $? else ewarn ewarn "${KV_OUT_DIR}/System.map not found." ewarn "You must manually update the kernel module dependencies using depmod." eend 1 ewarn fi } update_modules() { if [ -x /sbin/modules-update ] && \ grep -v -e "^#" -e "^$" ${D}/etc/modules.d/* >/dev/null 2>&1; then ebegin "Updating modules.conf" /sbin/modules-update eend $? fi } move_old_moduledb() { local OLDDIR=${ROOT}/usr/share/module-rebuild/ local NEWDIR=${ROOT}/var/lib/module-rebuild/ if [[ -f ${OLDDIR}/moduledb ]]; then [[ ! -d ${NEWDIR} ]] && mkdir -p ${NEWDIR} [[ ! -f ${NEWDIR}/moduledb ]] && \ mv ${OLDDIR}/moduledb ${NEWDIR}/moduledb rm -f ${OLDDIR}/* rmdir ${OLDDIR} fi } update_moduledb() { local MODULEDB_DIR=${ROOT}/var/lib/module-rebuild/ move_old_moduledb if [[ ! -f ${MODULEDB_DIR}/moduledb ]]; then [[ ! -d ${MODULEDB_DIR} ]] && mkdir -p ${MODULEDB_DIR} touch ${MODULEDB_DIR}/moduledb fi if [[ -z $(grep ${CATEGORY}/${PN}-${PVR} ${MODULEDB_DIR}/moduledb) ]]; then einfo "Adding module to moduledb." echo "a:1:${CATEGORY}/${PN}-${PVR}" >> ${MODULEDB_DIR}/moduledb fi } remove_moduledb() { local MODULEDB_DIR=${ROOT}/var/lib/module-rebuild/ move_old_moduledb if [[ -n $(grep ${CATEGORY}/${PN}-${PVR} ${MODULEDB_DIR}/moduledb) ]]; then einfo "Removing ${CATEGORY}/${PN}-${PVR} from moduledb." sed -ie "/.*${CATEGORY}\/${P}.*/d" ${MODULEDB_DIR}/moduledb fi } set_kvobj() { if kernel_is 2 6 then KV_OBJ="ko" else KV_OBJ="o" fi # Do we really need to know this? # Lets silence it. # einfo "Using KV_OBJ=${KV_OBJ}" } generate_modulesd() { # This function will generate the neccessary modules.d file from the # information contained in the modules exported parms local currm_path currm t myIFS myVAR local module_docs module_enabled module_aliases \ module_additions module_examples module_modinfo module_opts for currm_path in ${@} do currm=${currm_path//*\/} currm=$(echo ${currm} | tr '[:lower:]' '[:upper:]') module_docs="$(eval echo \${MODULESD_${currm}_DOCS})" module_enabled="$(eval echo \${MODULESD_${currm}_ENABLED})" module_aliases="$(eval echo \${#MODULESD_${currm/-/_}_ALIASES[*]})" module_additions="$(eval echo \${#MODULESD_${currm/-/_}_ADDITIONS[*]})" module_examples="$(eval echo \${#MODULESD_${currm/-/_}_EXAMPLES[*]})" [[ ${module_aliases} -eq 0 ]] && unset module_aliases [[ ${module_additions} -eq 0 ]] && unset module_additions [[ ${module_examples} -eq 0 ]] && unset module_examples # If we specify we dont want it, then lets exit, otherwise we assume # that if its set, we do want it. [[ ${module_enabled} == no ]] && return 0 # unset any unwanted variables. for t in ${!module_*} do [[ -z ${!t} ]] && unset ${t} done [[ -z ${!module_*} ]] && return 0 # OK so now if we have got this far, then we know we want to continue # and generate the modules.d file. module_modinfo="$(modinfo -p ${currm_path}.${KV_OBJ})" module_config="${T}/modulesd-${currm}" ebegin "Preparing file for modules.d" #----------------------------------------------------------------------- echo "# modules.d configuration file for ${currm}" >> ${module_config} #----------------------------------------------------------------------- [[ -n ${module_docs} ]] && \ echo "# For more information please read:" >> ${module_config} for t in ${module_docs} do echo "# ${t//*\/}" >> ${module_config} done echo >> ${module_config} #----------------------------------------------------------------------- if [[ ${module_aliases} -gt 0 ]] then echo "# Internal Aliases - Do not edit" >> ${module_config} echo "# ------------------------------" >> ${module_config} for((t=0; t<${module_aliases}; t++)) do echo "alias $(eval echo \${MODULESD_${currm}_ALIASES[$t]})" \ >> ${module_config} done echo '' >> ${module_config} fi #----------------------------------------------------------------------- if [[ -n ${module_modinfo} ]] then echo >> ${module_config} echo "# Configurable module parameters" >> ${module_config} echo "# ------------------------------" >> ${module_config} myIFS="${IFS}" IFS="$(echo -en "\n\b")" for t in ${module_modinfo} do myVAR="$(echo ${t#*:} | grep -e " [0-9][ =]" | sed "s:.*\([01][= ]\).*:\1:")" if [[ -n ${myVAR} ]] then module_opts="${module_opts} ${t%%:*}:${myVAR}" fi echo -e "# ${t%%:*}:\t${t#*:}" >> ${module_config} done IFS="${myIFS}" echo '' >> ${module_config} fi #----------------------------------------------------------------------- if [[ $(eval echo \${MODULESD_${currm}_ALIASES[0]}) == guess ]] then # So lets do some guesswork eh? if [[ -n ${module_opts} ]] then echo "# For Example..." >> ${module_config} echo "# --------------" >> ${module_config} for t in ${module_opts} do echo "# options ${currm} ${t//:*}=${t//*:}" >> ${module_config} done echo '' >> ${module_config} fi elif [[ ${module_examples} -gt 0 ]] then echo "# For Example..." >> ${module_config} echo "# --------------" >> ${module_config} for((t=0; t<${module_examples}; t++)) do echo "options $(eval echo \${MODULESD_${currm}_EXAMPLES[$t]})" \ >> ${module_config} done echo '' >> ${module_config} fi #----------------------------------------------------------------------- if [[ ${module_additions} -gt 0 ]] then for((t=0; t<${module_additions}; t++)) do echo "$(eval echo \${MODULESD_${currm}_ADDITIONS[$t]})" \ >> ${module_config} done echo '' >> ${module_config} fi #----------------------------------------------------------------------- # then we install it insinto /etc/modules.d newins ${module_config} ${currm_path//*\/} # and install any documentation we might have. [[ -n ${module_docs} ]] && dodoc ${module_docs} done eend 0 return 0 } display_postinst() { # if we haven't determined the version yet, we need too. get_version; local modulename moduledir sourcedir moduletemp file i file=${ROOT}/etc/modules.autoload.d/kernel-${KV_MAJOR}.${KV_MINOR} file=${file/\/\///} for i in ${MODULE_IGNORE} do MODULE_NAMES=${MODULE_NAMES//${i}(*} done if [[ -n ${MODULE_NAMES} ]] then einfo "If you would like to load this module automatically upon boot" einfo "please type the following as root:" for i in ${MODULE_NAMES} do unset libdir srcdir objdir for n in $(find_module_params ${i}) do eval ${n/:*}=${n/*:/} done einfo " # echo \"${modulename}\" >> ${file}" done einfo fi } find_module_params() { local matched_offset=0 matched_opts=0 test="${@}" temp_var result local i=0 y=0 z=0 for((i=0; i<=${#test}; i++)) do case ${test:${i}:1} in \() matched_offset[0]=${i};; \:) matched_opts=$((${matched_opts} + 1)); matched_offset[${matched_opts}]="${i}";; \)) matched_opts=$((${matched_opts} + 1)); matched_offset[${matched_opts}]="${i}";; esac done for((i=0; i<=${matched_opts}; i++)) do # i = offset were working on # y = last offset # z = current offset - last offset # temp_var = temporary name case ${i} in 0) tempvar=${test:0:${matched_offset[0]}};; *) y=$((${matched_offset[$((${i} - 1))]} + 1)) z=$((${matched_offset[${i}]} - ${matched_offset[$((${i} - 1))]})); z=$((${z} - 1)) tempvar=${test:${y}:${z}};; esac case ${i} in 0) result="${result} modulename:${tempvar}";; 1) result="${result} libdir:${tempvar}";; 2) result="${result} srcdir:${tempvar}";; 3) result="${result} objdir:${tempvar}";; esac done echo ${result} } # default ebuild functions # -------------------------------- linux-mod_pkg_setup() { linux-info_pkg_setup; check_kernel_built; check_modules_supported; set_kvobj; } linux-mod_src_compile() { local modulename libdir srcdir objdir i n myARCH="${ARCH}" unset ARCH BUILD_TARGETS=${BUILD_TARGETS:-clean module} for i in ${MODULE_IGNORE} do MODULE_NAMES=${MODULE_NAMES//${i}(*} done for i in ${MODULE_NAMES} do unset libdir srcdir objdir for n in $(find_module_params ${i}) do eval ${n/:*}=${n/*:/} done libdir=${libdir:-misc} srcdir=${srcdir:-${S}} objdir=${objdir:-${srcdir}} if [ ! -f "${srcdir}/.built" ]; then cd ${srcdir} einfo "Preparing ${modulename} module" if [[ -n ${ECONF_PARAMS} ]] then econf ${ECONF_PARAMS} || \ die "Unable to run econf ${ECONF_PARAMS}" fi emake ${BUILD_FIXES} ${BUILD_PARAMS} ${BUILD_TARGETS} \ || die "Unable to make \ ${BUILD_FIXES} ${BUILD_PARAMS} ${BUILD_TARGETS}." touch ${srcdir}/.built cd ${OLDPWD} fi done ARCH="${myARCH}" } linux-mod_src_install() { local modulename libdir srcdir objdir i n for i in ${MODULE_IGNORE} do MODULE_NAMES=${MODULE_NAMES//${i}(*} done for i in ${MODULE_NAMES} do unset libdir srcdir objdir for n in $(find_module_params ${i}) do eval ${n/:*}=${n/*:/} done libdir=${libdir:-misc} srcdir=${srcdir:-${S}} objdir=${objdir:-${srcdir}} einfo "Installing ${modulename} module" cd ${objdir} insinto ${ROOT}lib/modules/${KV_FULL}/${libdir} doins ${modulename}.${KV_OBJ} cd ${OLDPWD} generate_modulesd ${objdir}/${modulename} done } linux-mod_pkg_postinst() { update_depmod; update_modules; update_moduledb; display_postinst; } linux-mod_pkg_postrm() { remove_moduledb; }