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# remove tasks that modify the source tree in case externalsrc is inherited
SRCTREECOVEREDTASKS += "do_kernel_link_vmlinux do_kernel_configme do_validate_branches do_kernel_configcheck do_kernel_checkout do_shared_workdir do_fetch do_unpack do_patch"
# returns local (absolute) path names for all valid patches in the
# src_uri
def find_patches(d):
patches = src_patches(d)
patch_list=[]
for p in patches:
_, _, local, _, _, _ = bb.fetch.decodeurl(p)
patch_list.append(local)
return patch_list
# returns all the elements from the src uri that are .scc files
def find_sccs(d):
sources=src_patches(d, True)
sources_list=[]
for s in sources:
base, ext = os.path.splitext(os.path.basename(s))
if ext and ext in [".scc", ".cfg"]:
sources_list.append(s)
elif base and base in 'defconfig':
sources_list.append(s)
return sources_list
# check the SRC_URI for "kmeta" type'd git repositories. Return the name of
# the repository as it will be found in WORKDIR
def find_kernel_feature_dirs(d):
feature_dirs=[]
fetch = bb.fetch2.Fetch([], d)
for url in fetch.urls:
urldata = fetch.ud[url]
parm = urldata.parm
type=""
if "type" in parm:
type = parm["type"]
if "destsuffix" in parm:
destdir = parm["destsuffix"]
if type == "kmeta":
feature_dirs.append(destdir)
return feature_dirs
# find the master/machine source branch. In the same way that the fetcher proceses
# git repositories in the SRC_URI we take the first repo found, first branch.
def get_machine_branch(d, default):
fetch = bb.fetch2.Fetch([], d)
for url in fetch.urls:
urldata = fetch.ud[url]
parm = urldata.parm
if "branch" in parm:
branches = urldata.parm.get("branch").split(',')
return branches[0]
return default
do_kernel_metadata() {
set +e
cd ${S}
export KMETA=${KMETA}
# if kernel tools are available in-tree, they are preferred
# and are placed on the path before any external tools. Unless
# the external tools flag is set, in that case we do nothing.
if [ -f "${S}/scripts/util/configme" ]; then
if [ -z "${EXTERNAL_KERNEL_TOOLS}" ]; then
PATH=${S}/scripts/util:${PATH}
fi
fi
machine_branch="${@ get_machine_branch(d, "${KBRANCH}" )}"
machine_srcrev="${SRCREV_machine}"
if [ -z "${machine_srcrev}" ]; then
# fallback to SRCREV if a non machine_meta tree is being built
machine_srcrev="${SRCREV}"
fi
# In a similar manner to the kernel itself:
#
# defconfig: $(obj)/conf
# ifeq ($(KBUILD_DEFCONFIG),)
# $< --defconfig $(Kconfig)
# else
# @echo "*** Default configuration is based on '$(KBUILD_DEFCONFIG)'"
# $(Q)$< --defconfig=arch/$(SRCARCH)/configs/$(KBUILD_DEFCONFIG) $(Kconfig)
# endif
#
# If a defconfig is specified via the KBUILD_DEFCONFIG variable, we copy it
# from the source tree, into a common location and normalized "defconfig" name,
# where the rest of the process will include and incoroporate it into the build
#
# If the fetcher has already placed a defconfig in WORKDIR (from the SRC_URI),
# we don't overwrite it, but instead warn the user that SRC_URI defconfigs take
# precendence.
#
if [ -n "${KBUILD_DEFCONFIG}" ]; then
if [ -f "${S}/arch/${ARCH}/configs/${KBUILD_DEFCONFIG}" ]; then
if [ -f "${WORKDIR}/defconfig" ]; then
# If the two defconfig's are different, warn that we didn't overwrite the
# one already placed in WORKDIR by the fetcher.
cmp "${WORKDIR}/defconfig" "${S}/arch/${ARCH}/configs/${KBUILD_DEFCONFIG}"
if [ $? -ne 0 ]; then
bbwarn "defconfig detected in WORKDIR. ${KBUILD_DEFCONFIG} skipped"
fi
else
cp -f ${S}/arch/${ARCH}/configs/${KBUILD_DEFCONFIG} ${WORKDIR}/defconfig
sccs="${WORKDIR}/defconfig"
fi
else
bbfatal "A KBUILD_DECONFIG '${KBUILD_DEFCONFIG}' was specified, but not present in the source tree"
fi
fi
sccs="$sccs ${@" ".join(find_sccs(d))}"
patches="${@" ".join(find_patches(d))}"
feat_dirs="${@" ".join(find_kernel_feature_dirs(d))}"
# add any explicitly referenced features onto the end of the feature
# list that is passed to the kernel build scripts.
if [ -n "${KERNEL_FEATURES}" ]; then
for feat in ${KERNEL_FEATURES}; do
addon_features="$addon_features --feature $feat"
done
fi
# check for feature directories/repos/branches that were part of the
# SRC_URI. If they were supplied, we convert them into include directives
# for the update part of the process
if [ -n "${feat_dirs}" ]; then
for f in ${feat_dirs}; do
if [ -d "${WORKDIR}/$f/meta" ]; then
includes="$includes -I${WORKDIR}/$f/meta"
elif [ -d "${WORKDIR}/$f" ]; then
includes="$includes -I${WORKDIR}/$f"
fi
done
fi
# updates or generates the target description
updateme ${updateme_flags} -DKDESC=${KMACHINE}:${LINUX_KERNEL_TYPE} \
${includes} ${addon_features} ${ARCH} ${KMACHINE} ${sccs} ${patches}
if [ $? -ne 0 ]; then
bbfatal_log "Could not update ${machine_branch}"
fi
}
do_patch() {
cd ${S}
# executes and modifies the source tree as required
patchme ${KMACHINE}
if [ $? -ne 0 ]; then
bberror "Could not apply patches for ${KMACHINE}."
bbfatal_log "Patch failures can be resolved in the linux source directory ${S})"
fi
# check to see if the specified SRCREV is reachable from the final branch.
# if it wasn't something wrong has happened, and we should error.
machine_srcrev="${SRCREV_machine}"
if [ -z "${machine_srcrev}" ]; then
# fallback to SRCREV if a non machine_meta tree is being built
machine_srcrev="${SRCREV}"
# if SRCREV cannot be reached something is wrong.
if [ -z "${machine_srcrev}" ]; then
bbfatal "Neither SRCREV_machine or SRCREV was specified!"
fi
fi
if [ "${machine_srcrev}" != "AUTOINC" ]; then
if ! [ "$(git rev-parse --verify ${machine_srcrev}~0)" = "$(git merge-base ${machine_srcrev} HEAD)" ]; then
bberror "SRCREV ${machine_srcrev} was specified, but is not reachable"
bbfatal "Check the BSP description for incorrect branch selection, or other errors."
fi
fi
}
do_kernel_checkout() {
set +e
source_dir=`echo ${S} | sed 's%/$%%'`
source_workdir="${WORKDIR}/git"
if [ -d "${WORKDIR}/git/" ]; then
# case: git repository (bare or non-bare)
# if S is WORKDIR/git, then we shouldn't be moving or deleting the tree.
if [ "${source_dir}" != "${source_workdir}" ]; then
rm -rf ${S}
mv ${WORKDIR}/git ${S}
fi
cd ${S}
else
# case: we have no git repository at all.
# To support low bandwidth options for building the kernel, we'll just
# convert the tree to a git repo and let the rest of the process work unchanged
# if ${S} hasn't been set to the proper subdirectory a default of "linux" is
# used, but we can't initialize that empty directory. So check it and throw a
# clear error
cd ${S}
if [ ! -f "Makefile" ]; then
bberror "S is not set to the linux source directory. Check "
bbfatal "the recipe and set S to the proper extracted subdirectory"
fi
rm -f .gitignore
git init
git add .
git commit -q -m "baseline commit: creating repo for ${PN}-${PV}"
git clean -d -f
fi
# convert any remote branches to local tracking ones
for i in `git branch -a --no-color | grep remotes | grep -v HEAD`; do
b=`echo $i | cut -d' ' -f2 | sed 's%remotes/origin/%%'`;
git show-ref --quiet --verify -- "refs/heads/$b"
if [ $? -ne 0 ]; then
git branch $b $i > /dev/null
fi
done
# Create a working tree copy of the kernel by checking out a branch
machine_branch="${@ get_machine_branch(d, "${KBRANCH}" )}"
# checkout and clobber any unimportant files
git checkout -f ${machine_branch}
}
do_kernel_checkout[dirs] = "${S}"
addtask kernel_checkout before do_kernel_metadata after do_unpack
addtask kernel_metadata after do_validate_branches do_unpack before do_patch
do_kernel_metadata[depends] = "kern-tools-native:do_populate_sysroot"
do_kernel_configme[dirs] += "${S} ${B}"
do_kernel_configme() {
bbnote "kernel configme"
export KMETA=${KMETA}
if [ -n "${KCONFIG_MODE}" ]; then
configmeflags=${KCONFIG_MODE}
else
# If a defconfig was passed, use =n as the baseline, which is achieved
# via --allnoconfig
if [ -f ${WORKDIR}/defconfig ]; then
configmeflags="--allnoconfig"
fi
fi
cd ${S}
PATH=${PATH}:${S}/scripts/util
configme ${configmeflags} --reconfig --output ${B} ${LINUX_KERNEL_TYPE} ${KMACHINE}
if [ $? -ne 0 ]; then
bbfatal_log "Could not configure ${KMACHINE}-${LINUX_KERNEL_TYPE}"
fi
echo "# Global settings from linux recipe" >> ${B}/.config
echo "CONFIG_LOCALVERSION="\"${LINUX_VERSION_EXTENSION}\" >> ${B}/.config
}
addtask kernel_configme before do_configure after do_patch
python do_kernel_configcheck() {
import re, string, sys
# if KMETA isn't set globally by a recipe using this routine, we need to
# set the default to 'meta'. Otherwise, kconf_check is not passed a valid
# meta-series for processing
kmeta = d.getVar( "KMETA", True ) or "meta"
if not os.path.exists(kmeta):
kmeta = "." + kmeta
pathprefix = "export PATH=%s:%s; " % (d.getVar('PATH', True), "${S}/scripts/util/")
cmd = d.expand("cd ${S}; kconf_check -config %s/meta-series ${S} ${B}" % kmeta)
ret, result = oe.utils.getstatusoutput("%s%s" % (pathprefix, cmd))
config_check_visibility = int(d.getVar( "KCONF_AUDIT_LEVEL", True ) or 0)
bsp_check_visibility = int(d.getVar( "KCONF_BSP_AUDIT_LEVEL", True ) or 0)
# if config check visibility is non-zero, report dropped configuration values
mismatch_file = "${S}/" + kmeta + "/" + "mismatch.cfg"
if os.path.exists(mismatch_file):
if config_check_visibility:
with open (mismatch_file, "r") as myfile:
results = myfile.read()
bb.warn( "[kernel config]: specified values did not make it into the kernel's final configuration:\n\n%s" % results)
# if config check visibility is level 2 or higher, report non-hardware options
nonhw_file = "${S}/" + kmeta + "/" + "nonhw_report.cfg"
if os.path.exists(nonhw_file):
if config_check_visibility > 1:
with open (nonhw_file, "r") as myfile:
results = myfile.read()
bb.warn( "[kernel config]: BSP specified non-hw configuration:\n\n%s" % results)
bsp_desc = "${S}/" + kmeta + "/" + "top_tgt"
if os.path.exists(bsp_desc) and bsp_check_visibility > 1:
with open (bsp_desc, "r") as myfile:
bsp_tgt = myfile.read()
m = re.match("^(.*)scratch.obj(.*)$", bsp_tgt)
if not m is None:
bb.warn( "[kernel]: An auto generated BSP description was used, this normally indicates a misconfiguration.\n" +
"Check that your machine (%s) has an associated kernel description." % "${MACHINE}" )
}
# Ensure that the branches (BSP and meta) are on the locations specified by
# their SRCREV values. If they are NOT on the right commits, the branches
# are corrected to the proper commit.
do_validate_branches() {
set +e
cd ${S}
machine_branch="${@ get_machine_branch(d, "${KBRANCH}" )}"
machine_srcrev="${SRCREV_machine}"
# if SRCREV is AUTOREV it shows up as AUTOINC there's nothing to
# check and we can exit early
if [ "${machine_srcrev}" = "AUTOINC" ]; then
bbnote "SRCREV validation is not required for AUTOREV"
elif [ "${machine_srcrev}" = "" ]; then
if [ "${SRCREV}" != "AUTOINC" ] && [ "${SRCREV}" != "INVALID" ]; then
# SRCREV_machine_<MACHINE> was not set. This means that a custom recipe
# that doesn't use the SRCREV_FORMAT "machine_meta" is being built. In
# this case, we need to reset to the give SRCREV before heading to patching
bbnote "custom recipe is being built, forcing SRCREV to ${SRCREV}"
force_srcrev="${SRCREV}"
fi
else
git cat-file -t ${machine_srcrev} > /dev/null
if [ $? -ne 0 ]; then
bberror "${machine_srcrev} is not a valid commit ID."
bbfatal_log "The kernel source tree may be out of sync"
fi
force_srcrev=${machine_srcrev}
fi
git checkout -q -f ${machine_branch}
if [ -n "${force_srcrev}" ]; then
# see if the branch we are about to patch has been properly reset to the defined
# SRCREV .. if not, we reset it.
branch_head=`git rev-parse HEAD`
if [ "${force_srcrev}" != "${branch_head}" ]; then
current_branch=`git rev-parse --abbrev-ref HEAD`
git branch "$current_branch-orig"
git reset --hard ${force_srcrev}
fi
fi
}
# Many scripts want to look in arch/$arch/boot for the bootable
# image. This poses a problem for vmlinux based booting. This
# task arranges to have vmlinux appear in the normalized directory
# location.
do_kernel_link_vmlinux() {
if [ ! -d "${B}/arch/${ARCH}/boot" ]; then
mkdir ${B}/arch/${ARCH}/boot
fi
cd ${B}/arch/${ARCH}/boot
ln -sf ../../../vmlinux
}
OE_TERMINAL_EXPORTS += "KBUILD_OUTPUT"
KBUILD_OUTPUT = "${B}"
python () {
# If diffconfig is available, ensure it runs after kernel_configme
if 'do_diffconfig' in d:
bb.build.addtask('do_diffconfig', None, 'do_kernel_configme', d)
}
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