# Copyright 1999-2023 Gentoo Authors # Distributed under the terms of the GNU General Public License v2 # @ECLASS: kernel-2.eclass # @MAINTAINER: # Gentoo Kernel project # @AUTHOR: # John Mylchreest # Mike Pagano # # @SUPPORTED_EAPIS: 7 8 # @BLURB: Eclass for kernel packages # @DESCRIPTION: # This is the kernel.eclass rewrite for a clean base regarding the 2.6 # series of kernel with back-compatibility for 2.4 # Please direct your bugs to the current eclass maintainer :) # added functionality: # unipatch - a flexible, singular method to extract, add and remove patches. # @ECLASS_VARIABLE: CTARGET # @INTERNAL # @DESCRIPTION: # Utilized for 32-bit userland on ppc64. # @ECLASS_VARIABLE: CKV # @DEFAULT_UNSET # @DESCRIPTION: # Used as a comparison kernel version, which is used when # PV doesn't reflect the genuine kernel version. # This gets set to the portage style versioning. ie: # CKV=2.6.11_rc4 # @ECLASS_VARIABLE: EXTRAVERSION # @DEFAULT_UNSET # @DESCRIPTION: # The additional version appended to OKV (-gentoo/-gentoo-r1) # @ECLASS_VARIABLE: H_SUPPORTEDARCH # @DEFAULT_UNSET # @DESCRIPTION: # this should be a space separated list of ARCH's which # can be supported by the headers ebuild # @ECLASS_VARIABLE: K_BASE_VER # @DEFAULT_UNSET # @DESCRIPTION: # for git-sources, declare the base version this patch is # based off of. # @ECLASS_VARIABLE: K_DEBLOB_AVAILABLE # @DEFAULT_UNSET # @DESCRIPTION: # A value of "0" will disable all of the optional deblob # code. If empty, will be set to "1" if deblobbing is # possible. Test ONLY for "1". # @ECLASS_VARIABLE: K_DEBLOB_TAG # @DEFAULT_UNSET # @DESCRIPTION: # This will be the version of deblob script. It's a upstream SVN tag # such asw -gnu or -gnu1. # @ECLASS_VARIABLE: K_DEFCONFIG # @DEFAULT_UNSET # @DESCRIPTION: # Allow specifying a different defconfig target. # If length zero, defaults to "defconfig". # @ECLASS_VARIABLE: K_EXP_GENPATCHES_PULL # @DEFAULT_UNSET # @DESCRIPTION: # If set, we pull "experimental" regardless of the USE FLAG # but expect the ebuild maintainer to use K_EXP_GENPATCHES_LIST. # @ECLASS_VARIABLE: K_EXP_GENPATCHES_NOUSE # @DEFAULT_UNSET # @DESCRIPTION: # If set, no USE flag will be provided for "experimental"; # as a result the user cannot choose to apply those patches. # @ECLASS_VARIABLE: K_EXP_GENPATCHES_LIST # @DEFAULT_UNSET # @DESCRIPTION: # A list of patches to pick from "experimental" to apply when # the USE flag is unset and K_EXP_GENPATCHES_PULL is set. # @ECLASS_VARIABLE: K_EXTRAEINFO # @DEFAULT_UNSET # @DESCRIPTION: # this is a new-line separated list of einfo displays in # postinst and can be used to carry additional postinst # messages # @ECLASS_VARIABLE: K_EXTRAELOG # @DEFAULT_UNSET # @DESCRIPTION: # same as K_EXTRAEINFO except using elog instead of einfo # @ECLASS_VARIABLE: K_EXTRAEWARN # @DEFAULT_UNSET # @DESCRIPTION: # same as K_EXTRAEINFO except using ewarn instead of einfo # @ECLASS_VARIABLE: K_FROM_GIT # @DEFAULT_UNSET # @DESCRIPTION: # If set, this variable signals that the kernel sources derives # from a git tree and special handling will be applied so that # any patches that are applied will actually apply. # @ECLASS_VARIABLE: K_GENPATCHES_VER # @DEFAULT_UNSET # @DESCRIPTION: # 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 # @ECLASS_VARIABLE: K_LONGTERM # @DEFAULT_UNSET # @DESCRIPTION: # If set, the eclass will search for the kernel source # in the long term directories on the upstream servers # as the location has been changed by upstream # @ECLASS_VARIABLE: K_NODRYRUN # @DEFAULT_UNSET # @DESCRIPTION: # if this is set then patch --dry-run will not # be run. Certain patches will fail with this parameter # See bug #507656 # @ECLASS_VARIABLE: K_NOSETEXTRAVERSION # @DEFAULT_UNSET # @DESCRIPTION: # if this is set then EXTRAVERSION will not be # automatically set within the kernel Makefile # @ECLASS_VARIABLE: K_NOUSENAME # @DEFAULT_UNSET # @DESCRIPTION: # if this is set then EXTRAVERSION will not include the # first part of ${PN} in EXTRAVERSION # @ECLASS_VARIABLE: K_NOUSEPR # @DEFAULT_UNSET # @DESCRIPTION: # if this is set then EXTRAVERSION will not include the # anything based on ${PR}. # @ECLASS_VARIABLE: K_PREDEBLOBBED # @DEFAULT_UNSET # @DESCRIPTION: # This kernel was already deblobbed elsewhere. # If false, either optional deblobbing will be available # or the license will note the inclusion of linux-firmware code. # @ECLASS_VARIABLE: K_PREPATCHED # @DEFAULT_UNSET # @DESCRIPTION: # if the patchset is prepatched (ie: pf-sources, # zen-sources etc) it will use PR (ie: -r5) as the # patchset version for and not use it as a true package # revision # @ECLASS_VARIABLE: K_SECURITY_UNSUPPORTED # @DEFAULT_UNSET # @DESCRIPTION: # If set, this kernel is unsupported by Gentoo Security # to the current eclass maintainer :) # @ECLASS_VARIABLE: K_SYMLINK # @DEFAULT_UNSET # @DESCRIPTION: # if this is set, then forcibly create symlink anyway # @ECLASS_VARIABLE: K_USEPV # @DEFAULT_UNSET # @DESCRIPTION: # When setting the EXTRAVERSION variable, it should # add PV to the end. # this is useful for things like wolk. IE: # EXTRAVERSION would be something like : -wolk-4.19-r1 # @ECLASS_VARIABLE: K_WANT_GENPATCHES # @DEFAULT_UNSET # @DESCRIPTION: # Apply genpatches to kernel source. Provide any # combination of "base", "extras" or "experimental". # @ECLASS_VARIABLE: KERNEL_URI # @DEFAULT_UNSET # @DESCRIPTION: # Upstream kernel src URI # @ECLASS_VARIABLE: KV # @DEFAULT_UNSET # @OUTPUT_VARIABLE # @DESCRIPTION: # Kernel Version (2.6.0-gentoo/2.6.0-test11-gentoo-r1) # @ECLASS_VARIABLE: KV_FULL # @DEFAULT_UNSET # @OUTPUT_VARIABLE # @DESCRIPTION: # Kernel full version # @ECLASS_VARIABLE: KV_MAJOR # @DEFAULT_UNSET # @OUTPUT_VARIABLE # @DESCRIPTION: # Kernel major version from ......*" and not "_*" # this should _NOT_ be used from the ebuild as this is # reserved for end users passing excludes from the cli # @ECLASS_VARIABLE: UNIPATCH_LIST # @DEFAULT_UNSET # @DESCRIPTION: # space delimetered list of patches to be applied to the kernel # @ECLASS_VARIABLE: UNIPATCH_LIST_DEFAULT # @INTERNAL # @DESCRIPTION: # Upstream kernel patch archive # @ECLASS_VARIABLE: UNIPATCH_LIST_GENPATCHES # @INTERNAL # @DESCRIPTION: # List of genpatches archives to apply to the kernel # @ECLASS_VARIABLE: UNIPATCH_STRICTORDER # @DEFAULT_UNSET # @DESCRIPTION: # if this is set places patches into directories of # order, so they are applied in the order passed # Changing any other variable in this eclass is not supported; you can request # for additional variables to be added by contacting the current maintainer. # If you do change them, there is a chance that we will not fix resulting bugs; # that of course does not mean we're not willing to help. inherit crossdev estack multiprocessing toolchain-funcs case ${EAPI} in 7|8) ;; *) die "${ECLASS}: EAPI ${EAPI:-0} not supported" ;; esac # 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. [[ ${PROFILE_ARCH} == ppc64 ]] && CHOST="powerpc64-${CHOST#*-}" HOMEPAGE="https://www.kernel.org/ https://wiki.gentoo.org/wiki/Kernel ${HOMEPAGE}" : "${LICENSE:="GPL-2"}" # No need to run scanelf/strip on kernel sources/headers (bug #134453). RESTRICT="binchecks strip" # set LINUX_HOSTCFLAGS if not already set : "${LINUX_HOSTCFLAGS:="-Wall -Wstrict-prototypes -Os -fomit-frame-pointer -I${S}/include"}" # @FUNCTION: debug-print-kernel2-variables # @USAGE: # @DESCRIPTION: # this function exists only to help debug kernel-2.eclass # if you are adding new functionality in, put a call to it # at the start of src_unpack, or during SRC_URI/dep generation. debug-print-kernel2-variables() { for v in PVR CKV OKV KV KV_FULL KV_MAJOR KV_MINOR KV_PATCH RELEASETYPE \ RELEASE UNIPATCH_LIST_DEFAULT UNIPATCH_LIST_GENPATCHES \ UNIPATCH_LIST S KERNEL_URI K_WANT_GENPATCHES ; do debug-print "${v}: ${!v}" done } # @FUNCTION: handle_genpatches # @USAGE: [--set-unipatch-list] # @DESCRIPTION: # add genpatches to list of patches to apply if wanted handle_genpatches() { local tarball want_unipatch_list [[ -z ${K_WANT_GENPATCHES} || -z ${K_GENPATCHES_VER} ]] && return 1 if [[ -n ${1} ]]; then # set UNIPATCH_LIST_GENPATCHES only on explicit request # since that requires 'use' call which can be used only in phase # functions, while the function is also called in global scope if [[ ${1} == --set-unipatch-list ]]; then want_unipatch_list=1 else die "Usage: ${FUNCNAME} [--set-unipatch-list]" fi fi debug-print "Inside handle_genpatches" local OKV_ARRAY IFS="." read -r -a OKV_ARRAY <<<"${OKV}" # for > 3.0 kernels, handle genpatches tarball name # genpatches for 3.0 and 3.0.1 might be named # genpatches-3.0-1.base.tar.xz and genpatches-3.0-2.base.tar.xz # respectively. Handle this. for i in ${K_WANT_GENPATCHES} ; do if [[ ${KV_MAJOR} -ge 3 ]]; then if [[ ${#OKV_ARRAY[@]} -ge 3 ]]; then tarball="genpatches-${KV_MAJOR}.${KV_MINOR}-${K_GENPATCHES_VER}.${i}.tar.xz" else tarball="genpatches-${KV_MAJOR}.${KV_PATCH}-${K_GENPATCHES_VER}.${i}.tar.xz" fi else tarball="genpatches-${OKV}-${K_GENPATCHES_VER}.${i}.tar.xz" fi local use_cond_start="" use_cond_end="" if [[ ${i} == experimental && -z ${K_EXP_GENPATCHES_PULL} && -z ${K_EXP_GENPATCHES_NOUSE} ]]; then use_cond_start="experimental? ( " use_cond_end=" )" if [[ -n ${want_unipatch_list} ]] && use experimental; then UNIPATCH_LIST_GENPATCHES+=" ${DISTDIR}/${tarball}" debug-print "genpatches tarball: ${tarball}" fi elif [[ -n ${want_unipatch_list} ]]; then UNIPATCH_LIST_GENPATCHES+=" ${DISTDIR}/${tarball}" debug-print "genpatches tarball: ${tarball}" fi GENPATCHES_URI+=" ${use_cond_start}$(echo https://dev.gentoo.org/~{alicef,mpagano}/dist/genpatches/${tarball})${use_cond_end}" done } # @FUNCTION: detect_version # @USAGE: # @DESCRIPTION: # 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) detect_version() { # We've already run, so nothing to do here. [[ -n ${KV_FULL} ]] && return 0 # CKV is used as a comparison kernel version, which is used when # PV doesn't reflect the genuine kernel version. # this gets set to the portage style versioning. ie: # CKV=2.6.11_rc4 CKV=${CKV:-${PV}} OKV=${OKV:-${CKV}} OKV=${OKV/_beta/-test} OKV=${OKV/_rc/-rc} OKV=${OKV/-r*} OKV=${OKV/_p*} KV_MAJOR=$(ver_cut 1 ${OKV}) # handle if OKV is X.Y or X.Y.Z (e.g. 3.0 or 3.0.1) local OKV_ARRAY IFS="." read -r -a OKV_ARRAY <<<"${OKV}" # if KV_MAJOR >= 3, then we have no more KV_MINOR #if [[ ${KV_MAJOR} -lt 3 ]]; then if [[ ${#OKV_ARRAY[@]} -ge 3 ]]; then KV_MINOR=$(ver_cut 2 ${OKV}) KV_PATCH=$(ver_cut 3 ${OKV}) if [[ ${KV_MAJOR}${KV_MINOR}${KV_PATCH} -ge 269 ]]; then KV_EXTRA=$(ver_cut 4- ${OKV}) KV_EXTRA=${KV_EXTRA/[-_]*} else KV_PATCH=$(ver_cut 3- ${OKV}) fi else KV_PATCH=$(ver_cut 2 ${OKV}) KV_EXTRA=$(ver_cut 3- ${OKV}) KV_EXTRA=${KV_EXTRA/[-_]*} fi debug-print "KV_EXTRA is ${KV_EXTRA}" KV_PATCH=${KV_PATCH/[-_]*} local v n=0 missing #if [[ ${KV_MAJOR} -lt 3 ]]; then if [[ ${#OKV_ARRAY[@]} -ge 3 ]]; then for v in CKV OKV KV_{MAJOR,MINOR,PATCH} ; do [[ -z ${!v} ]] && n=1 && missing="${missing}${v} "; done else for v in CKV OKV KV_{MAJOR,PATCH} ; do [[ -z ${!v} ]] && n=1 && missing="${missing}${v} "; done fi [[ ${n} -eq 1 ]] && \ eerror "Missing variables: ${missing}" && \ die "Failed to extract kernel version (try explicit CKV in ebuild)!" unset v n missing # if [[ ${KV_MAJOR} -ge 3 ]]; then if [[ ${#OKV_ARRAY[@]} -lt 3 ]]; then KV_PATCH_ARR=(${KV_PATCH//\./ }) # at this point 031412, Linus is putting all 3.x kernels in a # 3.x directory, may need to revisit when 4.x is released KERNEL_BASE_URI="https://www.kernel.org/pub/linux/kernel/v${KV_MAJOR}.x" [[ -n ${K_LONGTERM} ]] && KERNEL_BASE_URI="${KERNEL_BASE_URI}/longterm/v${KV_MAJOR}.${KV_PATCH_ARR}" else #KERNEL_BASE_URI="https://www.kernel.org/pub/linux/kernel/v${KV_MAJOR}.0" #KERNEL_BASE_URI="https://www.kernel.org/pub/linux/kernel/v${KV_MAJOR}.${KV_MINOR}" if [[ ${KV_MAJOR} -ge 3 ]]; then KERNEL_BASE_URI="https://www.kernel.org/pub/linux/kernel/v${KV_MAJOR}.x" else KERNEL_BASE_URI="https://www.kernel.org/pub/linux/kernel/v${KV_MAJOR}.${KV_MINOR}" fi [[ -n ${K_LONGTERM} ]] && #KERNEL_BASE_URI="${KERNEL_BASE_URI}/longterm" KERNEL_BASE_URI="${KERNEL_BASE_URI}/longterm/v${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}" fi debug-print "KERNEL_BASE_URI is ${KERNEL_BASE_URI}" if [[ ${#OKV_ARRAY[@]} -ge 3 && ${KV_MAJOR} -ge 3 ]]; then # handle non genpatch using sources correctly if [[ -z ${K_WANT_GENPATCHES} && -z ${K_GENPATCHES_VER} && ${KV_PATCH} -gt 0 ]]; then KERNEL_URI="${KERNEL_BASE_URI}/patch-${OKV}.xz" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${CKV}.xz" fi KERNEL_URI="${KERNEL_URI} ${KERNEL_BASE_URI}/linux-${KV_MAJOR}.${KV_MINOR}.tar.xz" else KERNEL_URI="${KERNEL_BASE_URI}/linux-${OKV}.tar.xz" fi RELEASE=${CKV/${OKV}} RELEASE=${RELEASE/_beta} RELEASE=${RELEASE/_rc/-rc} RELEASE=${RELEASE/_pre/-pre} # We cannot trivially call kernel_is here, because it calls us to detect the # version #kernel_is ge 2 6 && RELEASE=${RELEASE/-pre/-git} (( KV_MAJOR * 1000 + ${KV_MINOR:-0} >= 2006 )) && RELEASE=${RELEASE/-pre/-git} RELEASETYPE=${RELEASE//[0-9]} # Now we know that RELEASE is the -rc/-git # and RELEASETYPE is the same but with its numerics stripped # we can work on better sorting EXTRAVERSION. # first of all, we add the release EXTRAVERSION="${RELEASE}" debug-print "0 EXTRAVERSION:${EXTRAVERSION}" [[ -n ${KV_EXTRA} && ${KV_MAJOR} -lt 3 ]] && EXTRAVERSION=".${KV_EXTRA}${EXTRAVERSION}" debug-print "1 EXTRAVERSION:${EXTRAVERSION}" if [[ -n ${K_NOUSEPR} ]]; then # Don't add anything based on PR to EXTRAVERSION debug-print "1.0 EXTRAVERSION:${EXTRAVERSION}" elif [[ -n ${K_PREPATCHED} ]]; then debug-print "1.1 EXTRAVERSION:${EXTRAVERSION}" EXTRAVERSION="${EXTRAVERSION}-${PN/-*}${PR/r}" elif [[ ${ETYPE} = sources ]]; then debug-print "1.2 EXTRAVERSION:${EXTRAVERSION}" # 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}-${PR}" fi debug-print "2 EXTRAVERSION:${EXTRAVERSION}" # 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 if [[ -n ${KV_MINOR} ]]; then OKV="${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}" else OKV="${KV_MAJOR}.${KV_PATCH}" fi KERNEL_URI="${KERNEL_BASE_URI}/patch-${CKV}.xz ${KERNEL_BASE_URI}/linux-${OKV}.tar.xz" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${CKV}.xz" 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-git pulls can be achieved by specifying CKV # for example: # CKV="2.6.11_rc3_pre2" # will pull: # linux-2.6.10.tar.xz & patch-2.6.11-rc3.xz & patch-2.6.11-rc3-git2.xz if [[ ${KV_MAJOR}${KV_MINOR} -eq 26 ]]; then if [[ ${RELEASETYPE} == -rc || ${RELEASETYPE} == -pre ]]; then OKV="${KV_MAJOR}.${KV_MINOR}.$((${KV_PATCH} - 1))" KERNEL_URI="${KERNEL_BASE_URI}/testing/patch-${CKV//_/-}.xz ${KERNEL_BASE_URI}/linux-${OKV}.tar.xz" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${CKV//_/-}.xz" fi if [[ ${RELEASETYPE} == -git ]]; then KERNEL_URI="${KERNEL_BASE_URI}/snapshots/patch-${OKV}${RELEASE}.xz ${KERNEL_BASE_URI}/linux-${OKV}.tar.xz" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${OKV}${RELEASE}.xz" fi if [[ ${RELEASETYPE} == -rc-git ]]; then OKV="${KV_MAJOR}.${KV_MINOR}.$((${KV_PATCH} - 1))" KERNEL_URI="${KERNEL_BASE_URI}/snapshots/patch-${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}${RELEASE}.xz ${KERNEL_BASE_URI}/testing/patch-${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}${RELEASE/-git*}.xz ${KERNEL_BASE_URI}/linux-${OKV}.tar.xz" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}${RELEASE/-git*}.xz ${DISTDIR}/patch-${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}${RELEASE}.xz" fi else KV_PATCH_ARR=(${KV_PATCH//\./ }) # the different majorminor versions have different patch start versions OKV_DICT=(["2"]="${KV_MAJOR}.$((${KV_PATCH_ARR} - 1))" ["3"]="2.6.39" ["4"]="3.19") if [[ ${RELEASETYPE} == -rc || ${RELEASETYPE} == -pre ]]; then OKV=${K_BASE_VER:-${OKV_DICT["${KV_MAJOR}"]}} # as of 12/5/2017, the rc patch is no longer offered as a compressed # file, and no longer is it mirrored on kernel.org if ver_test "${KV_MAJOR}.${KV_PATCH}" -ge "4.12"; then KERNEL_URI="https://git.kernel.org/torvalds/p/v${KV_FULL}/v${OKV} -> patch-${KV_FULL}.patch ${KERNEL_BASE_URI}/linux-${OKV}.tar.xz" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${CKV//_/-}.patch" else KERNEL_URI="${KERNEL_BASE_URI}/testing/patch-${CKV//_/-}.xz ${KERNEL_BASE_URI}/linux-${OKV}.tar.xz" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${CKV//_/-}.xz" fi fi if [[ ${RELEASETYPE} == -git ]]; then KERNEL_URI="${KERNEL_BASE_URI}/snapshots/patch-${OKV}${RELEASE}.xz ${KERNEL_BASE_URI}/linux-${OKV}.tar.xz" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${OKV}${RELEASE}.xz" fi if [[ ${RELEASETYPE} == -rc-git ]]; then OKV=${K_BASE_VER:-${OKV_DICT["${KV_MAJOR}"]}} KERNEL_URI="${KERNEL_BASE_URI}/snapshots/patch-${KV_MAJOR}.${KV_PATCH}${RELEASE}.xz ${KERNEL_BASE_URI}/testing/patch-${KV_MAJOR}.${KV_PATCH}${RELEASE/-git*}.xz ${KERNEL_BASE_URI}/linux-${OKV}.tar.xz" UNIPATCH_LIST_DEFAULT="${DISTDIR}/patch-${KV_MAJOR}.${KV_PATCH}${RELEASE/-git*}.xz ${DISTDIR}/patch-${KV_MAJOR}.${KV_PATCH}${RELEASE}.xz" fi fi debug-print-kernel2-variables handle_genpatches } # @FUNCTION: kernel_is # @USAGE: # @DESCRIPTION: # user for comparing kernel versions # or just identifying a version # e.g kernel_is 2 4 # e.g kernel_is ge 4.8.11 # Note: duplicated in linux-info.eclass kernel_is() { # ALL of these should be set before we can safely continue this function. # some of the sources have in the past had only one set. local v n=0 for v in OKV KV_{MAJOR,MINOR,PATCH} ; do [[ -z ${!v} ]] && n=1 ; done [[ ${n} -eq 1 ]] && detect_version # Now we can continue local operator 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 [[ $# -gt 3 ]] && die "Error in ${ECLASS}_${FUNCNAME}(): too many parameters" ver_test \ "${KV_MAJOR:-0}.${KV_MINOR:-0}.${KV_PATCH:-0}" \ "${operator}" \ "${1:-${KV_MAJOR:-0}}.${2:-${KV_MINOR:-0}}.${3:-${KV_PATCH:-0}}" } # Capture the sources type and set DEPENDs if [[ ${ETYPE} == sources ]]; then RDEPEND="!build? ( app-arch/cpio dev-lang/perl sys-devel/bc sys-devel/bison sys-devel/flex sys-devel/make >=sys-libs/ncurses-5.2 virtual/libelf virtual/pkgconfig )" SLOT="${PVR}" DESCRIPTION="Sources based on the Linux Kernel" IUSE="symlink build" # Bug #266157, deblob for libre support if [[ -z ${K_PREDEBLOBBED} ]]; then if [[ ${K_DEBLOB_AVAILABLE} == 1 ]]; then IUSE="${IUSE} deblob" # Reflect that kernels contain firmware blobs unless otherwise # stripped. Starting with version 4.14, the whole firmware # tree has been dropped from the kernel. kernel_is lt 4 14 && LICENSE+=" !deblob? ( linux-fw-redistributable all-rights-reserved )" if [[ -n KV_MINOR ]]; then DEBLOB_PV="${KV_MAJOR}.${KV_MINOR}.${KV_PATCH}" else DEBLOB_PV="${KV_MAJOR}.${KV_PATCH}" fi if [[ ${KV_MAJOR} -ge 3 ]]; then DEBLOB_PV="${KV_MAJOR}.${KV_MINOR}" fi # deblob svn tag, default is -gnu, to change, use K_DEBLOB_TAG in ebuild K_DEBLOB_TAG=${K_DEBLOB_TAG:--gnu} DEBLOB_A="deblob-${DEBLOB_PV}" DEBLOB_CHECK_A="deblob-check-${DEBLOB_PV}" DEBLOB_HOMEPAGE="https://www.fsfla.org/svn/fsfla/software/linux-libre/releases/tags/" DEBLOB_URI_PATH="${DEBLOB_PV}${K_DEBLOB_TAG}" DEBLOB_CHECK_URI="${DEBLOB_HOMEPAGE}/${DEBLOB_URI_PATH}/deblob-check -> ${DEBLOB_CHECK_A}" DEBLOB_URI="${DEBLOB_HOMEPAGE}/${DEBLOB_URI_PATH}/${DEBLOB_A}" HOMEPAGE="${HOMEPAGE} ${DEBLOB_HOMEPAGE}" KERNEL_URI="${KERNEL_URI} deblob? ( ${DEBLOB_URI} ${DEBLOB_CHECK_URI} )" elif kernel_is lt 4 14; then # Deblobbing is not available, so just mark kernels older # than 4.14 as tainted with non-libre materials. LICENSE+=" linux-fw-redistributable all-rights-reserved" fi fi elif [[ ${ETYPE} == headers ]]; then DESCRIPTION="Linux system headers" IUSE="headers-only" # Since we should NOT honour KBUILD_OUTPUT in headers # lets unset it here. unset KBUILD_OUTPUT SLOT="0" fi # Cross-compile support functions # @FUNCTION: kernel_header_destdir # @USAGE: # @DESCRIPTION: # return header destination directory kernel_header_destdir() { [[ ${CTARGET} == ${CHOST} ]] \ && echo /usr/include \ || echo /usr/${CTARGET}/usr/include } # @FUNCTION: cross_pre_c_headers # @USAGE: # @DESCRIPTION: # set use if necessary for cross compile support cross_pre_c_headers() { use headers-only && [[ ${CHOST} != ${CTARGET} ]] } # @FUNCTION: env_setup_kernel_makeopts # @USAGE: # @DESCRIPTION: # Set the toolchain variables, as well as ARCH and CROSS_COMPILE when # cross-compiling. env_setup_kernel_makeopts() { # Kernel ARCH != portage ARCH export KARCH=$(tc-arch-kernel) # When cross-compiling, we need to set the ARCH/CROSS_COMPILE # variables properly or bad things happen ! KERNEL_MAKEOPTS=( ARCH="${KARCH}" ) if [[ ${CTARGET} != ${CHOST} ]] && ! cross_pre_c_headers; then KERNEL_MAKEOPTS+=( CROSS_COMPILE="${CTARGET}-" ) elif type -p ${CHOST}-ar >/dev/null; then KERNEL_MAKEOPTS+=( CROSS_COMPILE="${CHOST}-" ) fi KERNEL_MAKEOPTS+=( HOSTCC="$(tc-getBUILD_CC)" CC="$(tc-getCC)" LD="$(tc-getLD)" AR="$(tc-getAR)" NM="$(tc-getNM)" OBJCOPY="$(tc-getOBJCOPY)" READELF="$(tc-getREADELF)" STRIP="$(tc-getSTRIP)" ) export KERNEL_MAKEOPTS } # @FUNCTION: universal_unpack # @USAGE: # @DESCRIPTION: # unpack kernel sources universal_unpack() { debug-print "Inside universal_unpack" local OKV_ARRAY IFS="." read -r -a OKV_ARRAY <<<"${OKV}" cd "${WORKDIR}" || die if [[ ${#OKV_ARRAY[@]} -ge 3 && ${KV_MAJOR} -ge 3 ]]; then unpack linux-${KV_MAJOR}.${KV_MINOR}.tar.xz else unpack linux-${OKV}.tar.xz fi if [[ -d linux ]]; then debug-print "Moving linux to linux-${KV_FULL}" mv linux linux-${KV_FULL} \ || die "Unable to move source tree to ${KV_FULL}." elif [[ ${OKV} != ${KV_FULL} ]]; then if [[ ${#OKV_ARRAY[@]} -ge 3 && ${KV_MAJOR} -ge 3 ]] && [[ ${ETYPE} = sources ]]; then debug-print "moving linux-${KV_MAJOR}.${KV_MINOR} to linux-${KV_FULL} " mv linux-${KV_MAJOR}.${KV_MINOR} linux-${KV_FULL} \ || die "Unable to move source tree to ${KV_FULL}." else debug-print "moving linux-${OKV} to linux-${KV_FULL} " mv linux-${OKV} linux-${KV_FULL} \ || die "Unable to move source tree to ${KV_FULL}." fi elif [[ ${#OKV_ARRAY[@]} -ge 3 && ${KV_MAJOR} -ge 3 ]]; then mv linux-${KV_MAJOR}.${KV_MINOR} linux-${KV_FULL} \ || die "Unable to move source tree to ${KV_FULL}." fi cd "${S}" || die # remove all backup files find . -iname "*~" -exec rm {} \; 2>/dev/null } # @FUNCTION: unpack_set_extraversion # @USAGE: # @DESCRIPTION: # handle EXTRAVERSION unpack_set_extraversion() { sed -i -e "s:^\(EXTRAVERSION =\).*:\1 ${EXTRAVERSION}:" "${S}"/Makefile || die } # @FUNCTION: unpack_fix_install_path # @USAGE: # @DESCRIPTION: # Should be done after patches have been applied # Otherwise patches that modify the same area of Makefile will fail unpack_fix_install_path() { sed -i -e 's:#export\tINSTALL_PATH:export\tINSTALL_PATH:' "${S}"/Makefile || die } # install functions # @FUNCTION: install_universal # @USAGE: # @DESCRIPTION: # Fix permissions in tarball install_universal() { chown -R 0:0 "${WORKDIR}"/* &>/dev/null chmod -R a+r-w+X,u+w "${WORKDIR}"/* } # @FUNCTION: install_headers # @USAGE: # @DESCRIPTION: # Install headers install_headers() { local ddir=$(kernel_header_destdir) env_setup_kernel_makeopts emake headers_install INSTALL_HDR_PATH="${ED}"${ddir}/.. "${KERNEL_MAKEOPTS[@]}" # let other packages install some of these headers rm -rf "${ED}"${ddir}/scsi || die #glibc/uclibc/etc... return 0 } # @FUNCTION: install_sources # @USAGE: # @DESCRIPTION: # Install sources install_sources() { local file cd "${S}" || die dodir /usr/src einfo ">>> 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 cp -R "${WORKDIR}"/linux* "${ED}"/usr/src || die if [[ -n ${UNIPATCH_DOCS} ]]; then for i in ${UNIPATCH_DOCS}; do dodoc "${T}"/${i} done fi } # @FUNCTION: preinst_headers # @USAGE: # @DESCRIPTION: # Headers preinst steps preinst_headers() { local ddir=$(kernel_header_destdir) [[ -L ${EPREFIX}${ddir}/linux ]] && { rm "${EPREFIX}"${ddir}/linux || die; } [[ -L ${EPREFIX}${ddir}/asm ]] && { rm "${EPREFIX}"${ddir}/asm || die; } } # @FUNCTION: postinst_sources # @USAGE: # @DESCRIPTION: # Sources post installation function. # see inline comments postinst_sources() { # if we have USE=symlink, then force K_SYMLINK=1 use symlink && K_SYMLINK=1 # We do support security on a deblobbed kernel, bug #555878. # If some particular kernel version doesn't have security # supported because of USE=deblob or otherwise, one can still # set K_SECURITY_UNSUPPORTED on a per ebuild basis. #[[ ${K_DEBLOB_AVAILABLE} == 1 ]] && \ # use deblob && \ # K_SECURITY_UNSUPPORTED=deblob # if we are to forcibly symlink, delete it if it already exists first. if [[ ${K_SYMLINK} -gt 0 ]]; then if [[ -e ${EROOT}/usr/src/linux && ! -L ${EROOT}/usr/src/linux ]] ; then die "${EROOT}/usr/src/linux exists and is not a symlink" fi ln -snf linux-${KV_FULL} "${EROOT}"/usr/src/linux || die fi # Don't forget to make directory for sysfs [[ ! -d ${EROOT}/sys ]] && kernel_is 2 6 && { mkdir "${EROOT}"/sys || die ; } elog "If you are upgrading from a previous kernel, you may be interested" elog "in the following document:" elog " - General upgrade guide: https://wiki.gentoo.org/wiki/Kernel/Upgrade" # 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_EXTRAELOG is set then lets display it now if [[ -n ${K_EXTRAELOG} ]]; then echo ${K_EXTRAELOG} | fmt | while read -s ELINE; do elog "${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 # optionally display security unsupported message # Start with why if [[ -n ${K_SECURITY_UNSUPPORTED} ]]; then ewarn "${PN} is UNSUPPORTED by Gentoo Security." fi # And now the general message. if [[ -n ${K_SECURITY_UNSUPPORTED} ]]; then ewarn "This means that it is likely to be vulnerable to recent security issues." ewarn "Upstream kernel developers recommend always running the latest " ewarn "release of any current long term supported Linux kernel version." ewarn "To see a list of these versions, their most current release and " ewarn "long term support status, please go to https://www.kernel.org ." ewarn "For specific information on why this kernel is unsupported, please read:" ewarn "https://wiki.gentoo.org/wiki/Project:Kernel_Security" fi # warn sparc users that they need to do cross-compiling with >= 2.6.25(bug #214765) KV_MAJOR=$(ver_cut 1 ${OKV}) KV_MINOR=$(ver_cut 2 ${OKV}) KV_PATCH=$(ver_cut 3 ${OKV}) if [[ $(tc-arch) = sparc ]]; then if [[ $(gcc-major-version) -lt 4 && $(gcc-minor-version) -lt 4 ]]; then if [[ ${KV_MAJOR} -ge 3 ]] || ver_test ${KV_MAJOR}.${KV_MINOR}.${KV_PATCH} -gt 2.6.24; then elog "NOTE: Since 2.6.25 the kernel Makefile has changed in a way that" elog "you now need to do" elog " make CROSS_COMPILE=sparc64-unknown-linux-gnu-" elog "instead of just" elog " make" elog "to compile the kernel. For more information please browse to" elog "https://bugs.gentoo.org/show_bug.cgi?id=214765" fi fi fi } # pkg_setup functions # @FUNCTION: setup_headers # @USAGE: # @DESCRIPTION: # Determine if ${PN} supports arch 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 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 $(tc-arch)" fi } # @FUNCTION: unipatch # @USAGE: # @DESCRIPTION: # Universal function that will apply patches to source unipatch() { local i x y z extension PIPE_CMD UNIPATCH_DROP KPATCH_DIR PATCH_DEPTH ELINE local STRICT_COUNT PATCH_LEVEL myLC_ALL myLANG # set to a standard locale to ensure sorts are ordered properly. myLC_ALL="${LC_ALL}" myLANG="${LANG}" LC_ALL="C" LANG="" [[ -z ${KPATCH_DIR} ]] && KPATCH_DIR="${WORKDIR}/patches/" [[ ! -d ${KPATCH_DIR} ]] && mkdir -p ${KPATCH_DIR} # We're gonna need it when doing patches with a predefined patchlevel eshopts_push -s extglob # This function will unpack all passed tarballs, add any passed patches, # and remove any passed patchnumbers # usage can be either via an env var or by params # although due to the nature we pass this within this eclass # it shall be by param only. # -z "${UNIPATCH_LIST}" ] && UNIPATCH_LIST="${@}" UNIPATCH_LIST="${@}" #unpack any passed tarballs for i in ${UNIPATCH_LIST}; do if echo ${i} | grep -qs -e "\.tar" -e "\.tbz" -e "\.tgz"; then if [[ -n ${UNIPATCH_STRICTORDER} ]]; then unset z STRICT_COUNT=$((10#${STRICT_COUNT:=0} + 1)) for((y=0; y<$((6 - ${#STRICT_COUNT})); y++)); do z="${z}0"; done PATCH_ORDER="${z}${STRICT_COUNT}" mkdir -p "${KPATCH_DIR}/${PATCH_ORDER}" pushd "${KPATCH_DIR}/${PATCH_ORDER}" >/dev/null || die unpack ${i##*/} popd >/dev/null || die else pushd "${KPATCH_DIR}" >/dev/null || die unpack ${i##*/} popd >/dev/null || die fi [[ ${i} == *:* ]] && elog ">>> Strict patch levels not currently supported for tarballed patchsets" else extension=${i/*./} extension=${extension/:*/} PIPE_CMD="" case ${extension} in xz) PIPE_CMD="xz -T$(makeopts_jobs) -dc";; lzma) PIPE_CMD="lzma -dc";; 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=${x/\.${extension}/} if [[ -n ${PIPE_CMD} ]]; then if [[ ! -r ${i} ]]; then eerror "FATAL: unable to locate:" eerror "${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#${STRICT_COUNT:=0} + 1)) for((y=0; y<$((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}) || die "uncompressing patch failed" else $(${PIPE_CMD} ${i} > ${KPATCH_DIR}/${x}.patch${PATCH_LEVEL}) || die "uncompressing patch failed" fi fi fi # If experimental was not chosen by the user, drop experimental patches not in K_EXP_GENPATCHES_LIST. if [[ ${i} == *genpatches-*.experimental.* && -n ${K_EXP_GENPATCHES_PULL} ]]; then if [[ -z ${K_EXP_GENPATCHES_NOUSE} ]] && use experimental; then continue fi local j for j in ${KPATCH_DIR}/*/50*_*.patch*; do for k in ${K_EXP_GENPATCHES_LIST} ; do [[ $(basename ${j}) == ${k}* ]] && continue 2 done UNIPATCH_DROP+=" $(basename ${j})" done else UNIPATCH_LIST_GENPATCHES+=" ${DISTDIR}/${tarball}" debug-print "genpatches tarball: ${tarball}" local GCC_MAJOR_VER=$(gcc-major-version) local GCC_MINOR_VER=$(gcc-minor-version) # this section should be the target state to handle the cpu opt # patch for kernels > 4.19.189, 5.4.115, 5.10.33 and 5.11.17, # 5.12.0 and gcc >= 9 The patch now handles the # gcc version enabled on the system through the Kconfig file as # 'depends'. The legacy section can hopefully be retired in the future # Note the patch for 4.19-5.8 version are the same and the patch for # 5.8+ version is the same # eventually we can remove everything except the gcc ver <9 check # based on stablization, time, kernel removals or a combo of all three if ( kernel_is eq 4 19 && kernel_is gt 4 19 189 ) || ( kernel_is eq 5 4 && kernel_is gt 5 4 115 ) || ( kernel_is eq 5 10 && kernel_is gt 5 10 33 ) || ( kernel_is eq 5 11 && kernel_is gt 5 11 17 ) || ( kernel_is eq 5 12 && kernel_is gt 5 12 0 ) || ( kernel_is ge 5 13); then UNIPATCH_DROP+=" 5010_enable-additional-cpu-optimizations-for-gcc.patch" UNIPATCH_DROP+=" 5010_enable-additional-cpu-optimizations-for-gcc-4.9.patch" UNIPATCH_DROP+=" 5011_enable-cpu-optimizations-for-gcc8.patch" UNIPATCH_DROP+=" 5012_enable-cpu-optimizations-for-gcc91.patch" UNIPATCH_DROP+=" 5013_enable-cpu-optimizations-for-gcc10.patch" if [[ ${GCC_MAJOR_VER} -lt 9 ]] && ! tc-is-clang; then UNIPATCH_DROP+=" 5010_enable-cpu-optimizations-universal.patch" fi # this legacy section should be targeted for removal # optimization patch for gcc < 8.X and kernel > 4.13 and < 4.19 elif kernel_is ge 4 13; then UNIPATCH_DROP+=" 5010_enable-cpu-optimizations-universal.patch" if [[ ${GCC_MAJOR_VER} -lt 8 && ${GCC_MAJOR_VER} -gt 4 ]]; then UNIPATCH_DROP+=" 5011_enable-cpu-optimizations-for-gcc8.patch" UNIPATCH_DROP+=" 5012_enable-cpu-optimizations-for-gcc91.patch" UNIPATCH_DROP+=" 5013_enable-cpu-optimizations-for-gcc10.patch" # optimization patch for gcc >= 8 and kernel ge 4.13 elif [[ ${GCC_MAJOR_VER} -eq 8 ]]; then # support old kernels for a period. For now, remove as all gcc versions required are masked UNIPATCH_DROP+=" 5010_enable-additional-cpu-optimizations-for-gcc.patch" UNIPATCH_DROP+=" 5010_enable-additional-cpu-optimizations-for-gcc-4.9.patch" UNIPATCH_DROP+=" 5012_enable-cpu-optimizations-for-gcc91.patch" UNIPATCH_DROP+=" 5013_enable-cpu-optimizations-for-gcc10.patch" elif [[ ${GCC_MAJOR_VER} -eq 9 && ${GCC_MINOR_VER} -ge 1 ]]; then UNIPATCH_DROP+=" 5010_enable-additional-cpu-optimizations-for-gcc.patch" UNIPATCH_DROP+=" 5010_enable-additional-cpu-optimizations-for-gcc-4.9.patch" UNIPATCH_DROP+=" 5011_enable-cpu-optimizations-for-gcc8.patch" UNIPATCH_DROP+=" 5013_enable-cpu-optimizations-for-gcc10.patch" elif [[ ${GCC_MAJOR_VER} -eq 10 && ${GCC_MINOR_VER} -ge 1 ]]; then UNIPATCH_DROP+=" 5010_enable-additional-cpu-optimizations-for-gcc.patch" UNIPATCH_DROP+=" 5010_enable-additional-cpu-optimizations-for-gcc-4.9.patch" UNIPATCH_DROP+=" 5011_enable-cpu-optimizations-for-gcc8.patch" UNIPATCH_DROP+=" 5012_enable-cpu-optimizations-for-gcc91.patch" else UNIPATCH_DROP+=" 5010_enable-additional-cpu-optimizations-for-gcc.patch" UNIPATCH_DROP+=" 5010_enable-additional-cpu-optimizations-for-gcc-4.9.patch" UNIPATCH_DROP+=" 5011_enable-cpu-optimizations-for-gcc8.patch" UNIPATCH_DROP+=" 5012_enable-cpu-optimizations-for-gcc91.patch" UNIPATCH_DROP+=" 5013_enable-cpu-optimizations-for-gcc10.patch" fi else UNIPATCH_DROP+=" 5010_enable-cpu-optimizations-universal.patch" UNIPATCH_DROP+=" 5010_enable-additional-cpu-optimizations-for-gcc.patch" UNIPATCH_DROP+=" 5010_enable-additional-cpu-optimizations-for-gcc-4.9.patch" UNIPATCH_DROP+=" 5011_enable-cpu-optimizations-for-gcc8.patch" UNIPATCH_DROP+=" 5012_enable-cpu-optimizations-for-gcc91.patch" UNIPATCH_DROP+=" 5013_enable-cpu-optimizations-for-gcc10.patch" fi fi done # Populate KPATCH_DIRS so we know where to look to remove the excludes x=${KPATCH_DIR} KPATCH_DIR="" for i in $(find ${x} -type d | sort -n); do KPATCH_DIR="${KPATCH_DIR} ${i}" done # So now lets get rid of the patch numbers we want to exclude UNIPATCH_DROP="${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 #################################################################### # IMPORTANT: This code is to support kernels which cannot be # # tested with the --dry-run parameter # # # # These patches contain a removal of a symlink, followed by # # addition of a file with the same name as the symlink in the # # same location; this causes the dry-run to fail, see bug #507656. # # # # https://bugs.gentoo.org/507656 # #################################################################### if [[ -n ${K_NODRYRUN} ]]; then ebegin "Applying ${i/*\//} (-p1)" patch -p1 --no-backup-if-mismatch -f < ${i} >> ${STDERR_T} if [[ $? -le 2 ]]; then eend 0 rm ${STDERR_T} || die else eend 1 eerror "Failed to apply patch ${i/*\//}" eerror "Please attach ${STDERR_T} to any bug you may post." eshopts_pop die "Failed to apply ${i/*\//} on patch depth 1." fi fi #################################################################### while [[ ${PATCH_DEPTH} -lt 5 && -z ${K_NODRYRUN} ]]; do echo "Attempting Dry-run:" >> ${STDERR_T} echo "cmd: patch -p${PATCH_DEPTH} --no-backup-if-mismatch --dry-run -f < ${i}" >> ${STDERR_T} echo "=======================================================" >> ${STDERR_T} patch -p${PATCH_DEPTH} --no-backup-if-mismatch --dry-run -f < ${i} >> ${STDERR_T} if [[ $? -eq 0 ]]; then ebegin "Applying ${i/*\//} (-p${PATCH_DEPTH})" echo "Attempting patch:" > ${STDERR_T} echo "cmd: patch -p${PATCH_DEPTH} --no-backup-if-mismatch -f < ${i}" >> ${STDERR_T} echo "=======================================================" >> ${STDERR_T} patch -p${PATCH_DEPTH} --no-backup-if-mismatch -f < ${i} >> ${STDERR_T} if [[ $? -eq 0 ]]; then eend 0 rm ${STDERR_T} || die break else eend 1 eerror "Failed to apply patch ${i/*\//}" eerror "Please attach ${STDERR_T} to any bug you may post." eshopts_pop die "Failed to apply ${i/*\//} on patch depth ${PATCH_DEPTH}." fi else PATCH_DEPTH=$((${PATCH_DEPTH} + 1)) fi done if [[ ${PATCH_DEPTH} -eq 5 ]]; then eerror "Failed to dry-run patch ${i/*\//}" eerror "Please attach ${STDERR_T} to any bug you may post." eshopts_pop die "Unable to dry-run patch on any patch depth lower than 5." fi done done # When genpatches is used, we want to install 0000_README which documents # the patches that were used; such that the user can see them, bug #301478. if [[ ! -z ${K_WANT_GENPATCHES} ]]; then UNIPATCH_DOCS="${UNIPATCH_DOCS} 0000_README" fi # When files listed in UNIPATCH_DOCS are found in KPATCH_DIR's, we copy it # to the temporary directory and remember them in UNIPATCH_DOCS to install # them during the install phase. local tmp for x in ${KPATCH_DIR}; do for i in ${UNIPATCH_DOCS}; do if [[ -f ${x}/${i} ]]; then tmp="${tmp} ${i}" cp -f "${x}/${i}" "${T}"/ || die fi done done UNIPATCH_DOCS="${tmp}" # clean up KPATCH_DIR's - fixes bug #53610 for x in ${KPATCH_DIR}; do rm -Rf ${x}; done LC_ALL="${myLC_ALL}" LANG="${myLANG}" eshopts_pop } # @FUNCTION: getfilevar # @USAGE: # @DESCRIPTION: # pulled from linux-info getfilevar() { local basefname basedname xarch=$(tc-arch-kernel) if [[ -z ${1} && ! -f ${2} ]]; then eerror "getfilevar requires 2 variables, with the second a valid file." eerror " getfilevar " else basefname=$(basename ${2}) basedname=$(dirname ${2}) unset ARCH echo -e "include ${basefname}\ne:\n\t@echo \$(${1})" | make -C "${basedname}" ${BUILD_FIXES} -s -f - e 2>/dev/null ARCH=${xarch} fi } # @FUNCTION: detect_arch # @USAGE: # @DESCRIPTION: # This function sets ARCH_URI and ARCH_PATCH # with the necessary info for the arch specific compatibility # patchsets. detect_arch() { local ALL_ARCH LOOP_ARCH LOOP_ARCH_L COMPAT_URI i TC_ARCH_KERNEL # 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="" TC_ARCH_KERNEL="" ALL_ARCH="ALPHA AMD64 ARM HPPA IA64 M68K MIPS PPC PPC64 S390 SH SPARC X86" for LOOP_ARCH in ${ALL_ARCH}; do COMPAT_URI="${LOOP_ARCH}_URI" COMPAT_URI="${!COMPAT_URI}" declare -l LOOP_ARCH_L=${LOOP_ARCH} [[ -n ${COMPAT_URI} ]] && \ ARCH_URI="${ARCH_URI} ${LOOP_ARCH_L}? ( ${COMPAT_URI} )" declare -u TC_ARCH_KERNEL=$(tc-arch-kernel) if [[ ${LOOP_ARCH} == ${TC_ARCH_KERNEL} ]]; then for i in ${COMPAT_URI}; do ARCH_PATCH="${ARCH_PATCH} ${DISTDIR}/${i/*\//}" done fi done } # @FUNCTION: headers___fix # @USAGE: # @DESCRIPTION: # Voodoo to partially fix broken upstream headers. # note: do not put inline/asm/volatile together (breaks "inline asm volatile") headers___fix() { sed -i \ -e '/^\#define.*_TYPES_H/{:loop n; bloop}' \ -e 's:\<\([us]\(8\|16\|32\|64\)\)\>:__\1:g' \ -e "s/\([[:space:]]\)inline\([[:space:](]\)/\1__inline__\2/g" \ -e "s/\([[:space:]]\)asm\([[:space:](]\)/\1__asm__\2/g" \ -e "s/\([[:space:]]\)volatile\([[:space:](]\)/\1__volatile__\2/g" \ "$@" } # @FUNCTION: kernel-2_src_unpack # @USAGE: # @DESCRIPTION: # unpack sources, handle genpatches, deblob kernel-2_src_unpack() { universal_unpack debug-print "Doing unipatch" # request UNIPATCH_LIST_GENPATCHES in phase since it calls 'use' handle_genpatches --set-unipatch-list [[ -n ${UNIPATCH_LIST} || -n ${UNIPATCH_LIST_DEFAULT} || -n ${UNIPATCH_LIST_GENPATCHES} ]] && \ unipatch "${UNIPATCH_LIST_DEFAULT} ${UNIPATCH_LIST_GENPATCHES} ${UNIPATCH_LIST}" debug-print "Doing premake" # allow ebuilds to massage the source tree after patching but before # we run misc `make` functions below if [[ $(type -t kernel-2_hook_premake) == "function" ]]; then ewarn "The function name: kernel-2_hook_premake is being deprecated and" ewarn "being changed to: kernel-2_insert_premake to comply with pms policy." ewarn "See bug #843686 " ewarn "The call to the old function name will be removed on or about July 1st, 2022 " ewarn "Please update your ebuild before this date." kernel-2_hook_premake else [[ $(type -t kernel-2_insert_premake) == "function" ]] && kernel-2_insert_premake fi debug-print "Doing unpack_set_extraversion" [[ -z ${K_NOSETEXTRAVERSION} ]] && unpack_set_extraversion unpack_fix_install_path # Setup KERNEL_MAKEOPTS and cd into sourcetree. env_setup_kernel_makeopts cd "${S}" || die if [[ ${K_DEBLOB_AVAILABLE} == 1 ]] && use deblob; then cp "${DISTDIR}/${DEBLOB_A}" "${T}" || die "cp ${DEBLOB_A} failed" cp "${DISTDIR}/${DEBLOB_CHECK_A}" "${T}/deblob-check" || die "cp ${DEBLOB_CHECK_A} failed" chmod +x "${T}/${DEBLOB_A}" "${T}/deblob-check" || die "chmod deblob scripts failed" fi # fix a problem on ppc where TOUT writes to /usr/src/linux breaking sandbox # only do this for kernel < 2.6.27 since this file does not exist in later # kernels if [[ -n ${KV_MINOR} ]] && ver_test ${KV_MAJOR}.${KV_MINOR}.${KV_PATCH} -lt 2.6.27; then sed -i \ -e 's|TOUT := .tmp_gas_check|TOUT := $(T).tmp_gas_check|' \ "${S}"/arch/ppc/Makefile else sed -i \ -e 's|TOUT := .tmp_gas_check|TOUT := $(T).tmp_gas_check|' \ "${S}"/arch/powerpc/Makefile fi } # @FUNCTION: kernel-2_src_prepare # @USAGE: # @DESCRIPTION: # Apply any user patches kernel-2_src_prepare() { debug-print "Applying any user patches" eapply_user } # @FUNCTION: kernel-2_src_compile # @USAGE: # @DESCRIPTION: # conpile headers or run deblob script kernel-2_src_compile() { cd "${S}" || die if [[ ${K_DEBLOB_AVAILABLE} == 1 ]] && use deblob; then einfo ">>> Patching deblob script for forcing awk ..." sed -i '/check="\/bin\/sh $check"/a \ check="$check --use-awk"' \ "${T}/${DEBLOB_A}" || die "Failed to patch ${DEBLOB_A}" einfo ">>> Running deblob script ..." sh "${T}/${DEBLOB_A}" --force || die "Deblob script failed to run!!!" fi } # @FUNCTION: kernel-2_src_test # @USAGE: # @DESCRIPTION: # if you leave it to the default src_test, it will run make to # find whether test/check targets are present; since "make test" # actually produces a few support files, they are installed even # though the package is binchecks-restricted. # # Avoid this altogether by making the function moot. kernel-2_src_test() { :; } # @FUNCTION: kernel-2_pkg_preinst # @DESCRIPTION: # if ETYPE = headers, call preinst_headers kernel-2_pkg_preinst() { [[ ${ETYPE} == headers ]] && preinst_headers } # @FUNCTION: kernel-2_src_install # @USAGE: # @DESCRIPTION: # Install headers or sources dependent on ETYPE kernel-2_src_install() { install_universal [[ ${ETYPE} == headers ]] && install_headers [[ ${ETYPE} == sources ]] && install_sources } # @FUNCTION: kernel-2_pkg_postinst # @USAGE: # @DESCRIPTION: # call postinst_sources for ETYPE = sources kernel-2_pkg_postinst() { [[ ${ETYPE} == sources ]] && postinst_sources } # @FUNCTION: kernel-2_pkg_setup # @USAGE: # @DESCRIPTION: # check for supported kernel version, die if ETYPE is unknown, call setup_headers # if necessary kernel-2_pkg_setup() { ABI="${KERNEL_ABI}" if [[ ${ETYPE} != sources && ${ETYPE} != headers ]]; then eerror "Unknown ETYPE=\"${ETYPE}\", must be \"sources\" or \"headers\"" die "Unknown ETYPE=\"${ETYPE}\", must be \"sources\" or \"headers\"" fi [[ ${ETYPE} == headers ]] && setup_headers [[ ${ETYPE} == sources ]] && einfo ">>> Preparing to unpack ..." } # @FUNCTION: kernel-2_pkg_postrm # @USAGE: # @DESCRIPTION: # Notify the user that after a depclean, there may be sources # left behind that need to be manually cleaned kernel-2_pkg_postrm() { # This warning only makes sense for kernel sources. [[ ${ETYPE} == headers ]] && return 0 # If there isn't anything left behind, then don't complain. [[ -e ${EROOT}/usr/src/linux-${KV_FULL} ]] || return 0 ewarn "Note: Even though you have successfully unmerged " ewarn "your kernel package, directories in kernel source location: " ewarn "${EROOT}/usr/src/linux-${KV_FULL}" ewarn "with modified files will remain behind. By design, package managers" ewarn "will not remove these modified files and the directories they reside in." ewarn "For more detailed kernel removal instructions, please see: " ewarn "https://wiki.gentoo.org/wiki/Kernel/Removal" } EXPORT_FUNCTIONS src_{unpack,prepare,compile,install,test} \ pkg_{setup,preinst,postinst,postrm}