citadel/meta/classes/buildhistory.bbclass

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#
# Records history of build output in order to detect regressions
#
# Based in part on testlab.bbclass and packagehistory.bbclass
#
# Copyright (C) 2011-2016 Intel Corporation
# Copyright (C) 2007-2011 Koen Kooi <koen@openembedded.org>
#
BUILDHISTORY_FEATURES ?= "image package sdk"
BUILDHISTORY_DIR ?= "${TOPDIR}/buildhistory"
BUILDHISTORY_DIR_IMAGE = "${BUILDHISTORY_DIR}/images/${MACHINE_ARCH}/${TCLIBC}/${IMAGE_BASENAME}"
BUILDHISTORY_DIR_PACKAGE = "${BUILDHISTORY_DIR}/packages/${MULTIMACH_TARGET_SYS}/${PN}"
# Setting this to non-empty will remove the old content of the buildhistory as part of
# the current bitbake invocation and replace it with information about what was built
# during the build.
#
# This is meant to be used in continuous integration (CI) systems when invoking bitbake
# for full world builds. The effect in that case is that information about packages
# that no longer get build also gets removed from the buildhistory, which is not
# the case otherwise.
#
# The advantage over manually cleaning the buildhistory outside of bitbake is that
# the "version-going-backwards" check still works. When relying on that, be careful
# about failed world builds: they will lead to incomplete information in the
# buildhistory because information about packages that could not be built will
# also get removed. A CI system should handle that by discarding the buildhistory
# of failed builds.
#
# The expected usage is via auto.conf, but passing via the command line also works
# with: BB_ENV_EXTRAWHITE=BUILDHISTORY_RESET BUILDHISTORY_RESET=1
BUILDHISTORY_RESET ?= ""
BUILDHISTORY_OLD_DIR = "${BUILDHISTORY_DIR}/${@ "old" if "${BUILDHISTORY_RESET}" else ""}"
BUILDHISTORY_OLD_DIR_PACKAGE = "${BUILDHISTORY_OLD_DIR}/packages/${MULTIMACH_TARGET_SYS}/${PN}"
BUILDHISTORY_DIR_SDK = "${BUILDHISTORY_DIR}/sdk/${SDK_NAME}${SDK_EXT}/${IMAGE_BASENAME}"
BUILDHISTORY_IMAGE_FILES ?= "/etc/passwd /etc/group"
BUILDHISTORY_SDK_FILES ?= "conf/local.conf conf/bblayers.conf conf/auto.conf conf/locked-sigs.inc conf/devtool.conf"
BUILDHISTORY_COMMIT ?= "1"
BUILDHISTORY_COMMIT_AUTHOR ?= "buildhistory <buildhistory@${DISTRO}>"
BUILDHISTORY_PUSH_REPO ?= ""
SSTATEPOSTINSTFUNCS_append = " buildhistory_emit_pkghistory"
# We want to avoid influencing the signatures of sstate tasks - first the function itself:
sstate_install[vardepsexclude] += "buildhistory_emit_pkghistory"
# then the value added to SSTATEPOSTINSTFUNCS:
SSTATEPOSTINSTFUNCS[vardepvalueexclude] .= "| buildhistory_emit_pkghistory"
# Similarly for our function that gets the output signatures
SSTATEPOSTUNPACKFUNCS_append = " buildhistory_emit_outputsigs"
sstate_installpkgdir[vardepsexclude] += "buildhistory_emit_outputsigs"
SSTATEPOSTUNPACKFUNCS[vardepvalueexclude] .= "| buildhistory_emit_outputsigs"
# All items excepts those listed here will be removed from a recipe's
# build history directory by buildhistory_emit_pkghistory(). This is
# necessary because some of these items (package directories, files that
# we no longer emit) might be obsolete.
#
# When extending build history, derive your class from buildhistory.bbclass
# and extend this list here with the additional files created by the derived
# class.
BUILDHISTORY_PRESERVE = "latest latest_srcrev"
PATCH_GIT_USER_EMAIL ?= "buildhistory@oe"
PATCH_GIT_USER_NAME ?= "OpenEmbedded"
#
# Write out metadata about this package for comparison when writing future packages
#
python buildhistory_emit_pkghistory() {
if not d.getVar('BB_CURRENTTASK') in ['packagedata', 'packagedata_setscene']:
return 0
if not "package" in (d.getVar('BUILDHISTORY_FEATURES') or "").split():
return 0
import re
import json
import errno
pkghistdir = d.getVar('BUILDHISTORY_DIR_PACKAGE')
oldpkghistdir = d.getVar('BUILDHISTORY_OLD_DIR_PACKAGE')
class RecipeInfo:
def __init__(self, name):
self.name = name
self.pe = "0"
self.pv = "0"
self.pr = "r0"
self.depends = ""
self.packages = ""
self.srcrev = ""
self.layer = ""
class PackageInfo:
def __init__(self, name):
self.name = name
self.pe = "0"
self.pv = "0"
self.pr = "r0"
# pkg/pkge/pkgv/pkgr should be empty because we want to be able to default them
self.pkg = ""
self.pkge = ""
self.pkgv = ""
self.pkgr = ""
self.size = 0
self.depends = ""
self.rprovides = ""
self.rdepends = ""
self.rrecommends = ""
self.rsuggests = ""
self.rreplaces = ""
self.rconflicts = ""
self.files = ""
self.filelist = ""
# Variables that need to be written to their own separate file
self.filevars = dict.fromkeys(['pkg_preinst', 'pkg_postinst', 'pkg_prerm', 'pkg_postrm'])
# Should check PACKAGES here to see if anything removed
def readPackageInfo(pkg, histfile):
pkginfo = PackageInfo(pkg)
with open(histfile, "r") as f:
for line in f:
lns = line.split('=', 1)
name = lns[0].strip()
value = lns[1].strip(" \t\r\n").strip('"')
if name == "PE":
pkginfo.pe = value
elif name == "PV":
pkginfo.pv = value
elif name == "PR":
pkginfo.pr = value
elif name == "PKG":
pkginfo.pkg = value
elif name == "PKGE":
pkginfo.pkge = value
elif name == "PKGV":
pkginfo.pkgv = value
elif name == "PKGR":
pkginfo.pkgr = value
elif name == "RPROVIDES":
pkginfo.rprovides = value
elif name == "RDEPENDS":
pkginfo.rdepends = value
elif name == "RRECOMMENDS":
pkginfo.rrecommends = value
elif name == "RSUGGESTS":
pkginfo.rsuggests = value
elif name == "RREPLACES":
pkginfo.rreplaces = value
elif name == "RCONFLICTS":
pkginfo.rconflicts = value
elif name == "PKGSIZE":
pkginfo.size = int(value)
elif name == "FILES":
pkginfo.files = value
elif name == "FILELIST":
pkginfo.filelist = value
# Apply defaults
if not pkginfo.pkg:
pkginfo.pkg = pkginfo.name
if not pkginfo.pkge:
pkginfo.pkge = pkginfo.pe
if not pkginfo.pkgv:
pkginfo.pkgv = pkginfo.pv
if not pkginfo.pkgr:
pkginfo.pkgr = pkginfo.pr
return pkginfo
def getlastpkgversion(pkg):
try:
histfile = os.path.join(oldpkghistdir, pkg, "latest")
return readPackageInfo(pkg, histfile)
except EnvironmentError:
return None
def sortpkglist(string):
pkgiter = re.finditer(r'[a-zA-Z0-9.+-]+( \([><=]+[^)]+\))?', string, 0)
pkglist = [p.group(0) for p in pkgiter]
pkglist.sort()
return ' '.join(pkglist)
def sortlist(string):
items = string.split(' ')
items.sort()
return ' '.join(items)
pn = d.getVar('PN')
pe = d.getVar('PE') or "0"
pv = d.getVar('PV')
pr = d.getVar('PR')
layer = bb.utils.get_file_layer(d.getVar('FILE'), d)
pkgdata_dir = d.getVar('PKGDATA_DIR')
packages = ""
try:
with open(os.path.join(pkgdata_dir, pn)) as f:
for line in f.readlines():
if line.startswith('PACKAGES: '):
packages = oe.utils.squashspaces(line.split(': ', 1)[1])
break
except IOError as e:
if e.errno == errno.ENOENT:
# Probably a -cross recipe, just ignore
return 0
else:
raise
packagelist = packages.split()
preserve = d.getVar('BUILDHISTORY_PRESERVE').split()
if not os.path.exists(pkghistdir):
bb.utils.mkdirhier(pkghistdir)
else:
# Remove files for packages that no longer exist
for item in os.listdir(pkghistdir):
if item not in preserve:
if item not in packagelist:
itempath = os.path.join(pkghistdir, item)
if os.path.isdir(itempath):
for subfile in os.listdir(itempath):
os.unlink(os.path.join(itempath, subfile))
os.rmdir(itempath)
else:
os.unlink(itempath)
rcpinfo = RecipeInfo(pn)
rcpinfo.pe = pe
rcpinfo.pv = pv
rcpinfo.pr = pr
rcpinfo.depends = sortlist(oe.utils.squashspaces(d.getVar('DEPENDS') or ""))
rcpinfo.packages = packages
rcpinfo.layer = layer
write_recipehistory(rcpinfo, d)
pkgdest = d.getVar('PKGDEST')
for pkg in packagelist:
pkgdata = {}
with open(os.path.join(pkgdata_dir, 'runtime', pkg)) as f:
for line in f.readlines():
item = line.rstrip('\n').split(': ', 1)
key = item[0]
if key.endswith('_' + pkg):
key = key[:-len(pkg)-1]
pkgdata[key] = item[1]
pkge = pkgdata.get('PKGE', '0')
pkgv = pkgdata['PKGV']
pkgr = pkgdata['PKGR']
#
# Find out what the last version was
# Make sure the version did not decrease
#
lastversion = getlastpkgversion(pkg)
if lastversion:
last_pkge = lastversion.pkge
last_pkgv = lastversion.pkgv
last_pkgr = lastversion.pkgr
r = bb.utils.vercmp((pkge, pkgv, pkgr), (last_pkge, last_pkgv, last_pkgr))
if r < 0:
msg = "Package version for package %s went backwards which would break package feeds from (%s:%s-%s to %s:%s-%s)" % (pkg, last_pkge, last_pkgv, last_pkgr, pkge, pkgv, pkgr)
package_qa_handle_error("version-going-backwards", msg, d)
pkginfo = PackageInfo(pkg)
# Apparently the version can be different on a per-package basis (see Python)
pkginfo.pe = pkgdata.get('PE', '0')
pkginfo.pv = pkgdata['PV']
pkginfo.pr = pkgdata['PR']
pkginfo.pkg = pkgdata['PKG']
pkginfo.pkge = pkge
pkginfo.pkgv = pkgv
pkginfo.pkgr = pkgr
pkginfo.rprovides = sortpkglist(oe.utils.squashspaces(pkgdata.get('RPROVIDES', "")))
pkginfo.rdepends = sortpkglist(oe.utils.squashspaces(pkgdata.get('RDEPENDS', "")))
pkginfo.rrecommends = sortpkglist(oe.utils.squashspaces(pkgdata.get('RRECOMMENDS', "")))
pkginfo.rsuggests = sortpkglist(oe.utils.squashspaces(pkgdata.get('RSUGGESTS', "")))
pkginfo.rreplaces = sortpkglist(oe.utils.squashspaces(pkgdata.get('RREPLACES', "")))
pkginfo.rconflicts = sortpkglist(oe.utils.squashspaces(pkgdata.get('RCONFLICTS', "")))
pkginfo.files = oe.utils.squashspaces(pkgdata.get('FILES', ""))
for filevar in pkginfo.filevars:
pkginfo.filevars[filevar] = pkgdata.get(filevar, "")
# Gather information about packaged files
val = pkgdata.get('FILES_INFO', '')
dictval = json.loads(val)
filelist = list(dictval.keys())
filelist.sort()
pkginfo.filelist = " ".join(filelist)
pkginfo.size = int(pkgdata['PKGSIZE'])
write_pkghistory(pkginfo, d)
# Create files-in-<package-name>.txt files containing a list of files of each recipe's package
bb.build.exec_func("buildhistory_list_pkg_files", d)
}
python buildhistory_emit_outputsigs() {
if not "task" in (d.getVar('BUILDHISTORY_FEATURES') or "").split():
return
import hashlib
taskoutdir = os.path.join(d.getVar('BUILDHISTORY_DIR'), 'task', 'output')
bb.utils.mkdirhier(taskoutdir)
currenttask = d.getVar('BB_CURRENTTASK')
pn = d.getVar('PN')
taskfile = os.path.join(taskoutdir, '%s.%s' % (pn, currenttask))
cwd = os.getcwd()
filesigs = {}
for root, _, files in os.walk(cwd):
for fname in files:
if fname == 'fixmepath':
continue
fullpath = os.path.join(root, fname)
try:
if os.path.islink(fullpath):
sha256 = hashlib.sha256(os.readlink(fullpath).encode('utf-8')).hexdigest()
elif os.path.isfile(fullpath):
sha256 = bb.utils.sha256_file(fullpath)
else:
continue
except OSError:
bb.warn('buildhistory: unable to read %s to get output signature' % fullpath)
continue
filesigs[os.path.relpath(fullpath, cwd)] = sha256
with open(taskfile, 'w') as f:
for fpath, fsig in sorted(filesigs.items(), key=lambda item: item[0]):
f.write('%s %s\n' % (fpath, fsig))
}
def write_recipehistory(rcpinfo, d):
bb.debug(2, "Writing recipe history")
pkghistdir = d.getVar('BUILDHISTORY_DIR_PACKAGE')
infofile = os.path.join(pkghistdir, "latest")
with open(infofile, "w") as f:
if rcpinfo.pe != "0":
f.write(u"PE = %s\n" % rcpinfo.pe)
f.write(u"PV = %s\n" % rcpinfo.pv)
f.write(u"PR = %s\n" % rcpinfo.pr)
f.write(u"DEPENDS = %s\n" % rcpinfo.depends)
f.write(u"PACKAGES = %s\n" % rcpinfo.packages)
f.write(u"LAYER = %s\n" % rcpinfo.layer)
write_latest_srcrev(d, pkghistdir)
def write_pkghistory(pkginfo, d):
bb.debug(2, "Writing package history for package %s" % pkginfo.name)
pkghistdir = d.getVar('BUILDHISTORY_DIR_PACKAGE')
pkgpath = os.path.join(pkghistdir, pkginfo.name)
if not os.path.exists(pkgpath):
bb.utils.mkdirhier(pkgpath)
infofile = os.path.join(pkgpath, "latest")
with open(infofile, "w") as f:
if pkginfo.pe != "0":
f.write(u"PE = %s\n" % pkginfo.pe)
f.write(u"PV = %s\n" % pkginfo.pv)
f.write(u"PR = %s\n" % pkginfo.pr)
if pkginfo.pkg != pkginfo.name:
f.write(u"PKG = %s\n" % pkginfo.pkg)
if pkginfo.pkge != pkginfo.pe:
f.write(u"PKGE = %s\n" % pkginfo.pkge)
if pkginfo.pkgv != pkginfo.pv:
f.write(u"PKGV = %s\n" % pkginfo.pkgv)
if pkginfo.pkgr != pkginfo.pr:
f.write(u"PKGR = %s\n" % pkginfo.pkgr)
f.write(u"RPROVIDES = %s\n" % pkginfo.rprovides)
f.write(u"RDEPENDS = %s\n" % pkginfo.rdepends)
f.write(u"RRECOMMENDS = %s\n" % pkginfo.rrecommends)
if pkginfo.rsuggests:
f.write(u"RSUGGESTS = %s\n" % pkginfo.rsuggests)
if pkginfo.rreplaces:
f.write(u"RREPLACES = %s\n" % pkginfo.rreplaces)
if pkginfo.rconflicts:
f.write(u"RCONFLICTS = %s\n" % pkginfo.rconflicts)
f.write(u"PKGSIZE = %d\n" % pkginfo.size)
f.write(u"FILES = %s\n" % pkginfo.files)
f.write(u"FILELIST = %s\n" % pkginfo.filelist)
for filevar in pkginfo.filevars:
filevarpath = os.path.join(pkgpath, "latest.%s" % filevar)
val = pkginfo.filevars[filevar]
if val:
with open(filevarpath, "w") as f:
f.write(val)
else:
if os.path.exists(filevarpath):
os.unlink(filevarpath)
#
# rootfs_type can be: image, sdk_target, sdk_host
#
def buildhistory_list_installed(d, rootfs_type="image"):
from oe.rootfs import image_list_installed_packages
from oe.sdk import sdk_list_installed_packages
from oe.utils import format_pkg_list
process_list = [('file', 'bh_installed_pkgs.txt'),\
('deps', 'bh_installed_pkgs_deps.txt')]
if rootfs_type == "image":
pkgs = image_list_installed_packages(d)
else:
pkgs = sdk_list_installed_packages(d, rootfs_type == "sdk_target")
for output_type, output_file in process_list:
output_file_full = os.path.join(d.getVar('WORKDIR'), output_file)
with open(output_file_full, 'w') as output:
output.write(format_pkg_list(pkgs, output_type))
python buildhistory_list_installed_image() {
buildhistory_list_installed(d)
}
python buildhistory_list_installed_sdk_target() {
buildhistory_list_installed(d, "sdk_target")
}
python buildhistory_list_installed_sdk_host() {
buildhistory_list_installed(d, "sdk_host")
}
buildhistory_get_installed() {
mkdir -p $1
# Get list of installed packages
pkgcache="$1/installed-packages.tmp"
cat ${WORKDIR}/bh_installed_pkgs.txt | sort > $pkgcache && rm ${WORKDIR}/bh_installed_pkgs.txt
cat $pkgcache | awk '{ print $1 }' > $1/installed-package-names.txt
if [ -s $pkgcache ] ; then
cat $pkgcache | awk '{ print $2 }' | xargs -n1 basename > $1/installed-packages.txt
else
printf "" > $1/installed-packages.txt
fi
# Produce dependency graph
# First, quote each name to handle characters that cause issues for dot
sed 's:\([^| ]*\):"\1":g' ${WORKDIR}/bh_installed_pkgs_deps.txt > $1/depends.tmp &&
rm ${WORKDIR}/bh_installed_pkgs_deps.txt
# Remove lines with rpmlib(...) and config(...) dependencies, change the
# delimiter from pipe to "->", set the style for recommend lines and
# turn versioned dependencies into edge labels.
sed -i -e '/rpmlib(/d' \
-e '/config(/d' \
-e 's:|: -> :' \
-e 's:"\[REC\]":[style=dotted]:' \
-e 's:"\([<>=]\+\)" "\([^"]*\)":[label="\1 \2"]:' \
$1/depends.tmp
# Add header, sorted and de-duped contents and footer and then delete the temp file
printf "digraph depends {\n node [shape=plaintext]\n" > $1/depends.dot
cat $1/depends.tmp | sort -u >> $1/depends.dot
echo "}" >> $1/depends.dot
rm $1/depends.tmp
# Produce installed package sizes list
oe-pkgdata-util -p ${PKGDATA_DIR} read-value "PKGSIZE" -n -f $pkgcache > $1/installed-package-sizes.tmp
cat $1/installed-package-sizes.tmp | awk '{print $2 "\tKiB\t" $1}' | sort -n -r > $1/installed-package-sizes.txt
rm $1/installed-package-sizes.tmp
# We're now done with the cache, delete it
rm $pkgcache
if [ "$2" != "sdk" ] ; then
# Produce some cut-down graphs (for readability)
grep -v kernel-image $1/depends.dot | grep -v kernel-3 | grep -v kernel-4 > $1/depends-nokernel.dot
grep -v libc6 $1/depends-nokernel.dot | grep -v libgcc > $1/depends-nokernel-nolibc.dot
grep -v update- $1/depends-nokernel-nolibc.dot > $1/depends-nokernel-nolibc-noupdate.dot
grep -v kernel-module $1/depends-nokernel-nolibc-noupdate.dot > $1/depends-nokernel-nolibc-noupdate-nomodules.dot
fi
# add complementary package information
if [ -e ${WORKDIR}/complementary_pkgs.txt ]; then
cp ${WORKDIR}/complementary_pkgs.txt $1
fi
}
buildhistory_get_image_installed() {
# Anything requiring the use of the packaging system should be done in here
# in case the packaging files are going to be removed for this image
if [ "${@bb.utils.contains('BUILDHISTORY_FEATURES', 'image', '1', '0', d)}" = "0" ] ; then
return
fi
buildhistory_get_installed ${BUILDHISTORY_DIR_IMAGE}
}
buildhistory_get_sdk_installed() {
# Anything requiring the use of the packaging system should be done in here
# in case the packaging files are going to be removed for this SDK
if [ "${@bb.utils.contains('BUILDHISTORY_FEATURES', 'sdk', '1', '0', d)}" = "0" ] ; then
return
fi
buildhistory_get_installed ${BUILDHISTORY_DIR_SDK}/$1 sdk
}
buildhistory_get_sdk_installed_host() {
buildhistory_get_sdk_installed host
}
buildhistory_get_sdk_installed_target() {
buildhistory_get_sdk_installed target
}
buildhistory_list_files() {
# List the files in the specified directory, but exclude date/time etc.
# This awk script is somewhat messy, but handles where the size is not printed for device files under pseudo
if [ "$3" = "fakeroot" ] ; then
( cd $1 && ${FAKEROOTENV} ${FAKEROOTCMD} find . ! -path . -printf "%M %-10u %-10g %10s %p -> %l\n" | sort -k5 | sed 's/ * -> $//' > $2 )
else
( cd $1 && find . ! -path . -printf "%M %-10u %-10g %10s %p -> %l\n" | sort -k5 | sed 's/ * -> $//' > $2 )
fi
}
buildhistory_list_pkg_files() {
# Create individual files-in-package for each recipe's package
for pkgdir in $(find ${PKGDEST}/* -maxdepth 0 -type d); do
pkgname=$(basename $pkgdir)
outfolder="${BUILDHISTORY_DIR_PACKAGE}/$pkgname"
outfile="$outfolder/files-in-package.txt"
# Make sure the output folder exists so we can create the file
if [ ! -d $outfolder ] ; then
bbdebug 2 "Folder $outfolder does not exist, file $outfile not created"
continue
fi
buildhistory_list_files $pkgdir $outfile fakeroot
done
}
buildhistory_get_imageinfo() {
if [ "${@bb.utils.contains('BUILDHISTORY_FEATURES', 'image', '1', '0', d)}" = "0" ] ; then
return
fi
mkdir -p ${BUILDHISTORY_DIR_IMAGE}
buildhistory_list_files ${IMAGE_ROOTFS} ${BUILDHISTORY_DIR_IMAGE}/files-in-image.txt
# Collect files requested in BUILDHISTORY_IMAGE_FILES
rm -rf ${BUILDHISTORY_DIR_IMAGE}/image-files
for f in ${BUILDHISTORY_IMAGE_FILES}; do
if [ -f ${IMAGE_ROOTFS}/$f ] ; then
mkdir -p ${BUILDHISTORY_DIR_IMAGE}/image-files/`dirname $f`
cp ${IMAGE_ROOTFS}/$f ${BUILDHISTORY_DIR_IMAGE}/image-files/$f
fi
done
# Record some machine-readable meta-information about the image
printf "" > ${BUILDHISTORY_DIR_IMAGE}/image-info.txt
cat >> ${BUILDHISTORY_DIR_IMAGE}/image-info.txt <<END
${@buildhistory_get_imagevars(d)}
END
imagesize=`du -ks ${IMAGE_ROOTFS} | awk '{ print $1 }'`
echo "IMAGESIZE = $imagesize" >> ${BUILDHISTORY_DIR_IMAGE}/image-info.txt
# Add some configuration information
echo "${MACHINE}: ${IMAGE_BASENAME} configured for ${DISTRO} ${DISTRO_VERSION}" > ${BUILDHISTORY_DIR_IMAGE}/build-id.txt
cat >> ${BUILDHISTORY_DIR_IMAGE}/build-id.txt <<END
${@buildhistory_get_build_id(d)}
END
}
buildhistory_get_sdkinfo() {
if [ "${@bb.utils.contains('BUILDHISTORY_FEATURES', 'sdk', '1', '0', d)}" = "0" ] ; then
return
fi
buildhistory_list_files ${SDK_OUTPUT} ${BUILDHISTORY_DIR_SDK}/files-in-sdk.txt
# Collect files requested in BUILDHISTORY_SDK_FILES
rm -rf ${BUILDHISTORY_DIR_SDK}/sdk-files
for f in ${BUILDHISTORY_SDK_FILES}; do
if [ -f ${SDK_OUTPUT}/${SDKPATH}/$f ] ; then
mkdir -p ${BUILDHISTORY_DIR_SDK}/sdk-files/`dirname $f`
cp ${SDK_OUTPUT}/${SDKPATH}/$f ${BUILDHISTORY_DIR_SDK}/sdk-files/$f
fi
done
# Record some machine-readable meta-information about the SDK
printf "" > ${BUILDHISTORY_DIR_SDK}/sdk-info.txt
cat >> ${BUILDHISTORY_DIR_SDK}/sdk-info.txt <<END
${@buildhistory_get_sdkvars(d)}
END
sdksize=`du -ks ${SDK_OUTPUT} | awk '{ print $1 }'`
echo "SDKSIZE = $sdksize" >> ${BUILDHISTORY_DIR_SDK}/sdk-info.txt
}
python buildhistory_get_extra_sdkinfo() {
import operator
from oe.sdk import get_extra_sdkinfo
sstate_dir = d.expand('${SDK_OUTPUT}/${SDKPATH}/sstate-cache')
extra_info = get_extra_sdkinfo(sstate_dir)
if d.getVar('BB_CURRENTTASK') == 'populate_sdk_ext' and \
"sdk" in (d.getVar('BUILDHISTORY_FEATURES') or "").split():
with open(d.expand('${BUILDHISTORY_DIR_SDK}/sstate-package-sizes.txt'), 'w') as f:
filesizes_sorted = sorted(extra_info['filesizes'].items(), key=operator.itemgetter(1, 0), reverse=True)
for fn, size in filesizes_sorted:
f.write('%10d KiB %s\n' % (size, fn))
with open(d.expand('${BUILDHISTORY_DIR_SDK}/sstate-task-sizes.txt'), 'w') as f:
tasksizes_sorted = sorted(extra_info['tasksizes'].items(), key=operator.itemgetter(1, 0), reverse=True)
for task, size in tasksizes_sorted:
f.write('%10d KiB %s\n' % (size, task))
}
# By using ROOTFS_POSTUNINSTALL_COMMAND we get in after uninstallation of
# unneeded packages but before the removal of packaging files
ROOTFS_POSTUNINSTALL_COMMAND += "buildhistory_list_installed_image ;"
ROOTFS_POSTUNINSTALL_COMMAND += "buildhistory_get_image_installed ;"
ROOTFS_POSTUNINSTALL_COMMAND[vardepvalueexclude] .= "| buildhistory_list_installed_image ;| buildhistory_get_image_installed ;"
ROOTFS_POSTUNINSTALL_COMMAND[vardepsexclude] += "buildhistory_list_installed_image buildhistory_get_image_installed"
IMAGE_POSTPROCESS_COMMAND += "buildhistory_get_imageinfo ;"
IMAGE_POSTPROCESS_COMMAND[vardepvalueexclude] .= "| buildhistory_get_imageinfo ;"
IMAGE_POSTPROCESS_COMMAND[vardepsexclude] += "buildhistory_get_imageinfo"
# We want these to be the last run so that we get called after complementary package installation
POPULATE_SDK_POST_TARGET_COMMAND_append = " buildhistory_list_installed_sdk_target;"
POPULATE_SDK_POST_TARGET_COMMAND_append = " buildhistory_get_sdk_installed_target;"
POPULATE_SDK_POST_TARGET_COMMAND[vardepvalueexclude] .= "| buildhistory_list_installed_sdk_target;| buildhistory_get_sdk_installed_target;"
POPULATE_SDK_POST_HOST_COMMAND_append = " buildhistory_list_installed_sdk_host;"
POPULATE_SDK_POST_HOST_COMMAND_append = " buildhistory_get_sdk_installed_host;"
POPULATE_SDK_POST_HOST_COMMAND[vardepvalueexclude] .= "| buildhistory_list_installed_sdk_host;| buildhistory_get_sdk_installed_host;"
SDK_POSTPROCESS_COMMAND_append = " buildhistory_get_sdkinfo ; buildhistory_get_extra_sdkinfo; "
SDK_POSTPROCESS_COMMAND[vardepvalueexclude] .= "| buildhistory_get_sdkinfo ; buildhistory_get_extra_sdkinfo; "
python buildhistory_write_sigs() {
if not "task" in (d.getVar('BUILDHISTORY_FEATURES') or "").split():
return
# Create sigs file
if hasattr(bb.parse.siggen, 'dump_siglist'):
taskoutdir = os.path.join(d.getVar('BUILDHISTORY_DIR'), 'task')
bb.utils.mkdirhier(taskoutdir)
bb.parse.siggen.dump_siglist(os.path.join(taskoutdir, 'tasksigs.txt'))
}
def buildhistory_get_build_id(d):
if d.getVar('BB_WORKERCONTEXT') != '1':
return ""
localdata = bb.data.createCopy(d)
statuslines = []
for func in oe.data.typed_value('BUILDCFG_FUNCS', localdata):
g = globals()
if func not in g:
bb.warn("Build configuration function '%s' does not exist" % func)
else:
flines = g[func](localdata)
if flines:
statuslines.extend(flines)
statusheader = d.getVar('BUILDCFG_HEADER')
return('\n%s\n%s\n' % (statusheader, '\n'.join(statuslines)))
def buildhistory_get_metadata_revs(d):
# We want an easily machine-readable format here, so get_layers_branch_rev isn't quite what we want
layers = (d.getVar("BBLAYERS") or "").split()
medadata_revs = ["%-17s = %s:%s" % (os.path.basename(i), \
base_get_metadata_git_branch(i, None).strip(), \
base_get_metadata_git_revision(i, None)) \
for i in layers]
return '\n'.join(medadata_revs)
def outputvars(vars, listvars, d):
vars = vars.split()
listvars = listvars.split()
ret = ""
for var in vars:
value = d.getVar(var) or ""
if var in listvars:
# Squash out spaces
value = oe.utils.squashspaces(value)
ret += "%s = %s\n" % (var, value)
return ret.rstrip('\n')
def buildhistory_get_imagevars(d):
if d.getVar('BB_WORKERCONTEXT') != '1':
return ""
imagevars = "DISTRO DISTRO_VERSION USER_CLASSES IMAGE_CLASSES IMAGE_FEATURES IMAGE_LINGUAS IMAGE_INSTALL BAD_RECOMMENDATIONS NO_RECOMMENDATIONS PACKAGE_EXCLUDE ROOTFS_POSTPROCESS_COMMAND IMAGE_POSTPROCESS_COMMAND"
listvars = "USER_CLASSES IMAGE_CLASSES IMAGE_FEATURES IMAGE_LINGUAS IMAGE_INSTALL BAD_RECOMMENDATIONS PACKAGE_EXCLUDE"
return outputvars(imagevars, listvars, d)
def buildhistory_get_sdkvars(d):
if d.getVar('BB_WORKERCONTEXT') != '1':
return ""
sdkvars = "DISTRO DISTRO_VERSION SDK_NAME SDK_VERSION SDKMACHINE SDKIMAGE_FEATURES BAD_RECOMMENDATIONS NO_RECOMMENDATIONS PACKAGE_EXCLUDE"
if d.getVar('BB_CURRENTTASK') == 'populate_sdk_ext':
# Extensible SDK uses some additional variables
sdkvars += " SDK_LOCAL_CONF_WHITELIST SDK_LOCAL_CONF_BLACKLIST SDK_INHERIT_BLACKLIST SDK_UPDATE_URL SDK_EXT_TYPE SDK_RECRDEP_TASKS SDK_INCLUDE_PKGDATA SDK_INCLUDE_TOOLCHAIN"
listvars = "SDKIMAGE_FEATURES BAD_RECOMMENDATIONS PACKAGE_EXCLUDE SDK_LOCAL_CONF_WHITELIST SDK_LOCAL_CONF_BLACKLIST SDK_INHERIT_BLACKLIST"
return outputvars(sdkvars, listvars, d)
def buildhistory_get_cmdline(d):
argv = d.getVar('BB_CMDLINE', False)
if argv:
if argv[0].endswith('bin/bitbake'):
bincmd = 'bitbake'
else:
bincmd = argv[0]
return '%s %s' % (bincmd, ' '.join(argv[1:]))
return ''
buildhistory_single_commit() {
if [ "$3" = "" ] ; then
commitopts="${BUILDHISTORY_DIR}/ --allow-empty"
shortlogprefix="No changes: "
else
commitopts=""
shortlogprefix=""
fi
if [ "${BUILDHISTORY_BUILD_FAILURES}" = "0" ] ; then
result="succeeded"
else
result="failed"
fi
case ${BUILDHISTORY_BUILD_INTERRUPTED} in
1)
result="$result (interrupted)"
;;
2)
result="$result (force interrupted)"
;;
esac
commitmsgfile=`mktemp`
cat > $commitmsgfile << END
${shortlogprefix}Build ${BUILDNAME} of ${DISTRO} ${DISTRO_VERSION} for machine ${MACHINE} on $2
cmd: $1
result: $result
metadata revisions:
END
cat ${BUILDHISTORY_DIR}/metadata-revs >> $commitmsgfile
git commit $commitopts -F $commitmsgfile --author "${BUILDHISTORY_COMMIT_AUTHOR}" > /dev/null
rm $commitmsgfile
}
buildhistory_commit() {
if [ ! -d ${BUILDHISTORY_DIR} ] ; then
# Code above that creates this dir never executed, so there can't be anything to commit
return
fi
# Create a machine-readable list of metadata revisions for each layer
cat > ${BUILDHISTORY_DIR}/metadata-revs <<END
${@buildhistory_get_metadata_revs(d)}
END
( cd ${BUILDHISTORY_DIR}/
# Initialise the repo if necessary
if [ ! -e .git ] ; then
git init -q
else
git tag -f build-minus-3 build-minus-2 > /dev/null 2>&1 || true
git tag -f build-minus-2 build-minus-1 > /dev/null 2>&1 || true
git tag -f build-minus-1 > /dev/null 2>&1 || true
fi
check_git_config
# Check if there are new/changed files to commit (other than metadata-revs)
repostatus=`git status --porcelain | grep -v " metadata-revs$"`
HOSTNAME=`hostname 2>/dev/null || echo unknown`
CMDLINE="${@buildhistory_get_cmdline(d)}"
if [ "$repostatus" != "" ] ; then
git add -A .
# porcelain output looks like "?? packages/foo/bar"
# Ensure we commit metadata-revs with the first commit
buildhistory_single_commit "$CMDLINE" "$HOSTNAME" dummy
git gc --auto --quiet
else
buildhistory_single_commit "$CMDLINE" "$HOSTNAME"
fi
if [ "${BUILDHISTORY_PUSH_REPO}" != "" ] ; then
git push -q ${BUILDHISTORY_PUSH_REPO}
fi) || true
}
python buildhistory_eventhandler() {
if e.data.getVar('BUILDHISTORY_FEATURES').strip():
reset = e.data.getVar("BUILDHISTORY_RESET")
olddir = e.data.getVar("BUILDHISTORY_OLD_DIR")
if isinstance(e, bb.event.BuildStarted):
if reset:
import shutil
# Clean up after potentially interrupted build.
if os.path.isdir(olddir):
shutil.rmtree(olddir)
rootdir = e.data.getVar("BUILDHISTORY_DIR")
entries = [ x for x in os.listdir(rootdir) if not x.startswith('.') ]
bb.utils.mkdirhier(olddir)
for entry in entries:
os.rename(os.path.join(rootdir, entry),
os.path.join(olddir, entry))
elif isinstance(e, bb.event.BuildCompleted):
if reset:
import shutil
shutil.rmtree(olddir)
if e.data.getVar("BUILDHISTORY_COMMIT") == "1":
bb.note("Writing buildhistory")
bb.build.exec_func("buildhistory_write_sigs", d)
localdata = bb.data.createCopy(e.data)
localdata.setVar('BUILDHISTORY_BUILD_FAILURES', str(e._failures))
interrupted = getattr(e, '_interrupted', 0)
localdata.setVar('BUILDHISTORY_BUILD_INTERRUPTED', str(interrupted))
bb.build.exec_func("buildhistory_commit", localdata)
else:
bb.note("No commit since BUILDHISTORY_COMMIT != '1'")
}
addhandler buildhistory_eventhandler
buildhistory_eventhandler[eventmask] = "bb.event.BuildCompleted bb.event.BuildStarted"
# FIXME this ought to be moved into the fetcher
def _get_srcrev_values(d):
"""
Return the version strings for the current recipe
"""
scms = []
fetcher = bb.fetch.Fetch(d.getVar('SRC_URI').split(), d)
urldata = fetcher.ud
for u in urldata:
if urldata[u].method.supports_srcrev():
scms.append(u)
autoinc_templ = 'AUTOINC+'
dict_srcrevs = {}
dict_tag_srcrevs = {}
for scm in scms:
ud = urldata[scm]
for name in ud.names:
try:
rev = ud.method.sortable_revision(ud, d, name)
except TypeError:
# support old bitbake versions
rev = ud.method.sortable_revision(scm, ud, d, name)
# Clean this up when we next bump bitbake version
if type(rev) != str:
autoinc, rev = rev
elif rev.startswith(autoinc_templ):
rev = rev[len(autoinc_templ):]
dict_srcrevs[name] = rev
if 'tag' in ud.parm:
tag = ud.parm['tag'];
key = name+'_'+tag
dict_tag_srcrevs[key] = rev
return (dict_srcrevs, dict_tag_srcrevs)
do_fetch[postfuncs] += "write_srcrev"
do_fetch[vardepsexclude] += "write_srcrev"
python write_srcrev() {
write_latest_srcrev(d, d.getVar('BUILDHISTORY_DIR_PACKAGE'))
}
def write_latest_srcrev(d, pkghistdir):
srcrevfile = os.path.join(pkghistdir, 'latest_srcrev')
srcrevs, tag_srcrevs = _get_srcrev_values(d)
if srcrevs:
if not os.path.exists(pkghistdir):
bb.utils.mkdirhier(pkghistdir)
old_tag_srcrevs = {}
if os.path.exists(srcrevfile):
with open(srcrevfile) as f:
for line in f:
if line.startswith('# tag_'):
key, value = line.split("=", 1)
key = key.replace('# tag_', '').strip()
value = value.replace('"', '').strip()
old_tag_srcrevs[key] = value
with open(srcrevfile, 'w') as f:
orig_srcrev = d.getVar('SRCREV', False) or 'INVALID'
if orig_srcrev != 'INVALID':
f.write('# SRCREV = "%s"\n' % orig_srcrev)
if len(srcrevs) > 1:
for name, srcrev in srcrevs.items():
orig_srcrev = d.getVar('SRCREV_%s' % name, False)
if orig_srcrev:
f.write('# SRCREV_%s = "%s"\n' % (name, orig_srcrev))
f.write('SRCREV_%s = "%s"\n' % (name, srcrev))
else:
f.write('SRCREV = "%s"\n' % next(iter(srcrevs.values())))
if len(tag_srcrevs) > 0:
for name, srcrev in tag_srcrevs.items():
f.write('# tag_%s = "%s"\n' % (name, srcrev))
if name in old_tag_srcrevs and old_tag_srcrevs[name] != srcrev:
pkg = d.getVar('PN')
bb.warn("Revision for tag %s in package %s was changed since last build (from %s to %s)" % (name, pkg, old_tag_srcrevs[name], srcrev))
else:
if os.path.exists(srcrevfile):
os.remove(srcrevfile)
do_testimage[postfuncs] += "write_ptest_result"
do_testimage[vardepsexclude] += "write_ptest_result"
python write_ptest_result() {
write_latest_ptest_result(d, d.getVar('BUILDHISTORY_DIR'))
}
def write_latest_ptest_result(d, histdir):
import glob
import subprocess
test_log_dir = d.getVar('TEST_LOG_DIR')
input_ptest = os.path.join(test_log_dir, 'ptest_log')
output_ptest = os.path.join(histdir, 'ptest')
if os.path.exists(input_ptest):
try:
# Lock it avoid race issue
lock = bb.utils.lockfile(output_ptest + "/ptest.lock")
bb.utils.mkdirhier(output_ptest)
oe.path.copytree(input_ptest, output_ptest)
# Sort test result
for result in glob.glob('%s/pass.fail.*' % output_ptest):
bb.debug(1, 'Processing %s' % result)
cmd = ['sort', result, '-o', result]
bb.debug(1, 'Running %s' % cmd)
ret = subprocess.call(cmd)
if ret != 0:
bb.error('Failed to run %s!' % cmd)
finally:
bb.utils.unlockfile(lock)