# 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 1.65 2006/05/22 09:27:50 genstef 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 # The order of these is important as both of linux-info and eutils contain # set_arch_to_kernel and set_arch_to_portage functions and the ones in eutils # are deprecated in favor of the ones in linux-info. # See http://bugs.gentoo.org/show_bug.cgi?id=127506 inherit eutils linux-info multilib EXPORT_FUNCTIONS pkg_setup pkg_preinst 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 $ECLASS eclass" RDEPEND="kernel_linux? ( virtual/modutils pcmcia? ( virtual/pcmcia ) )" DEPEND="${RDEPEND} sys-apps/sed" # eclass utilities # ---------------------------------- check_vermagic() { local curr_gcc_ver=$(gcc -dumpversion) local tmpfile old_chost old_gcc_ver result=0 tmpfile=`find ${KV_DIR}/ -iname "*.o.cmd" -exec grep usr/lib/gcc {} \; -quit` tmpfile=${tmpfile//*usr/lib} tmpfile=${tmpfile//\/include*} old_chost=${tmpfile//*gcc\/} old_chost=${old_chost//\/*} old_gcc_ver=${tmpfile//*\/} if [[ -z ${old_gcc_ver} || -z ${old_chost} ]]; then ewarn "" ewarn "Unable to detect what version of GCC was used to compile" ewarn "the kernel. Build will continue, but you may experience problems." elif [[ ${curr_gcc_ver} != ${old_gcc_ver} ]]; then ewarn "" ewarn "The version of GCC you are using (${curr_gcc_ver}) does" ewarn "not match the version of GCC used to compile the" ewarn "kernel (${old_gcc_ver})." result=1 elif [[ ${CHOST} != ${old_chost} ]]; then ewarn "" ewarn "The current CHOST (${CHOST}) does not match the chost" ewarn "used when compiling the kernel (${old_chost})." result=1 fi if [[ ${result} -gt 0 ]]; then ewarn "" ewarn "Build will not continue, because you will experience problems." ewarn "To fix this either change the version of GCC you wish to use" ewarn "to match the kernel, or recompile the kernel first." die "GCC Version Mismatch." fi } 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." epause 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}\/${PN}-${PVR}.*/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 currm_t 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 ${currm} | tr '[:lower:]' '[:upper:]') currm_t=${currm} while [[ -z ${currm_t//*-*} ]]; do currm_t=${currm_t/-/_} done module_docs="$(eval echo \${MODULESD_${currm_t}_DOCS})" module_enabled="$(eval echo \${MODULESD_${currm_t}_ENABLED})" module_aliases="$(eval echo \${#MODULESD_${currm_t}_ALIASES[*]})" module_additions="$(eval echo \${#MODULESD_${currm_t}_ADDITIONS[*]})" module_examples="$(eval echo \${#MODULESD_${currm_t}_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 ${module_docs} done eend 0 return 0 } find_module_params() { local matched_offset=0 matched_opts=0 test="${@}" 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; strip_modulenames; [[ -n ${MODULE_NAMES} ]] && check_modules_supported set_kvobj; # Commented out with permission from johnm until a fixed version for arches # who intentionally use different kernel and userland compilers can be # introduced - Jason Wever , 23 Oct 2005 #check_vermagic; } strip_modulenames() { local i for i in ${MODULE_IGNORE}; do MODULE_NAMES=${MODULE_NAMES//${i}(*} done } linux-mod_src_compile() { local modulename libdir srcdir objdir i n myARCH="${ARCH}" myABI="${ABI}" ARCH="$(tc-arch-kernel)" ABI="${KERNEL_ABI}" CC_HOSTCC=$(tc-getBUILD_CC) CC_CC=$(tc-getCC) BUILD_TARGETS=${BUILD_TARGETS:-clean module} strip_modulenames; 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 ${ECONF_PARAMS}" fi emake HOSTCC=${CC_HOSTCC} CC=${CC_CC}\ ${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}" ABI="${myABI}" } linux-mod_src_install() { local modulename libdir srcdir objdir i n strip_modulenames; 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 ${objdir} || die "${objdir} does not exist" insinto /lib/modules/${KV_FULL}/${libdir} doins ${modulename}.${KV_OBJ} || die "doins ${modulename}.${KV_OBJ} failed" cd ${OLDPWD} generate_modulesd ${objdir}/${modulename} done } linux-mod_pkg_preinst() { [ -d ${IMAGE}/lib/modules ] && UPDATE_DEPMOD=true || UPDATE_DEPMOD=false [ -d ${IMAGE}/etc/modules.d ] && UPDATE_MODULES=true || UPDATE_MODULES=false [ -d ${IMAGE}/lib/modules ] && UPDATE_MODULEDB=true || UPDATE_MODULEDB=false } linux-mod_pkg_postinst() { ${UPDATE_DEPMOD} && update_depmod; ${UPDATE_MODULES} && update_modules; ${UPDATE_MODULEDB} && update_moduledb; } linux-mod_pkg_postrm() { remove_moduledb; }