# Copyright 2004-2010 Sabayon Project # Copyright 2013 Sablink Project # Distributed under the terms of the GNU General Public License v2 # $ # @ECLASS-VARIABLE: K_SABPATCHES_VER # @DESCRIPTION: # The version of the sablink patches tarball(s) to apply. # A value of "5" would apply 2.6.12-5 to my-sources-2.6.12.ebuild # @ECLASS-VARIABLE: K_SABKERNEL_NAME # @DESCRIPTION: # The kernel name used by the ebuild, it should be the ending ${PN} part # for example, of linux-sablink it is "${PN/${PN/-*}-}" (sablink) K_SABKERNEL_NAME="${K_SABKERNEL_NAME:-${PN/${PN/-*}-}}" # @ECLASS-VARIABLE: K_SABKERNEL_URI_CONFIG # @DESCRIPTION: # Set this either to "no" or "yes" depending on the location of the # kernel config files. If they are inside FILESDIR (old location) # leave this option set to "no", otherwise set this to "yes" K_SABKERNEL_URI_CONFIG="${K_SABKERNEL_URI_CONFIG:-no}" # @ECLASS-VARIABLE: K_SABKERNEL_SELF_TARBALL_NAME # @DESCRIPTION: # If the main kernel sources tarball is generated in-house and available # on the "sablink" mirror, set this variable to the extension name (see example # below). This will disable ALL the extra/local patches (since they have to # be applied inside the tarball). Moreover, K_SABKERNEL_URI_CONFIG, # K_SABPATCHES_VER, K_SABKERNEL_NAME, K_KERNEL_PATCH_VER will be ignored. # Example: # K_SABKERNEL_SELF_TARBALL_NAME="sablink" # This would generate: # SRC_URI="mirror://sablink/sys-kernel/linux-${PV}+sablink.tar.${K_TARBALL_EXT}" K_SABKERNEL_SELF_TARBALL_NAME="${K_SABKERNEL_SELF_TARBALL_NAME:-}" # @ECLASS-VARIABLE: K_SABKERNEL_FORCE_SUBLEVEL # @DESCRIPTION: # Force the rewrite of SUBLEVEL in kernel sources Makefile K_SABKERNEL_FORCE_SUBLEVEL="${K_SABKERNEL_FORCE_SUBLEVEL:-}" # @ECLASS-VARIABLE: K_SABKERNEL_RESET_EXTRAVERSION # @DESCRIPTION: # Force the rewrite of EXTRAVERSION in kernel sources Makefile (setting it to "") K_SABKERNEL_RESET_EXTRAVERSION="${K_SABKERNEL_RESET_EXTRAVERSION:-}" # @ECLASS-VARIABLE: K_SABKERNEL_LONGTERM # @DESCRIPTION: # Consider Kernel stable patchset as longterm (changing URL) K_SABKERNEL_LONGTERM="${K_SABKERNEL_LONGTERM:-}" # @ECLASS-VARIABLE: K_KERNEL_SOURCES_PKG # @DESCRIPTION: # The kernel sources package used to build this kernel binary K_KERNEL_SOURCES_PKG="${K_KERNEL_SOURCES_PKG:-${CATEGORY}/${PN/*-}-sources-${PVR}}" # @ECLASS-VARIABLE: K_KERNEL_PATCH_VER # @DESCRIPTION: # If set to "3" for example, it applies the upstream kernel # patch corresponding to patch-${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}.3.${K_TARBALL_EXT} # @TODO: deprecate and remove once 2.6.x kernels are retired K_KERNEL_PATCH_VER="${K_KERNEL_PATCH_VER:-}" # @ECLASS-VARIABLE: K_KERNEL_PATCH_HOTFIXES # @DESCRIPTION: # If there is the need to quickly apply patches to the kernel # without bumping the kernel patch tarball (for eg. in case # of just released security fixes), set this variable in your ebuild # pointing to space separated list of patch paths. K_KERNEL_PATCH_HOTFIXES="${K_KERNEL_PATCH_HOTFIXES:-}" # @ECLASS-VARIABLE: K_KERNEL_DISABLE_PR_EXTRAVERSION # @DESCRIPTION: # Set this to "1" if you want to tell kernel-2 eclass to # not use ${PR} in kernel EXTRAVERSION (K_NOUSEPR). Otherwise, set # this to "0" to not set K_NOUSEPR at all. K_KERNEL_DISABLE_PR_EXTRAVERSION="${K_KERNEL_DISABLE_PR_EXTRAVERSION:-1}" # @ECLASS-VARIABLE: K_KERNEL_SLOT_USEPVR # @DESCRIPTION: # Set this to "1" if you want to use ${PVR} in SLOT variable, instead of ${PV} # sys-kernel/linux-vserver (vserver-sources) require this. This won't work for # firmware pkgs. K_KERNEL_SLOT_USEPVR="${K_KERNEL_SLOT_USEPVR:-0}" # @ECLASS-VARIABLE: K_KERNEL_NEW_VERSIONING # @DESCRIPTION: # Set this to "1" if your kernel ebuild uses the new Linux kernel upstream # versioning and ${PV} contains the stable revision, like 3.7.1. # In the example above, this makes the SLOT variable contain only "3.7". # The sublevel version can be forced using K_SABKERNEL_FORCE_SUBLEVEL K_KERNEL_NEW_VERSIONING="${K_KERNEL_NEW_VERSIONING:-0}" # @ECLASS-VARIABLE: K_KERNEL_IMAGE_NAME # @DESCRIPTION: # Set this to a custom kernel image make target if the default does not # fit your needs. This value if set, is passed to genkernel through the # --kernel-target= flag. K_KERNEL_IMAGE_NAME="${K_KERNEL_IMAGE_NAME:-}" # @ECLASS-VARIABLE: K_KERNEL_LTS # @DESCRIPTION: # Set this to 1 to mark the kernel as Long Term Stable. "virtual/linux-binary-lts" # shall be appended to ${PROVIDE}. K_KERNEL_LTS="${K_KERNEL_LTS:-}" # @ECLASS-VARIABLE: K_KERNEL_IMAGE_PATH # @DESCRIPTION: # Set this to a custom relative kernel image path to override the default # one. This value if set, is passed to genkernel through the # --kernel-binary= flag. K_KERNEL_IMAGE_PATH="${K_KERNEL_IMAGE_PATH:-}" # @ECLASS-VARIABLE: K_SABKERNEL_FIRMWARE # @DESCRIPTION: # Set this to "1" if your ebuild is a kernel firmware package K_FIRMWARE_PACKAGE="${K_FIRMWARE_PACKAGE:-}" # @ECLASS-VARIABLE: K_ONLY_SOURCES # @DESCRIPTION: # For every kernel binary package, there is a kernel source package associated # if your ebuild is one of them, set this to "1" K_ONLY_SOURCES="${K_ONLY_SOURCES:-}" # @ECLASS-VARIABLE: K_REQUIRED_LINUX_FIRMWARE_VER # @DESCRIPTION: # Minimum required version of sys-kernel/linux-formware package, if any K_REQUIRED_LINUX_FIRMWARE_VER="${K_REQUIRED_LINUX_FIRMWARE_VER:-}" # @ECLASS-VARIABLE: K_WORKAROUND_SOURCES_COLLISION # @DESCRIPTION: # For kernel binary packages, Workaround file collisions with kernel # sources already providing certain files (like Makefile). Used # by linux-openvz and linux-vserver K_WORKAROUND_SOURCES_COLLISION="${K_WORKAROUND_SOURCES_COLLISION:-}" # @ECLASS-VARIABLE: K_WORKAROUND_USE_REAL_EXTRAVERSION # @DESCRIPTION: # Some kernel sources are shipped with their own EXTRAVERSION and # we're kindly asked to not touch it, if this is your case, set # this variable and depmod will work correctly. K_WORKAROUND_USE_REAL_EXTRAVERSION="${K_WORKAROUND_USE_REAL_EXTRAVERSION:-}" # @ECLASS-VARIABLE: K_SABKERNEL_ZFS # @DESCRIPTION: # If set, this kernel features ZFS. K_SABKERNEL_ZFS="${K_SABKERNEL_ZFS:-}" # @ECLASS-VARIABLE: K_GENKERNEL_ARGS # @DESCRIPTION: # Provide extra genkernel arguments using K_GENKERNEL_ARGS K_GENKERNEL_ARGS="${K_GENKERNEL_ARGS:-}" # @ECLASS-VARIABLE: K_MKIMAGE_RAMDISK_ADDRESS # @DESCRIPTION: # [ARM ONLY] Provide the ramdisk load address to be used with mkimage K_MKIMAGE_RAMDISK_ADDRESS="${K_MKIMAGE_RAMDISK_ADDRESS:-}" # @ECLASS-VARIABLE: K_MKIMAGE_RAMDISK_ENTRYPOINT # @DESCRIPTION: # [ARM ONLY] Provide the ramdisk entry point address to be used with mkimage K_MKIMAGE_RAMDISK_ENTRYPOINT="${K_MKIMAGE_RAMDISK_ENTRYPOINT:-}" # @ECLASS-VARIABLE: K_MKIMAGE_WRAP_INITRAMFS # @DESCRIPTION: # [ARM ONLY] Execute mkimage against the generated initramfs Default is yes ("1"). K_MKIMAGE_WRAP_INITRAMFS="${K_MKIMAGE_WRAP_INITRAMFS:-1}" # @ECLASS-VARIABLE: K_MKIMAGE_KERNEL_ADDRESS # @DESCRIPTION: # [ARM ONLY] Provide the kernel load address to be used with mkimage K_MKIMAGE_KERNEL_ADDRESS="${K_MKIMAGE_KERNEL_ADDRESS:-}" KERN_INITRAMFS_SEARCH_NAME="${KERN_INITRAMFS_SEARCH_NAME:-initramfs-genkernel*${K_SABKERNEL_NAME}}" # Disable deblobbing feature K_DEBLOB_AVAILABLE=0 ETYPE="sources" K_TARBALL_EXT="${K_TARBALL_EXT:-xz}" inherit versionator if [ "${K_KERNEL_NEW_VERSIONING}" = "1" ]; then CKV="$(get_version_component_range 1-2)" fi inherit eutils multilib kernel-2 mount-boot linux-info # from kernel-2 eclass detect_version detect_arch DESCRIPTION="Sablink Linux kernel functions and phases" K_LONGTERM_URL_STR="" if [ -n "${K_SABKERNEL_LONGTERM}" ]; then K_LONGTERM_URL_STR="/longterm/v${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}" fi ## kernel-2 eclass settings if [ -n "${K_SABKERNEL_SELF_TARBALL_NAME}" ]; then SRC_URI="mirror://sablink/${CATEGORY}/linux-${PVR}+${K_SABKERNEL_SELF_TARBALL_NAME}.tar.${K_TARBALL_EXT}" elif [ -n "${K_SABPATCHES_VER}" ]; then UNIPATCH_STRICTORDER="yes" K_SABPATCHES_PKG="sablink-patches-${PV}-${K_SABPATCHES_VER}.tar.${K_TARBALL_EXT}" UNIPATCH_LIST="${DISTFILES}/${K_SABPATCHES_PKG}" SRC_URI="${KERNEL_URI} mirror://sablink/${CATEGORY}/linux-sablink-patches/${K_SABPATCHES_PKG}" else SRC_URI="${KERNEL_URI}" fi if [ -z "${K_SABKERNEL_SELF_TARBALL_NAME}" ]; then if [ -n "${K_KERNEL_PATCH_VER}" ]; then K_PATCH_NAME="patch-${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}.${K_KERNEL_PATCH_VER}.${K_TARBALL_EXT}" SRC_URI="${SRC_URI} mirror://kernel/linux/kernel/v${KV_MAJOR}.${KV_MINOR}${K_LONGTERM_URL_STR}/${K_PATCH_NAME}" UNIPATCH_LIST="${DISTDIR}/${K_PATCH_NAME} ${UNIPATCH_LIST}" fi fi if [ -n "${K_KERNEL_PATCH_HOTFIXES}" ]; then UNIPATCH_LIST="${K_KERNEL_PATCH_HOTFIXES} ${UNIPATCH_LIST}" fi _get_real_kv_full() { if [[ "${KV_MAJOR}${KV_MINOR}" -eq 26 ]]; then echo "${ORIGINAL_KV_FULL}" elif [[ "${OKV/.*}" = "3" ]]; then # Linux 3.x support, KV_FULL is set to: 3.0-sablink # need to add another final .0 to the version part echo "${ORIGINAL_KV_FULL/-/.0-}" else echo "${ORIGINAL_KV_FULL}" fi } # replace "linux" with K_SABKERNEL_NAME, usually replaces # "linux" with "sablink" or "server" or "openvz" KV_FULL="${KV_FULL/${PN/-*}/${K_SABKERNEL_NAME}}" EXTRAVERSION="${EXTRAVERSION/${PN/-*}/${K_SABKERNEL_NAME}}" # drop -rX if exists if [[ -n "${PR//r0}" ]] && [[ "${K_KERNEL_DISABLE_PR_EXTRAVERSION}" = "1" ]] \ && [[ -z "${K_NOSETEXTRAVERSION}" ]]; then EXTRAVERSION="${EXTRAVERSION%-r*}" KV_FULL="${KV_FULL%-r*}" KV="${KV%-r*}" fi # rewrite it ORIGINAL_KV_FULL="${KV_FULL}" KV_FULL="$(_get_real_kv_full)" # Starting from linux-3.0, we still have to install # sources stuff into /usr/src/linux-3.0.0-sablink (example) # where the last part must always match uname -r # otherwise kernel-switcher (and RELEASE_LEVEL file) # will complain badly KV_OUT_DIR="/usr/src/linux-${KV_FULL}" S="${WORKDIR}/linux-${KV_FULL}" if [ -n "${K_FIRMWARE_PACKAGE}" ]; then SLOT="0" elif [ "${K_KERNEL_SLOT_USEPVR}" = "1" ]; then SLOT="${PVR}" elif [ "${K_KERNEL_NEW_VERSIONING}" = "1" ]; then SLOT="$(get_version_component_range 1-2)" else SLOT="${PV}" fi _is_kernel_binary() { if [ -z "${K_ONLY_SOURCES}" ] && [ -z "${K_FIRMWARE_PACKAGE}" ]; then # yes it is return 0 else # no it isn't return 1 fi } _is_kernel_lts() { local _ver="$(get_version_component_range 1-2)" [ "${_ver}" = "3.0" ] && return 0 [ "${_ver}" = "3.2" ] && return 0 [ "${_ver}" = "3.4" ] && return 0 [ "${_ver}" = "3.10" ] && return 0 return 1 } # Returns the arm kernel config file extension for the current subarch _get_arm_subarch() { local target="${CTARGET:-${CHOST}}" local arm_arch=${target%%-*} if [[ ${arm_arch} == armv7? ]]; then echo "armv7" elif [[ ${arm_arch} == armv6? ]]; then echo "armv6" elif [[ ${arm_arch} == armv5? ]]; then echo "armv5" fi } # provide extra virtual pkg if _is_kernel_binary; then PROVIDE="virtual/linux-binary" # LTS support if [ "${K_KERNEL_LTS}" = "1" ] || _is_kernel_lts; then PROVIDE+=" virtual/linux-binary-lts" fi fi if [ -n "${K_SABKERNEL_SELF_TARBALL_NAME}" ]; then HOMEPAGE="http://git.disconnected-by-peer.at/sablink/kernel/" else HOMEPAGE="http://www.sablink.org" fi # set SRC_URI if [ -z "${K_SABKERNEL_SELF_TARBALL_NAME}" ]; then if [ "${K_SABKERNEL_URI_CONFIG}" = "yes" ]; then tmp_K_SABKERNEL_CONFIG_FILE="${K_SABKERNEL_CONFIG_FILE:-${K_SABKERNEL_NAME}-${PVR}-__ARCH__.config}" # ARM not supported, if put in SRC_URI it tries to fetch it tmp_K_SABKERNEL_FW_CONFIG_FILE="${K_SABKERNEL_FW_CONFIG_FILE:-${K_SABKERNEL_NAME}-fw_env-__ARCH__.config}" if [ -n "${K_SABCONFIGS_VER}" ]; then K_SABCONFIGS_PKG="sablink-configs-${PV}-${K_SABCONFIGS_VER}.tar.${K_TARBALL_EXT}" K_ARM_ARCH=$(_get_arm_subarch) SRC_URI="${SRC_URI} mirror://sablink/${CATEGORY}/linux-sablink-configs/${K_SABCONFIGS_PKG} arm? ( mirror://sablink/${CATEGORY}/linux-sablink-patches/config/${tmp_K_SABKERNEL_FW_CONFIG_FILE/__ARCH__/arm} )" else SRC_URI="${SRC_URI} arm? ( mirror://sablink/${CATEGORY}/linux-sablink-patches/config/${tmp_K_SABKERNEL_FW_CONFIG_FILE/__ARCH__/arm} ) amd64? ( mirror://sablink/${CATEGORY}/linux-sablink-patches/config/${tmp_K_SABKERNEL_CONFIG_FILE/__ARCH__/amd64} ) x86? ( mirror://sablink/${CATEGORY}/linux-sablink-patches/config/${tmp_K_SABKERNEL_CONFIG_FILE/__ARCH__/x86} )" fi # K_SABKERNEL_CONFIG_FILE will be set in _set_config_file_vars unset tmp_K_SABKERNEL_CONFIG_FILE unset tmp_K_SABKERNEL_FW_CONFIG_FILE fi fi # Returns success if _set_config_file_vars was called. _is_config_file_set() { [[ ${_config_file_set} = 1 ]] } _set_config_file_vars() { # Setup kernel configuration file name local pvr="${PVR}" local pv="${PV}" if [ "${K_KERNEL_NEW_VERSIONING}" = "1" ]; then pvr="$(get_version_component_range 1-2)" pv="${pvr}" if [ "${PR}" != "r0" ]; then pvr+="-${PR}" fi fi if [ -z "${K_SABKERNEL_SELF_TARBALL_NAME}" ]; then if [ "${K_SABKERNEL_URI_CONFIG}" = "yes" ]; then K_SABKERNEL_CONFIG_FILE="${K_SABKERNEL_CONFIG_FILE:-${K_SABKERNEL_NAME}-${pvr}-__ARCH__.config}" K_SABKERNEL_FW_CONFIG_FILE="${K_SABKERNEL_FW_CONFIG_FILE:-${K_SABKERNEL_NAME}-fw_env-__ARCH__.config}" use arm && K_SABKERNEL_CONFIG_FILE=${K_SABKERNEL_CONFIG_FILE/__ARCH__/$(_get_arm_subarch)} use arm && K_SABKERNEL_FW_CONFIG_FILE=${K_SABKERNEL_FW_CONFIG_FILE/__ARCH__/arm} use amd64 && K_SABKERNEL_CONFIG_FILE="${K_SABKERNEL_CONFIG_FILE/__ARCH__/amd64}" use x86 && K_SABKERNEL_CONFIG_FILE="${K_SABKERNEL_CONFIG_FILE/__ARCH__/x86}" else use arm && K_SABKERNEL_CONFIG_FILE="${K_SABKERNEL_CONFIG_FILE:-${K_SABKERNEL_NAME}-${pvr}-$(_get_arm_subarch).config}" use amd64 && K_SABKERNEL_CONFIG_FILE="${K_SABKERNEL_CONFIG_FILE:-${K_SABKERNEL_NAME}-${pvr}-amd64.config}" use x86 && K_SABKERNEL_CONFIG_FILE="${K_SABKERNEL_CONFIG_FILE:-${K_SABKERNEL_NAME}-${pvr}-x86.config}" fi else K_SABKERNEL_CONFIG_FILE="${K_SABKERNEL_CONFIG_FILE:-${K_SABKERNEL_NAME}-${pvr}-__ARCH__.config}" K_SABKERNEL_ALT_CONFIG_FILE="${K_SABKERNEL_ALT_CONFIG_FILE:-${K_SABKERNEL_NAME}-${pv}-__ARCH__.config}" K_SABKERNEL_FW_CONFIG_FILE="${K_SABKERNEL_FW_CONFIG_FILE:-${K_SABKERNEL_NAME}-${pvr}-fw_env-__ARCH__.config}" if use amd64; then K_SABKERNEL_CONFIG_FILE="${K_SABKERNEL_CONFIG_FILE/__ARCH__/amd64}" K_SABKERNEL_ALT_CONFIG_FILE="${K_SABKERNEL_ALT_CONFIG_FILE/__ARCH__/amd64}" elif use x86; then K_SABKERNEL_CONFIG_FILE="${K_SABKERNEL_CONFIG_FILE/__ARCH__/x86}" K_SABKERNEL_ALT_CONFIG_FILE="${K_SABKERNEL_ALT_CONFIG_FILE/__ARCH__/x86}" elif use arm; then K_SABKERNEL_CONFIG_FILE="${K_SABKERNEL_CONFIG_FILE/__ARCH__/$(_get_arm_subarch)}" K_SABKERNEL_ALT_CONFIG_FILE="${K_SABKERNEL_ALT_CONFIG_FILE/__ARCH__/$(_get_arm_subarch)}" K_SABKERNEL_FW_CONFIG_FILE="${K_SABKERNEL_FW_CONFIG_FILE/__ARCH__/arm}" fi fi _config_file_set=1 } if [ -n "${K_ONLY_SOURCES}" ] || [ -n "${K_FIRMWARE_PACKAGE}" ]; then IUSE="${IUSE}" DEPEND="sys-apps/sed" RDEPEND="${RDEPEND}" else IUSE="dmraid dracut iscsi luks lvm mdadm" if [ -n "${K_SABKERNEL_ZFS}" ]; then IUSE="${IUSE} zfs" fi DEPEND="app-arch/xz-utils sys-apps/sed sys-devel/autoconf sys-devel/make sys-fs/dosfstools || ( >=sys-kernel/genkernel-next-5 >=sys-kernel/genkernel-3.4.45-r2 ) arm? ( dev-embedded/u-boot-tools sys-block/devio ) amd64? ( sys-apps/v86d ) x86? ( sys-apps/v86d ) lvm? ( sys-fs/lvm2 sys-block/thin-provisioning-tools ) dracut? ( sys-apps/v86d sys-kernel/dracut )" RDEPEND="sys-apps/sed sys-kernel/linux-firmware" if [ -n "${K_REQUIRED_LINUX_FIRMWARE_VER}" ]; then RDEPEND+=" >=sys-kernel/linux-firmware-${K_REQUIRED_LINUX_FIRMWARE_VER}" fi fi # internal function # # FUNCTION: _update_depmod # @USAGE: _update_depmod <-r depmod> # DESCRIPTION: # It updates the modules.dep file for the current kernel. # This is more or less the same of linux-mod update_depmod, with the # exception of accepting parameter which is passed to depmod -r switch _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 "${1}" 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 } sablink-kernel_pkg_setup() { if [ -n "${K_FIRMWARE_PACKAGE}" ]; then einfo "Preparing kernel firmwares" else einfo "Preparing kernel and its modules" fi } sablink-kernel_src_unpack() { local okv="${OKV}" if [ -n "${K_SABKERNEL_SELF_TARBALL_NAME}" ]; then OKV="${PVR}+${K_SABKERNEL_SELF_TARBALL_NAME}" fi if [ -n "${K_SABCONFIGS_VER}" ]; then unpack "${K_SABCONFIGS_PKG}" fi if [ "${K_KERNEL_NEW_VERSIONING}" = "1" ]; then # workaround for kernel-2's universal_unpack assumptions UNIPATCH_LIST_DEFAULT= KV_MAJOR=0 kernel-2_src_unpack else kernel-2_src_unpack fi if [ -n "${K_SABKERNEL_FORCE_SUBLEVEL}" ]; then # patch out Makefile with proper sublevel sed -i "s:^SUBLEVEL = .*:SUBLEVEL = ${K_SABKERNEL_FORCE_SUBLEVEL}:" \ "${S}/Makefile" || die fi #comment out Extra verion change by CK patch sed -i -e 's/\(^EXTRAVERSION :=.*$\)/# \1/' "${S}/Makefile" if [ -n "${K_SABKERNEL_RESET_EXTRAVERSION}" ]; then sed -i "s:^EXTRAVERSION =.*:EXTRAVERSION = :" "${S}/Makefile" || die # some sources could have multiple append-based EXTRAVERSIONs sed -i "s/^EXTRAVERSION :=.*//" "${S}/Makefile" || die fi OKV="${okv}" # Let's handle EAPIs 0 and 1... case ${EAPI:-0} in 0|1) sablink-kernel_src_prepare ;; esac # delete empty directories pushd "${S}" find . -depth -type d -empty -delete popd } sablink-kernel_src_prepare() { _set_config_file_vars } sablink-kernel_src_compile() { if [ -n "${K_FIRMWARE_PACKAGE}" ]; then _firmwares_src_compile elif [ -n "${K_ONLY_SOURCES}" ]; then kernel-2_src_compile else _kernel_src_compile fi } _firmwares_src_compile() { einfo "Starting to compile firmwares..." _kernel_copy_config "${S}/.config" cd "${S}" || die "cannot find source dir" export LDFLAGS="" OLDARCH="${ARCH}" unset ARCH emake firmware || die "cannot compile firmwares" ARCH="${OLDARCH}" } _kernel_copy_config() { _is_config_file_set \ || die "Kernel configuration file not set. Was sablink-kernel_src_prepare() called?" if [ -n "${K_SABKERNEL_SELF_TARBALL_NAME}" ]; then local base_path="${S}/sablink/config" if [ -f "${base_path}/${K_SABKERNEL_ALT_CONFIG_FILE}" ]; then # new path, without revision cp "${base_path}/${K_SABKERNEL_ALT_CONFIG_FILE}" "${1}" || die "cannot copy kernel config 1" else # PVR path (old) cp "${base_path}/${K_SABKERNEL_CONFIG_FILE}" "${1}" || die "cannot copy kernel config 2" fi else if [ "${K_SABKERNEL_URI_CONFIG}" = "no" ]; then # Legacy stuff, not supporting K_KERNEL_NEW_VERSIONING cp "${FILESDIR}/${PF/-r0/}-${ARCH}.config" "${1}" || die "cannot copy kernel config 3" else if [ -n "${K_SABCONFIGS_VER}" ]; then rm -rf "${S}/sablink" cp -rf "${WORKDIR}"/sablink "${S}" pushd "${S}" sablink/scripts/prepareconfig ${K_SABKERNEL_NAME}-${CHOST/-*/} mv .config "${1}.tmp" mv "${1}.tmp" "${1}" popd else cp "${DISTDIR}/${K_SABKERNEL_CONFIG_FILE}" "${1}" || die "cannot copy kernel config 4" fi fi fi } _kernel_src_compile() { # disable sandbox export SANDBOX_ON=0 # needed anyway, even if grub use flag is not used here if use amd64 || use x86; then mkdir -p "${WORKDIR}"/boot/grub else if use arm; then mkdir -p "${WORKDIR}"/boot/dtb else mkdir -p "${WORKDIR}"/boot fi fi einfo "Starting to compile kernel..." _kernel_copy_config "${WORKDIR}"/config # do some cleanup rm -rf "${WORKDIR}"/lib rm -rf "${WORKDIR}"/cache rm -rf "${S}"/temp # creating workdirs # some kernels fail with make 3.82 if firmware dir is not created mkdir "${WORKDIR}"/lib/lib/firmware -p mkdir "${WORKDIR}"/cache mkdir "${S}"/temp cd "${S}" || die local GKARGS=() GKARGS+=( "--no-save-config" "--e2fsprogs" ) use dmraid && GKARGS+=( "--dmraid" ) use iscsi && GKARGS+=( "--iscsi" ) use mdadm && GKARGS+=( "--mdadm" ) use luks && GKARGS+=( "--luks" ) use lvm && GKARGS+=( "--lvm" ) if [ -n "${K_SABKERNEL_ZFS}" ]; then use zfs && GKARGS+=( "--zfs" ) fi export DEFAULT_KERNEL_SOURCE="${S}" export CMD_KERNEL_DIR="${S}" for opt in ${MAKEOPTS}; do if [ "${opt:0:2}" = "-j" ]; then mkopts="${opt}" break fi done [ -z "${mkopts}" ] && mkopts="-j3" if [ -n "${K_KERNEL_IMAGE_NAME}" ]; then GKARGS+=( "--kernel-target=${K_KERNEL_IMAGE_NAME}" ) # elif use arm; then # # backward compat + provide sane defaults. # GKARGS+=( "--kernel-target=uImage" ) fi if [ -n "${K_KERNEL_IMAGE_PATH}" ]; then GKARGS+=( "--kernel-binary=${K_KERNEL_IMAGE_PATH}" ) # elif use arm; then # # backward compat + provide sane defaults. # GKARGS+=( "--kernel-binary=arch/arm/boot/uImage" ) fi # Workaround bug in splash_geninitramfs corrupting the initramfs # if xz compression is used (newer genkernel >3.4.24) local support_comp=$(genkernel --help | grep compress-initramfs-type) if [ -n "${support_comp}" ]; then GKARGS+=( "--compress-initramfs-type=gzip" ) fi # Use --disklabel if genkernel supports it local support_disklabel=$(genkernel --help | grep -- --disklabel) if [ -n "${support_disklabel}" ]; then GKARGS+=( "--disklabel" ) fi if [ -n "${K_MKIMAGE_KERNEL_ADDRESS}" ]; then export LOADADDR="${K_MKIMAGE_KERNEL_ADDRESS}" fi K_SABKERNEL_DTB="none" #################################### ARM V5 ###################################### # Buffalo anounced a new box named Pro Live (video transcode streaming) # so the old ls_pro_live has to be split to ls_pro ls_live # for now let it stay but a move schould be done to ls_pro if [ "${K_SABKERNEL_NAME}" = "buffalo_kb_pro" ]; then devio > foo 'wl 0xe3a01c05,4' 'wl 0xe38110e5,4' # KuroBox Pro 1509 K_SABKERNEL_TYPE="buffalo" K_SABKERNEL_DEVICE="Buffalo/Revogear Kurobox Pro" fi if [ "${K_SABKERNEL_NAME}" = "buffalo_ls_chl" ]; then devio > foo 'wl 0xe3a01c0b,4' 'wl 0xe3811061,4' # Linkstation Live V3 (2.6.34) 2913 K_SABKERNEL_TYPE="buffalo" K_SABKERNEL_DEVICE="Buffalo Linkstation LiveV3 (LS-CHL)" fi if [ "${K_SABKERNEL_NAME}" = "buffalo_ls_chl2" ]; then if [[ "${KV_MAJOR}${KV_MINOR}" -ge 35 ]]; then # new Device tree no need for devio K_SABKERNEL_DTB="kirkwood-lschlv2.dtb" else devio > foo 'wl 0xe3a01c0b,4' 'wl 0xe38110be,4' # Linkstation XHL/CHLv2 3006 fi K_SABKERNEL_TYPE="buffalo" K_SABKERNEL_DEVICE="Buffalo Linkstation LS-CHLv2" fi if [ "${K_SABKERNEL_NAME}" = "buffalo_ls_hgl" ]; then devio > foo 'wl 0xe3a01c07,4' 'wl 0xe38110d5,4' # Linkstation HGL (2.6.31) 2005 K_SABKERNEL_TYPE="buffalo" K_SABKERNEL_DEVICE="Buffalo Linkstation LS-HGL" fi if [ "${K_SABKERNEL_NAME}" = "buffalo_ls_mini" ]; then devio > foo 'wl 0xe3a01c07,4' 'wl 0xe3811042,4' # Linkstation mini (2.6.29) 1858 K_SABKERNEL_TYPE="buffalo" K_SABKERNEL_DEVICE="Buffalo Linkstation Mini" fi if [ "${K_SABKERNEL_NAME}" = "buffalo_ls_pro_live" ]; then devio > foo 'wl 0xe3a01c06,4' 'wl 0xe3811031,4' # Linkstation Pro/Live (2.6.26) 1585 K_SABKERNEL_TYPE="buffalo" K_SABKERNEL_DEVICE="Buffalo Linkstation Pro/Live" fi if [ "${K_SABKERNEL_NAME}" = "buffalo_ls_pro_duo_rev1" ]; then devio > foo 'wl 0xe3a01c07,4' 'wl 0xe3811027,4' # Linkstation Pro Duo (2.6.30) 1831 K_SABKERNEL_TYPE="buffalo" K_SABKERNEL_DEVICE="Buffalo Linkstation Pro Duo - Revision 1" fi if [ "${K_SABKERNEL_NAME}" = "buffalo_ls_pro_duo_rev2" ]; then devio > foo 'wl 0xe3a01c07,4' 'wl 0xe3811027,4' # Linkstation Pro Duo (2.6.30) 1831 K_SABKERNEL_TYPE="buffalo" K_SABKERNEL_DEVICE="Buffalo Linkstation Pro Duo - Revision 2" fi if [ "${K_SABKERNEL_NAME}" = "buffalo_ls_ql" ]; then devio > foo 'wl 0xe3a01c10,4' 'wl 0xe381108e,4' # Buffalo Linkstation Quad LSQL. Registered 2012.06.15. 4238 K_SABKERNEL_TYPE="buffalo" K_SABKERNEL_DEVICE="Buffalo Linkstation Quad" fi if [ "${K_SABKERNEL_NAME}" = "buffalo_ls_vl" ]; then devio > foo 'wl 0xe3a01c14,4' 'wl 0xe381109d,4' # Linkstation vl is not in the db so took one 5277 K_SABKERNEL_TYPE="buffalo" K_SABKERNEL_DEVICE="Buffalo LS-VL Series" fi if [ "${K_SABKERNEL_NAME}" = "buffalo_ls_wvl" ]; then if [[ "${KV_MAJOR}${KV_MINOR}" -ge 39 ]]; then # new Device tree no need for devio K_SABKERNEL_DTB="kirkwood-lswvl.dtb" else devio > foo 'wl 0xe3a01c14,4' 'wl 0xe381109e,4' # Linkstation wvl is not in the db so took one 5278 fi K_SABKERNEL_TYPE="buffalo" K_SABKERNEL_DEVICE="Buffalo Linkstation LS-WVL" fi if [ "${K_SABKERNEL_NAME}" = "buffalo_ts_wxl" ]; then devio > foo 'wl 0xe3a01c0a,4' 'wl 0xe3811089,4' # Terastation WXL (2.6.35) 2697 K_SABKERNEL_TYPE="buffalo" # Broken hardware name needs to be correct in u-boot firmware K_SABKERNEL_DEVICE="Buffalo Linkstation Pro/Live" fi if [ "${K_SABKERNEL_NAME}" = "buffalo_ls_xhl" ]; then if [[ "${KV_MAJOR}${KV_MINOR}" -ge 35 ]]; then # new Device tree no need for devio K_SABKERNEL_DTB="kirkwood-lsxhl.dtb" else devio > foo 'wl 0xe3a01c0a,4' 'wl 0xe3811067,4' # Linkstation XHL/CHLv2 (2.6.30) 2663 fi K_SABKERNEL_TYPE="buffalo" K_SABKERNEL_DEVICE="Buffalo Linkstation LS-XHL" fi #################################### ARM V6 ###################################### # oxnas if [ "${K_SABKERNEL_NAME}" = "medion_stg212" ]; then K_SABKERNEL_TYPE="default" K_SABKERNEL_DEVICE="Oxford NAS" K_GENKERNEL_ARGS+=" --kernel-target=uImage --kernel-binary=arch/arm/boot/uImage" fi if [ "${K_SABKERNEL_NAME}" = "pogoplug_pro" ]; then K_SABKERNEL_TYPE="default" K_SABKERNEL_DEVICE="Oxford NAS" K_GENKERNEL_ARGS+=" --kernel-target=uImage --kernel-binary=arch/arm/boot/uImage" fi if [ "${K_SABKERNEL_NAME}" = "pogoplug_pro_pci" ]; then K_SABKERNEL_TYPE="default" K_SABKERNEL_DEVICE="Oxford NAS" K_GENKERNEL_ARGS+=" --kernel-target=uImage --kernel-binary=arch/arm/boot/uImage" fi if [ "${K_SABKERNEL_NAME}" = "iomega_hmnd_ce" ]; then K_SABKERNEL_TYPE="default" K_SABKERNEL_DEVICE="Oxford NAS" K_GENKERNEL_ARGS+=" --kernel-target=uImage --kernel-binary=arch/arm/boot/uImage" fi #################################### ARM V7 ###################################### # Freescale if [ "${K_SABKERNEL_NAME}" = "freescale_mx53_loco" ]; then K_SABKERNEL_TYPE="default" K_SABKERNEL_DEVICE="Freescale MX53 LOCO Board" K_GENKERNEL_ARGS+=" --kernel-target=uImage --kernel-binary=arch/arm/boot/uImage" fi # Freescale if [ "${K_SABKERNEL_NAME}" = "pandaboard" ]; then K_SABKERNEL_TYPE="default" K_SABKERNEL_DEVICE="OMAP4 Panda board" K_GENKERNEL_ARGS+=" --kernel-target=uImage --kernel-binary=arch/arm/boot/uImage" fi OLDARCH="${ARCH}" unset ARCH unset LDFLAGS pushd "${S}"/3rdparty perl ./mkbuild.pl popd DEFAULT_KERNEL_SOURCE="${S}" CMD_KERNEL_DIR="${S}" genkernel "${GKARGS[@]}" ${K_GENKERNEL_ARGS} \ --kerneldir="${S}" \ --kernel-config="${WORKDIR}"/config \ --cachedir="${WORKDIR}"/cache \ --makeopts="${mkopts}" \ --tempdir="${S}"/temp \ --logfile="${WORKDIR}"/genkernel.log \ --bootdir="${WORKDIR}"/boot \ --mountboot \ --module-prefix="${WORKDIR}"/lib \ all || die "genkernel failed" if [ -n "${K_MKIMAGE_KERNEL_ADDRESS}" ]; then unset LOADADDR fi ARCH=${OLDARCH} if [ "${K_SABKERNEL_DTB}" != "none" ]; then emake ${K_SABKERNEL_DTB} cp "${S}"/arch/arm/boot/${K_SABKERNEL_DTB} "${S}" fi # Buffalo Boxes have a special naming and start address if [ "${K_SABKERNEL_TYPE}" = "buffalo" ]; then if [ "${K_SABKERNEL_DTB}" = "none" ]; then einfo "Prepend the correct Device ID to the Kenel Image" cat foo "${WORKDIR}"/boot/kernel-genkernel-${ARCH}-${PV}-${K_SABKERNEL_NAME} > zImage.new einfo "Create uImage of the resulting Image" mkimage -A arm -O linux -T kernel -C none -a 0x00008000 -e 0x00008000 -n uImage-${KV_FULL} \ -d zImage.new "${WORKDIR}"/boot/uImage-genkernel-${ARCH}-${KV_FULL}.buffalo einfo "Create uInitrd with correct start address" mkimage -A arm -O linux -T ramdisk -C none -a 0x00000000 -e 0x00000000 -n initrd-${KV_FULL} \ -d "${WORKDIR}"/boot/initramfs-genkernel-${ARCH}-${PV}-${K_SABKERNEL_NAME} "${WORKDIR}"/boot/uInitramfs-genkernel-${ARCH}-${KV_FULL}.buffalo else einfo "Append the device-tree-blob to the Kenel Image" cat "${WORKDIR}"/boot/kernel-genkernel-${ARCH}-${PV}-${K_SABKERNEL_NAME} "${S}"/${K_SABKERNEL_DTB} > zImage.new cp "${S}"/${K_SABKERNEL_DTB} "${WORKDIR}"/boot/dtb/ einfo "Create uImage of the resulting Image" mkimage -A arm -O linux -T kernel -C none -a 0x00008000 -e 0x00008000 -n uImage-${KV_FULL} \ -d zImage.new "${WORKDIR}"/boot/uImage-genkernel-${ARCH}-${KV_FULL}.buffalo einfo "Create uInitrd with correct start address" mkimage -A arm -O linux -T ramdisk -C none -a 0x00000000 -e 0x00000000 -n initrd-${KV_FULL} \ -d "${WORKDIR}"/boot/initramfs-genkernel-${ARCH}-${PV}-${K_SABKERNEL_NAME} "${WORKDIR}"/boot/uInitramfs-genkernel-${ARCH}-${KV_FULL}.buffalo fi fi if [ "${K_SABKERNEL_TYPE}" = "default" ]; then einfo "Rename Kernel Image for consistency" mv "${WORKDIR}"/boot/kernel-genkernel-${ARCH}-${PV}-${K_SABKERNEL_NAME} "${WORKDIR}"/boot/uImage-genkernel-${ARCH}-${KV_FULL} einfo "Create uInitrd with correct start address" mkimage -A arm -O linux -T ramdisk -C none -a 0x00000000 -e 0x00000000 -n initrd-${KV_FULL} \ -d "${WORKDIR}"/boot/initramfs-genkernel-${ARCH}-${PV}-${K_SABKERNEL_NAME} "${WORKDIR}"/boot/uInitramfs-genkernel-${ARCH}-${KV_FULL} fi # move System.map for filname consistency mv "${WORKDIR}"/boot/System.map-genkernel-${ARCH}-${PV}-${K_SABKERNEL_NAME} "${WORKDIR}"/boot/System.map-genkernel-${ARCH}-${KV_FULL} # cleanup rm -rf foo zImage.new ${K_SABKERNEL_DTB} rm "${WORKDIR}"/boot/kernel-genkernel-${ARCH}-${PV}-${K_SABKERNEL_NAME} "${WORKDIR}"/boot/initramfs-genkernel-${ARCH}-${PV}-${K_SABKERNEL_NAME} } _setup_mkimage_ramdisk() { local initramfs=$(ls "${WORKDIR}"/boot/${KERN_INITRAMFS_SEARCH_NAME}* 2> /dev/null) if [ ! -e "${initramfs}" ] || [ ! -f "${initramfs}" ]; then ewarn "No initramfs at ${initramfs}, cannot run mkimage on it!" elif [ "${K_MKIMAGE_WRAP_INITRAMFS}" = "1" ]; then einfo "Setting up u-boot initramfs for: ${initramfs}" mkimage -A arm -O linux -T ramdisk -C none -a \ "${K_MKIMAGE_RAMDISK_ADDRESS}" \ -e "${K_MKIMAGE_RAMDISK_ENTRYPOINT}" -d "${initramfs}" \ "${initramfs}.u-boot" || return 1 mv "${initramfs}.u-boot" "${initramfs}" || return 1 else einfo "mkimage won't be called for: ${initramfs}" fi return 0 } sablink-kernel_src_install() { if [ -n "${K_FIRMWARE_PACKAGE}" ]; then _firmwares_src_install elif [ -n "${K_ONLY_SOURCES}" ]; then _kernel_sources_src_install else _kernel_src_install fi # File collisions between slots, debug stuff # not really needed for a kernel rm -rf "${D}/usr/lib/debug" } _firmwares_src_install() { dodir /lib/firmware keepdir /lib/firmware cd "${S}" || die emake INSTALL_FW_PATH="${D}/lib/firmware" firmware_install || die "cannot install firmwares" } _kernel_sources_src_install() { _kernel_copy_config ".config" kernel-2_src_install cd "${D}${KV_OUT_DIR}" || die local oldarch="${ARCH}" unset ARCH if ! use sources_standalone; then make modules_prepare || die "failed to run modules_prepare" rm .config || die "cannot remove .config" rm Makefile || die "cannot remove Makefile" rm -f include/linux/version.h rm -f include/generated/uapi/linux/version.h fi ARCH="${oldarch}" } _kernel_src_install() { # if use arm; then # _setup_mkimage_ramdisk || die "cannot setup mkimage" # fi dodir "${KV_OUT_DIR}" insinto "${KV_OUT_DIR}" _kernel_copy_config ".config" doins ".config" || die "cannot copy kernel config" doins Makefile || die "cannot copy Makefile" doins Module.symvers || die "cannot copy Module.symvers" doins System.map || die "cannot copy System.map" # NOTE: this is a workaround caused by linux-info.eclass not # being ported to EAPI=2 yet local version_h_dir="include/linux" local version_h_dir2="include/generated/uapi/linux" local version_h= local version_h_src= for ver_dir in "${version_h_dir}" "${version_h_dir2}"; do version_h="${ROOT}${KV_OUT_DIR/\//}/${ver_dir}/version.h" if [ -f "${version_h}" ]; then einfo "Discarding previously installed version.h to avoid collisions" addwrite "${version_h}" rm -f "${version_h}" fi # Include include/linux/version.h to make Portage happy version_h_src="${S}/${ver_dir}/version.h" if [ -f "${version_h_src}" ]; then dodir "${KV_OUT_DIR}/${ver_dir}" insinto "${KV_OUT_DIR}/${ver_dir}" doins "${version_h_src}" || die "cannot copy version.h" fi done insinto "/boot" doins "${WORKDIR}"/boot/* || die "cannot copy /boot over" cp -Rp "${WORKDIR}"/lib/* "${D}/" || die "cannot copy /lib over" # Install dtbs if found if use arm; then local dtb_dir="/lib/dts/${KV_FULL}" elog "Installing .dtbs (if any) into ${dtb_dir}" insinto "${dtb_dir}" local dtb= for dtb in "${S}/arch/arm/boot/dts"/*.dtb; do if [ -f "${dtb}" ]; then elog "Installing dtb: ${dtb}" doins "${dtb}" fi done fi # This doesn't always work because KV_FULL (when K_NOSETEXTRAVERSION=1) doesn't # reflect the real value used in Makefile #dosym "../../..${KV_OUT_DIR}" "/lib/modules/${KV_FULL}/source" || die "cannot install source symlink" #dosym "../../..${KV_OUT_DIR}" "/lib/modules/${KV_FULL}/build" || die "cannot install build symlink" cd "${D}"/lib/modules/* || die "cannot enter /lib/modules directory, more than one element?" # cleanup previous rm -f build source || die # create sane symlinks ln -sf "../../..${KV_OUT_DIR}" source || die "cannot create source symlink" ln -sf "../../..${KV_OUT_DIR}" build || die "cannot create build symlink" cd "${S}" || die # drop ${D}/lib/firmware, virtual/linux-firmwares provides it rm -rf "${D}/lib/firmware" if [ -n "${K_WORKAROUND_SOURCES_COLLISION}" ]; then # Fixing up Makefile collision if already installed by # openvz-sources einfo "Workarounding source package collisions" make_file="${KV_OUT_DIR/\//}/Makefile" einfo "Makefile: ${make_file}" if [ -f "${ROOT}/${make_file}" ]; then elog "Removing ${D}/${make_file}" rm -f "${D}/${make_file}" fi fi # Install kernel configuration information # useful for Entropy kernel-switcher # release level is enough for now base_dir="/etc/kernels/${P}" dodir "${base_dir}" insinto "${base_dir}" echo "${KV_FULL}" > "RELEASE_LEVEL" doins "RELEASE_LEVEL" einfo "Installing ${base_dir}/RELEASE_LEVEL file: ${KV_FULL}" use dracut && \ _dracut_initramfs_create "${KV_FULL}" # copy firmware config file to propper location if [ -n "${K_SABKERNEL_SELF_TARBALL_NAME}" ]; then local base_path="${S}/sablink/config" cp "${base_path}/${K_SABKERNEL_FW_CONFIG_FILE}" "${D}/etc/fw_env.config.${K_SABKERNEL_NAME}" || die "cannot copy firmware config" else if [ "${K_SABKERNEL_URI_CONFIG}" = "no" ]; then cp "${FILESDIR}/${PF/-r0/}-${ARCH}.config" "${D}/etc/fw_env.config.${K_SABKERNEL_NAME}" || die "cannot copy firmware config" else cp "${DISTDIR}/${K_SABKERNEL_FW_CONFIG_FILE}" "${D}/etc/fw_env.config.${K_SABKERNEL_NAME}" || die "cannot copy firmware config" fi fi } sablink-kernel_pkg_preinst() { if _is_kernel_binary; then mount-boot_pkg_preinst fi } sablink-kernel_grub2_mkconfig() { if [ -x "${ROOT}usr/sbin/grub2-mkconfig" ]; then # Grub 2.00 "${ROOT}usr/sbin/grub2-mkconfig" -o "${ROOT}boot/grub/grub.cfg" elif [ -x "${ROOT}sbin/grub-mkconfig" ]; then # Grub 1.99 "${ROOT}sbin/grub-mkdevicemap" --device-map="${ROOT}boot/grub/device.map" "${ROOT}sbin/grub-mkconfig" -o "${ROOT}boot/grub/grub.cfg" else echo ewarn "Attention, Grub2 is not installed !!!" ewarn "Grub2 bootloader configuration won't be updated" echo fi } _get_real_extraversion() { make_file="${ROOT}${KV_OUT_DIR}/Makefile" local extraver=$(grep -r "^EXTRAVERSION =" "${make_file}" | cut -d "=" -f 2 | head -n 1) local trimmed=${extraver%% } echo ${trimmed## } } _get_release_level() { if [[ -n "${K_WORKAROUND_USE_REAL_EXTRAVERSION}" ]]; then echo "${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}$(_get_real_extraversion)" elif [[ "${KV_MAJOR}${KV_MINOR}" -eq 26 ]]; then echo "${KV_FULL}" elif [[ "${OKV/.*}" = "3" ]] && [[ "${KV_PATCH}" = "0" ]]; then # Linux 3.x support, KV_FULL is set to: 3.0-sablink # need to add another final .0 to the version part echo "${KV_FULL/-/.0-}" else echo "${KV_FULL}" fi } sablink-kernel_uimage_config() { # Two cases here: # 1. /boot/uImage symlink is broken (pkg_postrm) # 2. /boot/uImage symlink doesn't exist (pkg_postinst) if ! has_version app-admin/eselect-uimage; then ewarn "app-admin/eselect-uimage not installed" ewarn "If you are using this tool, please install it" return 0 fi local uimage_file=$(eselect uimage show --quiet 2> /dev/null) if [ -z "${uimage_file}" ]; then # pick the first listed, sorry! local eselect_list=$(eselect uimage list --quiet 2> /dev/null) if [ -n "${eselect_list}" ]; then eselect uimage set 1 else echo ewarn "No more kernels available, you won't be able to boot" echo fi else echo elog "If you use eselect-bzimage, you are currently booting with kernel:" elog "${uimage_file}" elog elog "Use 'eselect uimage' in order to switch between the available ones" echo fi } sablink-kernel_bzimage_config() { # Two cases here: # 1. /boot/bzImage symlink is broken (pkg_postrm) # 2. /boot/bzImage symlink doesn't exist (pkg_postinst) local kern_arch use x86 && kern_arch="x86" use amd64 && kern_arch="x86_64" if ! has_version app-admin/eselect-bzimage; then ewarn "app-admin/eselect-bzimage not installed" ewarn "If you are using this tool, please install it" return 0 fi local bzimage_file=$(eselect bzimage show --quiet 2> /dev/null) if [ -z "${bzimage_file}" ]; then # try to pic what's being installed local eselect_list=$(eselect bzimage list --quiet 2> /dev/null) if [ -n "${eselect_list}" ]; then eselect bzimage set "kernel-genkernel-${kern_arch}-${KV_FULL}" if [ "${?}" != "0" ]; then # pick the first available, sorry! echo eselect bzimage set 1 ewarn "Unable to select the right kernel, falling back" ewarn "to the first available entry. You have been warned" echo fi else echo ewarn "No more kernels available, you might not be able to boot" echo fi else echo ewarn "You are currently booting with kernel:" ewarn "${bzimage_file}" ewarn ewarn "Use 'eselect bzimage' in order to switch between the available ones" echo fi } _dracut_initramfs_create() { local kver="${1}" elog "Creating dracut initramfs for ${kver}" addpredict /etc/ld.so.cache~ dracut -q -N -f --kver="${kver}" "${D}/boot/initramfs-dracut-${kver}" } sablink-kernel_pkg_postinst() { if _is_kernel_binary; then fstab_file="${ROOT}etc/fstab" einfo "Removing extents option for ext4 drives from ${fstab_file}" # Remove "extents" from /etc/fstab if [ -f "${fstab_file}" ]; then sed -i '/ext4/ s/extents//g' "${fstab_file}" fi # Add kernel to grub.conf if use amd64 || use x86; then if use amd64; then local kern_arch="x86_64" else local kern_arch="x86" fi # grub-legacy if [ -x "${ROOT}usr/sbin/grub-handler" ]; then "${ROOT}usr/sbin/grub-handler" add \ "/boot/kernel-genkernel-${kern_arch}-${KV_FULL}" \ "/boot/initramfs-genkernel-${kern_arch}-${KV_FULL}" fi sablink-kernel_grub2_mkconfig fi # Setup newly installed kernel on ARM if use arm; then sablink-kernel_uimage_config fi # Setup newly installed kernel on x86/amd64 # This is quite handy for static grub1/grub2 # configurations (like on Amazon EC2) if use x86 || use amd64; then sablink-kernel_bzimage_config fi kernel-2_pkg_postinst local depmod_r=$(_get_release_level) _update_depmod "${depmod_r}" elog "Please report kernel bugs at:" elog "http://bugs.sablink.org" elog "The source code of this kernel is located at" elog "=${K_KERNEL_SOURCES_PKG}." elog "Sablink Linux recommends that portage users install" elog "${K_KERNEL_SOURCES_PKG} if you want" elog "to build any packages that install kernel modules" elog "(such as ati-drivers, nvidia-drivers, virtualbox, etc...)." # copy the firmware config for the actual hardware to the right place device=$(grep "Hardware[[:space:]]*:" /proc/cpuinfo 2>/dev/null | head -n1 | sed "s/^[^:]*: //") if [ "${K_SABKERNEL_DEVICE}" = "$device" ]; then cp ${ROOT}/etc/fw_env.config.${K_SABKERNEL_NAME} ${ROOT}/etc/fw_env.config fi else kernel-2_pkg_postinst fi } sablink-kernel_pkg_prerm() { if _is_kernel_binary; then mount-boot_pkg_prerm fi } sablink-kernel_pkg_postrm() { if _is_kernel_binary; then # Remove kernel from grub.conf if use amd64 || use x86; then if use amd64; then local kern_arch="x86_64" else local kern_arch="x86" fi if [ -x "${ROOT}usr/sbin/grub-handler" ]; then "${ROOT}usr/sbin/grub-handler" remove \ "/boot/kernel-genkernel-${kern_arch}-${KV_FULL}" \ "/boot/initramfs-genkernel-${kern_arch}-${KV_FULL}" fi sablink-kernel_grub2_mkconfig fi # Setup newly installed kernel on ARM if use arm; then sablink-kernel_uimage_config fi # Setup newly installed kernel on x86/amd64 # This is quite handy for static grub1/grub2 # configurations (like on Amazon EC2) if use x86 || use amd64; then sablink-kernel_bzimage_config fi fi } # export all the available functions here case ${EAPI:-0} in 0|1) extra_export_funcs= ;; *) extra_export_funcs=src_prepare ;; esac EXPORT_FUNCTIONS pkg_setup src_unpack ${extra_export_funcs} \ src_compile src_install pkg_preinst pkg_postinst pkg_prerm pkg_postrm