# Copyright 1999-2005 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Header: /var/cvsroot/gentoo-x86/eclass/kernel-2.eclass,v 1.142 2005/08/23 14:55:11 swegener Exp $ # Description: kernel.eclass rewrite for a clean base regarding the 2.6 # series of kernel with back-compatibility for 2.4 # # Maintainer: John Mylchreest # # Please direct your bugs to the current eclass maintainer :) # added functionality: # unipatch - a flexible, singular method to extract, add and remove patches. # A Couple of env vars are available to effect usage of this eclass # These are as follows: # # K_USEPV - When setting the EXTRAVERSION variable, it should # add PV to the end. # this is useful for thigns like wolk. IE: # EXTRAVERSION would be something like : -wolk-4.19-r1 # K_NOSETEXTRAVERSION - if this is set then EXTRAVERSION will not be # automatically set within the kernel Makefile # K_NOUSENAME - if this is set then EXTRAVERSION will not include the # first part of ${PN} in EXTRAVERSION # K_PREPATCHED - if the patchset is prepatched (ie: mm-sources, # ck-sources, ac-sources) it will use PR (ie: -r5) as # the patchset version for # and not use it as a true package revision # K_EXTRAEINFO - this is a new-line seperated list of einfo displays in # postinst and can be used to carry additional postinst # messages # K_EXTRAEWARN - same as K_EXTRAEINFO except ewarn's instead of einfo's # K_SYMLINK - if this is set, then forcably create symlink anyway # # K_DEFCONFIG - Allow specifying a different defconfig target. # If length zero, defaults to "defconfig". # K_WANT_GENPATCHES - Apply genpatches to kernel source. Provide any # combination of "base" and "extras" # K_GENPATCHES_VER - The version of the genpatches tarball(s) to apply. # A value of "5" would apply genpatches-2.6.12-5 to # my-sources-2.6.12.ebuild # H_SUPPORTEDARCH - this should be a space separated list of ARCH's which # can be supported by the headers ebuild # UNIPATCH_LIST - space delimetered list of patches to be applied to the # kernel # UNIPATCH_EXCLUDE - an addition var to support exlusion based completely # on "*" and not "_*" # - this should _NOT_ be used from the ebuild as this is # reserved for end users passing excludes from the cli # UNIPATCH_DOCS - space delimemeted list of docs to be installed to # the doc dir # UNIPATCH_STRICTORDER - if this is set places patches into directories of # order, so they are applied in the order passed inherit toolchain-funcs versionator multilib EXPORT_FUNCTIONS pkg_setup src_unpack src_compile src_install \ pkg_preinst pkg_postinst pkg_prerm # Added by Daniel Ostrow # This is an ugly hack to get around an issue with a 32-bit userland on ppc64. # I will remove it when I come up with something more reasonable. [[ ${PROFILE_ARCH} == 'ppc64' ]] && CHOST='powerpc64-unknown-linux-gnu' export CTARGET=${CTARGET:-${CHOST}} if [[ ${CTARGET} == ${CHOST} && ${CATEGORY/cross-} != ${CATEGORY} ]]; then export CTARGET=${CATEGORY/cross-} fi HOMEPAGE="http://www.kernel.org/ http://www.gentoo.org/" LICENSE="GPL-2" # set LINUX_HOSTCFLAGS if not already set [[ -z ${LINUX_HOSTCFLAGS} ]] && \ LINUX_HOSTCFLAGS="-Wall -Wstrict-prototypes -Os -fomit-frame-pointer -I${S}/include" #Eclass functions only from here onwards ... #============================================================== handle_genpatches() { local tarball [[ -z ${K_WANT_GENPATCHES} || -z ${K_GENPATCHES_VER} ]] && return -1 for i in ${K_WANT_GENPATCHES} ; do tarball="genpatches-${OKV}-${K_GENPATCHES_VER}.${i}.tar.bz2" GENPATCHES_URI="${GENPATCHES_URI} mirror://gentoo/${tarball}" UNIPATCH_LIST_GENPATCHES="${UNIPATCH_LIST_GENPATCHES} ${DISTDIR}/${tarball}" done } detect_version() { # this function will detect and set # - OKV: Original Kernel Version (2.6.0/2.6.0-test11) # - KV: Kernel Version (2.6.0-gentoo/2.6.0-test11-gentoo-r1) # - EXTRAVERSION: The additional version appended to OKV (-gentoo/-gentoo-r1) if [[ -n ${KV_FULL} ]]; then # we will set this for backwards compatibility. KV=${KV_FULL} # we know KV_FULL so lets stop here. but not without resetting S S=${WORKDIR}/linux-${KV_FULL} return fi # CKV is used as a comparison kernel version, which is used when # PV doesnt reflect the genuine kernel version. # this gets set to the portage style versioning. ie: # CKV=2.6.11_rc4 CKV=${CKV:-${PV}} OKV=${OKV:-${CKV}} OKV=${OKV/_beta/-test} OKV=${OKV/_rc/-rc} OKV=${OKV/-r*} OKV=${OKV/_p*} KV_MAJOR=$(get_version_component_range 1 ${OKV}) KV_MINOR=$(get_version_component_range 2 ${OKV}) KV_PATCH=$(get_version_component_range 3 ${OKV}) if [[ ${KV_MAJOR}${KV_MINOR}${KV_PATCH} -ge 269 ]]; then KV_EXTRA=$(get_version_component_range 4- ${OKV}) KV_EXTRA=${KV_EXTRA/[-_]*} else KV_PATCH=$(get_version_component_range 3- ${OKV}) fi KV_PATCH=${KV_PATCH/[-_]*} KERNEL_URI="mirror://kernel/linux/kernel/v${KV_MAJOR}.${KV_MINOR}/linux-${OKV}.tar.bz2" RELEASE=${CKV/${OKV}} RELEASE=${RELEASE/_beta} RELEASE=${RELEASE/_rc/-rc} RELEASE=${RELEASE/_pre/-pre} kernel_is ge 2 6 && RELEASE=${RELEASE/-pre/-bk} RELEASETYPE=${RELEASE//[0-9]} # Now we know that RELEASE is the -rc/-bk # and RELEASETYPE is the same but with its numerics stripped # we can work on better sorting EXTRAVERSION. # first of all, we add the release EXTRAVERSION="${RELEASE}" [[ -n ${KV_EXTRA} ]] && EXTRAVERSION=".${KV_EXTRA}${EXTRAVERSION}" if [[ -n ${K_PREPATCHED} ]]; then EXTRAVERSION="${EXTRAVERSION}-${PN/-*}${PR/r}" elif [[ "${ETYPE}" = "sources" ]]; then # For some sources we want to use the PV in the extra version # This is because upstream releases with a completely different # versioning scheme. case ${PN/-*} in wolk) K_USEPV=1;; vserver) K_USEPV=1;; esac [[ -z ${K_NOUSENAME} ]] && EXTRAVERSION="${EXTRAVERSION}-${PN/-*}" [[ -n ${K_USEPV} ]] && EXTRAVERSION="${EXTRAVERSION}-${PV//_/-}" [[ -n ${PR//r0} ]] && EXTRAVERSION="${EXTRAVERSION}-${PR}" fi # The only messing around which should actually effect this is for KV_EXTRA # since this has to limit OKV to MAJ.MIN.PAT and strip EXTRA off else # KV_FULL evaluates to MAJ.MIN.PAT.EXT.EXT after EXTRAVERSION if [[ -n ${KV_EXTRA} ]]; then OKV="${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}" KERNEL_URI="mirror://kernel/linux/kernel/v${KV_MAJOR}.${KV_MINOR}/patch-${CKV}.bz2 mirror://kernel/linux/kernel/v${KV_MAJOR}.${KV_MINOR}/linux-${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}.tar.bz2" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${CKV}.bz2" fi # We need to set this using OKV, but we need to set it before we do any # messing around with OKV based on RELEASETYPE KV_FULL=${OKV}${EXTRAVERSION} # we will set this for backwards compatibility. S=${WORKDIR}/linux-${KV_FULL} KV=${KV_FULL} # -rc-bk pulls can be achieved by specifying CKV # for example: # CKV="2.6.11_rc3_pre2" # will pull: # linux-2.6.10.tar.bz2 & patch-2.6.11-rc3.bz2 & patch-2.6.11-rc3-bk2.bz2 if [[ ${RELEASETYPE} == -rc ]] || [[ ${RELEASETYPE} == -pre ]]; then OKV="${KV_MAJOR}.${KV_MINOR}.$((${KV_PATCH} - 1))" KERNEL_URI="mirror://kernel/linux/kernel/v${KV_MAJOR}.${KV_MINOR}/testing/patch-${CKV//_/-}.bz2 mirror://kernel/linux/kernel/v${KV_MAJOR}.${KV_MINOR}/linux-${OKV}.tar.bz2" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${CKV//_/-}.bz2" fi if [[ ${RELEASETYPE} == -bk ]]; then KERNEL_URI="mirror://kernel/linux/kernel/v${KV_MAJOR}.${KV_MINOR}/snapshots/patch-${OKV}${RELEASE}.bz2 mirror://kernel/linux/kernel/v${KV_MAJOR}.${KV_MINOR}/linux-${OKV}.tar.bz2" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${OKV}${RELEASE}.bz2" fi if [[ ${RELEASETYPE} == -rc-bk ]]; then OKV="${KV_MAJOR}.${KV_MINOR}.$((${KV_PATCH} - 1))" KERNEL_URI="mirror://kernel/linux/kernel/v${KV_MAJOR}.${KV_MINOR}/snapshots/patch-${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}${RELEASE}.bz2 mirror://kernel/linux/kernel/v${KV_MAJOR}.${KV_MINOR}/testing/patch-${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}${RELEASE/-bk*}.bz2 mirror://kernel/linux/kernel/v${KV_MAJOR}.${KV_MINOR}/linux-${OKV}.tar.bz2" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}${RELEASE/-bk*}.bz2 ${DISTDIR}/patch-${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}${RELEASE}.bz2" fi handle_genpatches } kernel_is() { [[ -z ${OKV} ]] && detect_version local operator test value x=0 y=0 z=0 case ${1} in lt) operator="-lt"; shift;; gt) operator="-gt"; shift;; le) operator="-le"; shift;; ge) operator="-ge"; shift;; eq) operator="-eq"; shift;; *) operator="-eq";; esac for x in ${@}; do for((y=0; y<$((3 - ${#x})); y++)); do value="${value}0"; done value="${value}${x}" z=$((${z} + 1)) case ${z} in 1) for((y=0; y<$((3 - ${#KV_MAJOR})); y++)); do test="${test}0"; done; test="${test}${KV_MAJOR}";; 2) for((y=0; y<$((3 - ${#KV_MINOR})); y++)); do test="${test}0"; done; test="${test}${KV_MINOR}";; 3) for((y=0; y<$((3 - ${#KV_PATCH})); y++)); do test="${test}0"; done; test="${test}${KV_PATCH}";; *) die "Error in kernel-2_kernel_is(): Too many parameters.";; esac done [ ${test} ${operator} ${value} ] && return 0 || return 1 } kernel_is_2_4() { kernel_is 2 4 } kernel_is_2_6() { kernel_is 2 6 || kernel_is 2 5 } kernel_header_destdir() { [[ ${CTARGET} == ${CHOST} ]] \ && echo /usr/include \ || echo /usr/${CTARGET}/include } # Capture the sources type and set DEPENDs if [[ ${ETYPE} == sources ]]; then DEPEND="!build? ( sys-apps/sed >=sys-devel/binutils-2.11.90.0.31 ) doc? ( app-text/docbook-sgml-utils app-text/xmlto )" kernel_is ge 2 6 13 && \ DEPEND="${DEPEND} sys-fs/udev" RDEPEND="${DEPEND} !build? ( >=sys-libs/ncurses-5.2 sys-devel/make )" PROVIDE="virtual/linux-sources" kernel_is gt 2 4 && PROVIDE="${PROVIDE} virtual/alsa" SLOT="${PVR}" DESCRIPTION="Sources for the Linux kernel" IUSE="symlink build doc" elif [[ ${ETYPE} == headers ]]; then DESCRIPTION="Linux system headers" IUSE="" if [[ ${CTARGET} = ${CHOST} ]]; then DEPEND="!virtual/os-headers" PROVIDE="virtual/os-headers" SLOT="0" else SLOT="${CTARGET}" fi else eerror "Unknown ETYPE=\"${ETYPE}\", must be \"sources\" or \"headers\"" die "Unknown ETYPE=\"${ETYPE}\", must be \"sources\" or \"headers\"" fi # Unpack functions #============================================================== unpack_2_4() { # Kernel ARCH != portage ARCH local KARCH=$(tc-arch-kernel) # When cross-compiling, we need to set the ARCH/CROSS_COMPILE # variables properly or bad things happen ! local xmakeopts="ARCH=${KARCH}" if [[ ${CTARGET} != ${CHOST} ]]; then xmakeopts="${xmakeopts} CROSS_COMPILE=${CTARGET}-" elif type -p ${CHOST}-ar; then xmakeopts="${xmakeopts} CROSS_COMPILE=${CHOST}-" fi cd "${S}" # this file is required for other things to build properly, # so we autogenerate it make mrproper ${xmakeopts} || die "make mrproper failed" make symlinks ${xmakeopts} || die "make symlinks failed" make include/linux/version.h ${xmakeopts} || die "make include/linux/version.h failed" echo ">>> version.h compiled successfully." } universal_unpack() { cd ${WORKDIR} unpack linux-${OKV}.tar.bz2 if [[ "${OKV}" != "${KV_FULL}" ]]; then mv linux-${OKV} linux-${KV_FULL} \ || die "Unable to move source tree to ${KV_FULL}." fi cd "${S}" # remove all backup files find . -iname "*~" -exec rm {} \; 2> /dev/null # fix a problem on ppc where TOUT writes to /usr/src/linux breaking sandbox use ppc && \ sed -ie 's|TOUT := .tmp_gas_check|TOUT := $(T).tmp_gas_check|' \ "${S}"/arch/ppc/Makefile } unpack_set_extraversion() { cd "${S}" sed -i -e "s:^\(EXTRAVERSION =\).*:\1 ${EXTRAVERSION}:" Makefile cd ${OLDPWD} } # Should be done after patches have been applied # Otherwise patches that modify the same area of Makefile will fail unpack_fix_install_path() { cd "${S}" sed -i -e 's:#export\tINSTALL_PATH:export\tINSTALL_PATH:' Makefile } unpack_fix_docbook() { if [[ -d ${S}/Documentation/DocBook ]]; then cd "${S}"/Documentation/DocBook sed -ie "s:db2:docbook2:g" Makefile cd ${OLDPWD} fi } # Compile Functions #============================================================== compile_headers() { # Since KBUILD_OUTPUT shouldnt be used when compiling headers, lets unset it # if it exists. [[ -n ${KBUILD_OUTPUT} ]] && unset KBUILD_OUTPUT # if we couldnt obtain HOSTCFLAGS from the Makefile, # then set it to something sane local HOSTCFLAGS=$(getfilevar HOSTCFLAGS "${S}"/Makefile) HOSTCFLAGS=${HOSTCFLAGS:--Wall -Wstrict-prototypes -O2 -fomit-frame-pointer} # Kernel ARCH != portage ARCH local KARCH=$(tc-arch-kernel) # When cross-compiling, we need to set the ARCH/CROSS_COMPILE # variables properly or bad things happen ! local xmakeopts="ARCH=${KARCH}" if [[ ${CTARGET} != ${CHOST} ]]; then xmakeopts="${xmakeopts} CROSS_COMPILE=${CTARGET}-" elif type -p ${CHOST}-ar; then xmakeopts="${xmakeopts} CROSS_COMPILE=${CHOST}-" fi if kernel_is 2 4; then yes "" | make oldconfig ${xmakeopts} echo ">>> make oldconfig complete" use sparc && make dep ${xmakeopts} elif kernel_is 2 6; then # autoconf.h isnt generated unless it already exists. plus, we have # no guarantee that any headers are installed on the system... [[ -f ${ROOT}/usr/include/linux/autoconf.h ]] \ || touch include/linux/autoconf.h # if K_DEFCONFIG isn't set, force to "defconfig" # needed by mips if [[ -z ${K_DEFCONFIG} ]]; then K_DEFCONFIG="defconfig" fi # if there arent any installed headers, then there also isnt an asm # symlink in /usr/include/, and make defconfig will fail, so we have # to force an include path with $S. HOSTCFLAGS="${HOSTCFLAGS} -I${S}/include/" ln -sf asm-${KARCH} "${S}"/include/asm make ${K_DEFCONFIG} HOSTCFLAGS="${HOSTCFLAGS}" ${xmakeopts} || die "defconfig failed" make prepare HOSTCFLAGS="${HOSTCFLAGS}" ${xmakeopts} || die "prepare failed" make prepare-all HOSTCFLAGS="${HOSTCFLAGS}" ${xmakeopts} || die "prepare failed" fi } compile_manpages() { einfo "Making manpages ..." env -u ARCH make mandocs } # install functions #============================================================== install_universal() { #fix silly permissions in tarball cd ${WORKDIR} chown -R root:root * chmod -R a+r-w+X,u+w * cd ${OLDPWD} } install_headers() { local ddir=$(kernel_header_destdir) cd "${S}" dodir ${ddir}/linux cp -ax "${S}"/include/linux/* ${D}/${ddir}/linux rm -rf ${D}/${ddir}/linux/modules # Handle multilib headers and crap local multi_dirs="" multi_defs="" case $(tc-arch-kernel) in sparc64) multi_dirs="sparc sparc64" multi_defs="!__arch64__ __arch64__" ;; x86_64) multi_dirs="i386 x86_64" multi_defs="__i386__ __x86_64__" ;; ppc64) multi_dirs="ppc ppc64" multi_defs="!__powerpc64__ __powerpc64__" ;; s390x) multi_dirs="s390 s390x" multi_defs="!__s390x__ __s390x__" ;; arm) dodir ${ddir}/asm cp -ax "${S}"/include/asm/* "${D}"/${ddir}/asm [[ ! -e ${D}/${ddir}/asm/arch ]] && ln -sf arch-ebsa285 "${D}"/${ddir}/asm/arch [[ ! -e ${D}/${ddir}/asm/proc ]] && ln -sf proc-armv "${D}"/${ddir}/asm/proc ;; *) dodir ${ddir}/asm cp -ax "${S}"/include/asm/* ${D}/${ddir}/asm ;; esac if [[ -n ${multi_dirs} ]] ; then local d ml_inc="" for d in ${multi_dirs} ; do dodir ${ddir}/asm-${d} cp -ax "${S}"/include/asm-${d}/* ${D}/${ddir}/asm-${d}/ || die "cp asm-${d} failed" ml_inc="${ml_inc} ${multi_defs%% *}:${ddir}/asm-${d}" multi_defs=${multi_defs#* } done create_ml_includes ${ddir}/asm ${ml_inc} fi if kernel_is 2 6; then dodir ${ddir}/asm-generic cp -ax "${S}"/include/asm-generic/* ${D}/${ddir}/asm-generic fi # clean up find "${D}" -name '*.orig' -exec rm -f {} \; cd ${OLDPWD} } install_sources() { local doc docs file cd "${S}" dodir /usr/src echo ">>> Copying sources ..." file="$(find ${WORKDIR} -iname "docs" -type d)" if [[ -n ${file} ]]; then for file in $(find ${file} -type f); do echo "${file//*docs\/}" >> "${S}"/patches.txt echo "===================================================" >> "${S}"/patches.txt cat ${file} >> "${S}"/patches.txt echo "===================================================" >> "${S}"/patches.txt echo "" >> "${S}"/patches.txt done fi if [[ ! -f ${S}/patches.txt ]]; then # patches.txt is empty so lets use our ChangeLog [[ -f ${FILESDIR}/../ChangeLog ]] && \ echo "Please check the ebuild ChangeLog for more details." \ > "${S}"/patches.txt fi for doc in ${UNIPATCH_DOCS}; do [[ -f ${doc} ]] && docs="${docs} ${doc}"; done if [[ -f ${S}/patches.txt ]]; then docs="${docs} ${S}/patches.txt"; fi use doc && ! use arm && ! use s390 && install_manpages dodoc ${docs} mv ${WORKDIR}/linux* ${D}/usr/src } install_manpages() { kernel_is lt 2 5 && return sed -ie "s#/usr/local/man#${D}/usr/share/man#g" \ scripts/makeman Documentation/DocBook/Makefile ebegin "Installing manpages" env -u ARCH make installmandocs eend $? sed -ie "s#${D}/usr/share/man#/usr/local/man#g" \ scripts/makeman Documentation/DocBook/Makefile } # pkg_preinst functions #============================================================== preinst_headers() { local ddir=$(kernel_header_destdir) [[ -L ${ddir}/linux ]] && rm ${ddir}/linux [[ -L ${ddir}/asm ]] && rm ${ddir}/asm } # pkg_postinst functions #============================================================== postinst_sources() { local MAKELINK=0 # if we have USE=symlink, then force K_SYMLINK=1 use symlink && K_SYMLINK=1 # if we are to forcably symlink, delete it if it already exists first. if [[ -n ${K_SYMLINK} ]]; then [[ -h ${ROOT}usr/src/linux ]] && rm ${ROOT}usr/src/linux MAKELINK=1 fi # if the link doesnt exist, lets create it [[ ! -h ${ROOT}usr/src/linux ]] && MAKELINK=1 if [[ ${MAKELINK} == 1 ]]; then cd ${ROOT}usr/src ln -sf linux-${KV_FULL} linux cd ${OLDPWD} fi # Don't forget to make directory for sysfs [[ ! -d ${ROOT}sys ]] && kernel_is 2 6 && mkdir ${ROOT}sys echo einfo "After installing a new kernel of any version, it is important" einfo "that you have the appropriate /etc/modules.autoload.d/kernel-X.Y" einfo "created (X.Y is the first 2 parts of your new kernel version)" echo einfo "For example, this kernel will require:" einfo "/etc/modules.autoload.d/kernel-${KV_MAJOR}.${KV_MINOR}" echo einfo "If you are upgrading from a previous kernel, you may be interested" einfo "in the following documents:" einfo " - General upgrade guide: http://www.gentoo.org/doc/en/kernel-upgrade.xml" kernel_is_2_6 && einfo " - 2.4 to 2.6 migration guide: http://www.gentoo.org/doc/en/migration-to-2.6.xml" if kernel_is ge 2 6 13; then ewarn "As of 2.6.13 the support for devfs has been removed." ewarn "You will be required to either manage a static /dev" ewarn "or to ensure that udev is starting on boot." fi echo # if K_EXTRAEINFO is set then lets display it now if [[ -n ${K_EXTRAEINFO} ]]; then echo ${K_EXTRAEINFO} | fmt | while read -s ELINE; do einfo "${ELINE}"; done fi # if K_EXTRAEWARN is set then lets display it now if [[ -n ${K_EXTRAEWARN} ]]; then echo ${K_EXTRAEWARN} | fmt | while read -s ELINE; do ewarn "${ELINE}"; done fi } postinst_headers() { einfo "Kernel headers are usually only used when recompiling glibc, as such, following the installation" einfo "of newer headers, it is advised that you re-merge glibc as follows:" einfo "emerge glibc" einfo "Failure to do so will cause glibc to not make use of newer features present in the updated kernel" einfo "headers." } # pkg_setup functions #============================================================== setup_headers() { [[ -z ${H_SUPPORTEDARCH} ]] && H_SUPPORTEDARCH=${PN/-*/} for i in ${H_SUPPORTEDARCH}; do [[ $(tc-arch) == "${i}" ]] && H_ACCEPT_ARCH="yes" done if [[ ${H_ACCEPT_ARCH} != "yes" ]]; then echo eerror "This version of ${PN} does not support $(tc-arch)." eerror "Please merge the appropriate sources, in most cases" eerror "(but not all) this will be called $(tc-arch)-headers." die "Package unsupported for $(tc-arch)" fi } # unipatch #============================================================== unipatch() { local i x y z extention PIPE_CMD UNIPATCH_DROP KPATCH_DIR PATCH_DEPTH ELINE local STRICT_COUNT PATCH_LEVEL myLC_ALL myLANG # set to a standard locale to ensure sorts are ordered properly. myLC_ALL="${LC_ALL}" myLANG="${LANG}" LC_ALL="C" LANG="" [ -z "${KPATCH_DIR}" ] && KPATCH_DIR="${WORKDIR}/patches/" [ ! -d ${KPATCH_DIR} ] && mkdir -p ${KPATCH_DIR} # We're gonna need it when doing patches with a predefined patchlevel shopt -s extglob # This function will unpack all passed tarballs, add any passed patches, and remove any passed patchnumbers # usage can be either via an env var or by params # although due to the nature we pass this within this eclass # it shall be by param only. # -z "${UNIPATCH_LIST}" ] && UNIPATCH_LIST="${@}" UNIPATCH_LIST="${@}" #unpack any passed tarballs for i in ${UNIPATCH_LIST}; do if [ -n "$(echo ${i} | grep -e "\.tar" -e "\.tbz" -e "\.tgz")" ]; then extention=${i/*./} extention=${extention/:*/} case ${extention} in tbz2) PIPE_CMD="tar -xvjf";; bz2) PIPE_CMD="tar -xvjf";; tgz) PIPE_CMD="tar -xvzf";; gz) PIPE_CMD="tar -xvzf";; *) eerror "Unrecognized tarball compression" die "Unrecognized tarball compression";; esac if [ -n "${UNIPATCH_STRICTORDER}" ]; then unset z STRICT_COUNT=$((10#${STRICT_COUNT} + 1)) for((y=0; y<$((6 - ${#STRICT_COUNT})); y++)); do z="${z}0"; done PATCH_ORDER="${z}${STRICT_COUNT}" mkdir -p ${KPATCH_DIR}/${PATCH_ORDER}/ ${PIPE_CMD} ${i/:*/} -C ${KPATCH_DIR}/${PATCH_ORDER}/ 1>/dev/null else ${PIPE_CMD} ${i/:*/} -C ${KPATCH_DIR} 1>/dev/null fi if [ $? == 0 ]; then einfo "${i/*\//} unpacked" [ -n "$(echo ${i} | grep ':')" ] && echo ">>> Strict patch levels not currently supported for tarballed patchsets" else eerror "Failed to unpack ${i/:*/}" die "unable to unpack patch tarball" fi else extention=${i/*./} extention=${extention/:*/} PIPE_CMD="" case ${extention} in bz2) PIPE_CMD="bzip2 -dc";; patch) PIPE_CMD="cat";; diff) PIPE_CMD="cat";; gz|Z|z) PIPE_CMD="gzip -dc";; ZIP|zip) PIPE_CMD="unzip -p";; *) UNIPATCH_DROP="${UNIPATCH_DROP} ${i/:*/}";; esac PATCH_LEVEL=${i/*([^:])?(:)} i=${i/:*/} x=${i/*\//} x=${x/\.${extention}/} if [ -n "${PIPE_CMD}" ]; then if [ ! -r "${i}" ]; then echo eerror "FATAL: unable to locate:" eerror "${i}" eerror "for read-only. The file either has incorrect permissions" eerror "or does not exist." die Unable to locate ${i} fi if [ -n "${UNIPATCH_STRICTORDER}" ]; then unset z STRICT_COUNT=$((10#${STRICT_COUNT} + 1)) for((y=0; y<$((6 - ${#STRICT_COUNT})); y++)); do z="${z}0"; done PATCH_ORDER="${z}${STRICT_COUNT}" mkdir -p ${KPATCH_DIR}/${PATCH_ORDER}/ $(${PIPE_CMD} ${i} > ${KPATCH_DIR}/${PATCH_ORDER}/${x}.patch${PATCH_LEVEL}) else $(${PIPE_CMD} ${i} > ${KPATCH_DIR}/${x}.patch${PATCH_LEVEL}) fi fi fi done #populate KPATCH_DIRS so we know where to look to remove the excludes x=${KPATCH_DIR} KPATCH_DIR="" for i in $(find ${x} -type d | sort -n); do KPATCH_DIR="${KPATCH_DIR} ${i}" done #so now lets get rid of the patchno's we want to exclude UNIPATCH_DROP="${UNIPATCH_EXCLUDE} ${UNIPATCH_DROP}" for i in ${UNIPATCH_DROP}; do ebegin "Excluding Patch #${i}" for x in ${KPATCH_DIR}; do rm -f ${x}/${i}* 2>/dev/null; done eend $? done # and now, finally, we patch it :) for x in ${KPATCH_DIR}; do for i in $(find ${x} -maxdepth 1 -iname "*.patch*" -or -iname "*.diff*" | sort -n); do STDERR_T="${T}/${i/*\//}" STDERR_T="${STDERR_T/.patch*/.err}" [ -z ${i/*.patch*/} ] && PATCH_DEPTH=${i/*.patch/} #[ -z ${i/*.diff*/} ] && PATCH_DEPTH=${i/*.diff/} if [ -z "${PATCH_DEPTH}" ]; then PATCH_DEPTH=0; fi ebegin "Applying ${i/*\//} (-p${PATCH_DEPTH}+)" while [ ${PATCH_DEPTH} -lt 5 ]; do echo "Attempting Dry-run:" >> ${STDERR_T} echo "cmd: patch -p${PATCH_DEPTH} --dry-run -f < ${i}" >> ${STDERR_T} echo "=======================================================" >> ${STDERR_T} if [ $(patch -p${PATCH_DEPTH} --dry-run -f < ${i} >> ${STDERR_T}) $? -eq 0 ]; then echo "Attempting patch:" > ${STDERR_T} echo "cmd: patch -p${PATCH_DEPTH} -f < ${i}" >> ${STDERR_T} echo "=======================================================" >> ${STDERR_T} if [ $(patch -p${PATCH_DEPTH} -f < ${i} >> ${STDERR_T}) "$?" -eq 0 ]; then eend 0 rm ${STDERR_T} break else eend 1 eerror "Failed to apply patch ${i/*\//}" eerror "Please attach ${STDERR_T} to any bug you may post." die "Failed to apply ${i/*\//}" fi else PATCH_DEPTH=$((${PATCH_DEPTH} + 1)) fi done if [ ${PATCH_DEPTH} -eq 5 ]; then eend 1 eerror "Please attach ${STDERR_T} to any bug you may post." die "Unable to dry-run patch." fi done done # clean up KPATCH_DIR's - fixes bug #53610 for x in ${KPATCH_DIR}; do rm -Rf ${x}; done LC_ALL="${myLC_ALL}" LANG="${myLANG}" } # getfilevar accepts 2 vars as follows: # getfilevar # pulled from linux-info getfilevar() { local workingdir basefname basedname xarch=$(tc-arch-kernel) if [[ -z ${1} ]] && [[ ! -f ${2} ]]; then echo -e "\n" eerror "getfilevar requires 2 variables, with the second a valid file." eerror " getfilevar " else workingdir=${PWD} basefname=$(basename ${2}) basedname=$(dirname ${2}) unset ARCH cd ${basedname} echo -e "include ${basefname}\ne:\n\t@echo \$(${1})" | \ make ${BUILD_FIXES} -s -f - e 2>/dev/null cd ${workingdir} ARCH=${xarch} fi } detect_arch() { # This function sets ARCH_URI and ARCH_PATCH # with the neccessary info for the arch sepecific compatibility # patchsets. local ALL_ARCH LOOP_ARCH COMPAT_URI i # COMPAT_URI is the contents of ${ARCH}_URI # ARCH_URI is the URI for all the ${ARCH}_URI patches # ARCH_PATCH is ARCH_URI broken into files for UNIPATCH ARCH_URI="" ARCH_PATCH="" ALL_ARCH="X86 PPC PPC64 SPARC MIPS ALPHA ARM HPPA AMD64 IA64 X86OBSD S390 SH" for LOOP_ARCH in ${ALL_ARCH}; do COMPAT_URI="${LOOP_ARCH}_URI" COMPAT_URI="${!COMPAT_URI}" [[ -n ${COMPAT_URI} ]] && \ ARCH_URI="${ARCH_URI} $(echo ${LOOP_ARCH} | tr '[:upper:]' '[:lower:]')? ( ${COMPAT_URI} )" if [[ ${LOOP_ARCH} == "$(echo $(tc-arch-kernel) | tr '[:lower:]' '[:upper:]')" ]]; then for i in ${COMPAT_URI}; do ARCH_PATCH="${ARCH_PATCH} ${DISTDIR}/${i/*\//}" done fi done } # sparc nastiness #============================================================== # This script generates the files in /usr/include/asm for sparc systems # during installation of sys-kernel/linux-headers. # Will no longer be needed when full 64 bit support is used on sparc64 # systems. # # Shamefully ripped from Debian # ---------------------------------------------------------------------- # Idea borrowed from RedHat's kernel package # This is gonna get replaced by something in multilib.eclass soon... # --eradicator generate_sparc_asm() { local name cd $1 || die mkdir asm for h in `( ls asm-sparc; ls asm-sparc64 ) | grep '\.h$' | sort -u`; do name="$(echo $h | tr a-z. A-Z_)" # common header echo "/* All asm/ files are generated and point to the corresponding * file in asm-sparc or asm-sparc64. */ #ifndef __SPARCSTUB__${name}__ #define __SPARCSTUB__${name}__ " > asm/${h} # common for sparc and sparc64 if [ -f asm-sparc/$h -a -f asm-sparc64/$h ]; then echo "#ifdef __arch64__ #include #else #include #endif " >> asm/${h} # sparc only elif [ -f asm-sparc/$h ]; then echo "#ifndef __arch64__ #include #endif " >> asm/${h} # sparc64 only else echo "#ifdef __arch64__ #include #endif " >> asm/${h} fi # common footer echo "#endif /* !__SPARCSTUB__${name}__ */" >> asm/${h} done return 0 } headers___fix() { # Voodoo to partially fix broken upstream headers. # Issues with this function should go to plasmaroo. sed -i \ -e "s/\([ "$'\t'"]\)\(u\|s\)\(8\|16\|32\|64\)\([ "$'\t'"]\)/\1__\2\3\4/g;" \ -e 's/ \(u\|s\)\(8\|16\|32\|64\)$/ __\1\2/g' \ -e 's/\([(, ]\)\(u\|s\)64\([, )]\)/\1__\264\3/g' \ -e "s/^\(u\|s\)\(8\|16\|32\|64\)\([ "$'\t'"]\)/__\1\2\3/g;" \ "$@" } # common functions #============================================================== kernel-2_src_unpack() { universal_unpack [[ -n ${UNIPATCH_LIST} || -n ${UNIPATCH_LIST_DEFAULT} || -n ${UNIPATCH_LIST_GENPATCHES} ]] && \ unipatch "${UNIPATCH_LIST_DEFAULT} ${UNIPATCH_LIST_GENPATCHES} ${UNIPATCH_LIST}" [[ -z ${K_NOSETEXTRAVERSION} ]] && unpack_set_extraversion unpack_fix_docbook unpack_fix_install_path kernel_is 2 4 && unpack_2_4 } kernel-2_src_compile() { cd "${S}" [[ ${ETYPE} == headers ]] && compile_headers [[ ${ETYPE} == sources ]] && \ use doc && ! use arm && ! use s390 && compile_manpages } kernel-2_pkg_preinst() { [[ ${ETYPE} == headers ]] && preinst_headers } kernel-2_src_install() { install_universal [[ ${ETYPE} == headers ]] && install_headers [[ ${ETYPE} == sources ]] && install_sources } kernel-2_pkg_postinst() { [[ ${ETYPE} == headers ]] && postinst_headers [[ ${ETYPE} == sources ]] && postinst_sources } kernel-2_pkg_setup() { [[ ${ETYPE} == headers ]] && setup_headers [[ ${ETYPE} == sources ]] && echo ">>> Preparing to unpack ..." } kernel-2_pkg_prerm() { local KV_DIR=${ROOT}/usr/src/linux-${KV_FULL} if [[ ${ETYPE} == sources ]]; then # if we have a config for it then we should act on it. if [[ -f ${KV_DIR}/.config ]]; then gzip -c ${KV_DIR}/.config > ${KV_DIR}.config.gz fi # have kbuild clean up for us. if [[ -f ${KV_DIR}/include/linux/version.h ]]; then ARCH=$(tc-arch-kernel) make -C ${KV_DIR} mrproper fi fi }