import-layers/yocto-poky/meta/classes/archiver.bbclass - openbmc/openbmc - Gitiles

 # ex:ts=4:sw=4:sts=4:et
 # -*- tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*-
 #
 # This bbclass is used for creating archive for:
 # 1) original (or unpacked) source: ARCHIVER_MODE[src] = "original"
 # 2) patched source: ARCHIVER_MODE[src] = "patched" (default)
 # 3) configured source: ARCHIVER_MODE[src] = "configured"
 # 4) The patches between do_unpack and do_patch:
 #    ARCHIVER_MODE[diff] = "1"
 #    And you can set the one that you'd like to exclude from the diff:
 #    ARCHIVER_MODE[diff-exclude] ?= ".pc autom4te.cache patches"
 # 5) The environment data, similar to 'bitbake -e recipe':
 #    ARCHIVER_MODE[dumpdata] = "1"
 # 6) The recipe (.bb and .inc): ARCHIVER_MODE[recipe] = "1"
 # 7) Whether output the .src.rpm package:
 #    ARCHIVER_MODE[srpm] = "1"
 # 8) Filter the license, the recipe whose license in
 #    COPYLEFT_LICENSE_INCLUDE will be included, and in
 #    COPYLEFT_LICENSE_EXCLUDE will be excluded.
 #    COPYLEFT_LICENSE_INCLUDE = 'GPL* LGPL*'
 #    COPYLEFT_LICENSE_EXCLUDE = 'CLOSED Proprietary'
 # 9) The recipe type that will be archived:
 #    COPYLEFT_RECIPE_TYPES = 'target'
 #

 # Don't filter the license by default
 COPYLEFT_LICENSE_INCLUDE ?= ''
 COPYLEFT_LICENSE_EXCLUDE ?= ''
 # Create archive for all the recipe types
 COPYLEFT_RECIPE_TYPES ?= 'target native nativesdk cross crosssdk cross-canadian'
 inherit copyleft_filter

 ARCHIVER_MODE[srpm] ?= "0"
 ARCHIVER_MODE[src] ?= "patched"
 ARCHIVER_MODE[diff] ?= "0"
 ARCHIVER_MODE[diff-exclude] ?= ".pc autom4te.cache patches"
 ARCHIVER_MODE[dumpdata] ?= "0"
 ARCHIVER_MODE[recipe] ?= "0"

 DEPLOY_DIR_SRC ?= "${DEPLOY_DIR}/sources"
 ARCHIVER_TOPDIR ?= "${WORKDIR}/deploy-sources"
 ARCHIVER_OUTDIR = "${ARCHIVER_TOPDIR}/${TARGET_SYS}/${PF}/"
 ARCHIVER_WORKDIR = "${WORKDIR}/archiver-work/"

 do_dumpdata[dirs] = "${ARCHIVER_OUTDIR}"
 do_ar_recipe[dirs] = "${ARCHIVER_OUTDIR}"
 do_ar_original[dirs] = "${ARCHIVER_OUTDIR} ${ARCHIVER_WORKDIR}"
 do_deploy_archives[dirs] = "${WORKDIR}"
 do_deploy_all_archives[dirs] = "${WORKDIR}"

 # This is a convenience for the shell script to use it


 python () {
     pn = d.getVar('PN', True)
     assume_provided = (d.getVar("ASSUME_PROVIDED", True) or "").split()
     if pn in assume_provided:
         for p in d.getVar("PROVIDES", True).split():
             if p != pn:
                 pn = p
                 break

     included, reason = copyleft_should_include(d)
     if not included:
         bb.debug(1, 'archiver: %s is excluded: %s' % (pn, reason))
         return
     else:
         bb.debug(1, 'archiver: %s is included: %s' % (pn, reason))

     # We just archive gcc-source for all the gcc related recipes
     if d.getVar('BPN', True) in ['gcc', 'libgcc'] \
             and not pn.startswith('gcc-source'):
         bb.debug(1, 'archiver: %s is excluded, covered by gcc-source' % pn)
         return

     ar_src = d.getVarFlag('ARCHIVER_MODE', 'src', True)
     ar_dumpdata = d.getVarFlag('ARCHIVER_MODE', 'dumpdata', True)
     ar_recipe = d.getVarFlag('ARCHIVER_MODE', 'recipe', True)

     if ar_src == "original":
         d.appendVarFlag('do_deploy_archives', 'depends', ' %s:do_ar_original' % pn)
     elif ar_src == "patched":
         d.appendVarFlag('do_deploy_archives', 'depends', ' %s:do_ar_patched' % pn)
     elif ar_src == "configured":
         # We can't use "addtask do_ar_configured after do_configure" since it
         # will cause the deptask of do_populate_sysroot to run not matter what
         # archives we need, so we add the depends here.

         # There is a corner case with "gcc-source-${PV}" recipes, they don't have
         # the "do_configure" task, so we need to use "do_preconfigure"
         if pn.startswith("gcc-source-"):
             d.appendVarFlag('do_ar_configured', 'depends', ' %s:do_preconfigure' % pn)
         else:
             d.appendVarFlag('do_ar_configured', 'depends', ' %s:do_configure' % pn)
         d.appendVarFlag('do_deploy_archives', 'depends', ' %s:do_ar_configured' % pn)

     elif ar_src:
         bb.fatal("Invalid ARCHIVER_MODE[src]: %s" % ar_src)

     if ar_dumpdata == "1":
         d.appendVarFlag('do_deploy_archives', 'depends', ' %s:do_dumpdata' % pn)

     if ar_recipe == "1":
         d.appendVarFlag('do_deploy_archives', 'depends', ' %s:do_ar_recipe' % pn)

     # Output the srpm package
     ar_srpm = d.getVarFlag('ARCHIVER_MODE', 'srpm', True)
     if ar_srpm == "1":
         if d.getVar('PACKAGES', True) != '' and d.getVar('IMAGE_PKGTYPE', True) == 'rpm':
             d.appendVarFlag('do_deploy_archives', 'depends', ' %s:do_package_write_rpm' % pn)
             if ar_dumpdata == "1":
                 d.appendVarFlag('do_package_write_rpm', 'depends', ' %s:do_dumpdata' % pn)
             if ar_recipe == "1":
                 d.appendVarFlag('do_package_write_rpm', 'depends', ' %s:do_ar_recipe' % pn)
             if ar_src == "original":
                 d.appendVarFlag('do_package_write_rpm', 'depends', ' %s:do_ar_original' % pn)
             elif ar_src == "patched":
                 d.appendVarFlag('do_package_write_rpm', 'depends', ' %s:do_ar_patched' % pn)
             elif ar_src == "configured":
                 d.appendVarFlag('do_package_write_rpm', 'depends', ' %s:do_ar_configured' % pn)
 }

 # Take all the sources for a recipe and puts them in WORKDIR/archiver-work/.
 # Files in SRC_URI are copied directly, anything that's a directory
 # (e.g. git repositories) is "unpacked" and then put into a tarball.
 python do_ar_original() {

     import shutil, tarfile, tempfile

     if d.getVarFlag('ARCHIVER_MODE', 'src', True) != "original":
         return

     ar_outdir = d.getVar('ARCHIVER_OUTDIR', True)
     bb.note('Archiving the original source...')
     fetch = bb.fetch2.Fetch([], d)
     for url in fetch.urls:
         local = fetch.localpath(url).rstrip("/");
         if os.path.isfile(local):
             shutil.copy(local, ar_outdir)
         elif os.path.isdir(local):
             tmpdir = tempfile.mkdtemp(dir=d.getVar('ARCHIVER_WORKDIR', True))
             fetch.unpack(tmpdir, (url,))
             create_tarball(d, tmpdir + '/.', '', ar_outdir)

     # Emit patch series files for 'original'
     bb.note('Writing patch series files...')
     for patch in src_patches(d):
         _, _, local, _, _, parm = bb.fetch.decodeurl(patch)
         patchdir = parm.get('patchdir')
         if patchdir:
             series = os.path.join(ar_outdir, 'series.subdir.%s' % patchdir.replace('/', '_'))
         else:
             series = os.path.join(ar_outdir, 'series')

         with open(series, 'a') as s:
             s.write('%s -p%s\n' % (os.path.basename(local), parm['striplevel']))
 }

 python do_ar_patched() {

     if d.getVarFlag('ARCHIVER_MODE', 'src', True) != 'patched':
         return

     # Get the ARCHIVER_OUTDIR before we reset the WORKDIR
     ar_outdir = d.getVar('ARCHIVER_OUTDIR', True)
     ar_workdir = d.getVar('ARCHIVER_WORKDIR', True)
     bb.note('Archiving the patched source...')
     d.setVar('WORKDIR', ar_workdir)
     create_tarball(d, d.getVar('S', True), 'patched', ar_outdir)
 }

 python do_ar_configured() {
     import shutil

     ar_outdir = d.getVar('ARCHIVER_OUTDIR', True)
     if d.getVarFlag('ARCHIVER_MODE', 'src', True) == 'configured':
         bb.note('Archiving the configured source...')
         pn = d.getVar('PN', True)
         # "gcc-source-${PV}" recipes don't have "do_configure"
         # task, so we need to run "do_preconfigure" instead
         if pn.startswith("gcc-source-"):
             d.setVar('WORKDIR', d.getVar('ARCHIVER_WORKDIR', True))
             bb.build.exec_func('do_preconfigure', d)

         # The libtool-native's do_configure will remove the
         # ${STAGING_DATADIR}/aclocal/libtool.m4, so we can't re-run the
         # do_configure, we archive the already configured ${S} to
         # instead of.
         elif pn != 'libtool-native':
             # Change the WORKDIR to make do_configure run in another dir.
             d.setVar('WORKDIR', d.getVar('ARCHIVER_WORKDIR', True))
             if bb.data.inherits_class('kernel-yocto', d):
                 bb.build.exec_func('do_kernel_configme', d)
             if bb.data.inherits_class('cmake', d):
                 bb.build.exec_func('do_generate_toolchain_file', d)
             prefuncs = d.getVarFlag('do_configure', 'prefuncs', True)
             for func in (prefuncs or '').split():
                 if func != "sysroot_cleansstate":
                     bb.build.exec_func(func, d)
             bb.build.exec_func('do_configure', d)
             postfuncs = d.getVarFlag('do_configure', 'postfuncs', True)
             for func in (postfuncs or '').split():
                 if func != "do_qa_configure":
                     bb.build.exec_func(func, d)
         srcdir = d.getVar('S', True)
         builddir = d.getVar('B', True)
         if srcdir != builddir:
             if os.path.exists(builddir):
                 oe.path.copytree(builddir, os.path.join(srcdir, \
                     'build.%s.ar_configured' % d.getVar('PF', True)))
         create_tarball(d, srcdir, 'configured', ar_outdir)
 }

 def create_tarball(d, srcdir, suffix, ar_outdir):
     """
     create the tarball from srcdir
     """
     import tarfile

     # Make sure we are only creating a single tarball for gcc sources
     if (d.getVar('SRC_URI', True) == ""):
         return

     bb.utils.mkdirhier(ar_outdir)
     if suffix:
         filename = '%s-%s.tar.gz' % (d.getVar('PF', True), suffix)
     else:
         filename = '%s.tar.gz' % d.getVar('PF', True)
     tarname = os.path.join(ar_outdir, filename)

     srcdir = srcdir.rstrip('/')
     dirname = os.path.dirname(srcdir)
     basename = os.path.basename(srcdir)
     os.chdir(dirname)
     bb.note('Creating %s' % tarname)
     tar = tarfile.open(tarname, 'w:gz')
     tar.add(basename)
     tar.close()

 # creating .diff.gz between source.orig and source
 def create_diff_gz(d, src_orig, src, ar_outdir):

     import subprocess

     if not os.path.isdir(src) or not os.path.isdir(src_orig):
         return

     # The diff --exclude can't exclude the file with path, so we copy
     # the patched source, and remove the files that we'd like to
     # exclude.
     src_patched = src + '.patched'
     oe.path.copyhardlinktree(src, src_patched)
     for i in d.getVarFlag('ARCHIVER_MODE', 'diff-exclude', True).split():
         bb.utils.remove(os.path.join(src_orig, i), recurse=True)
         bb.utils.remove(os.path.join(src_patched, i), recurse=True)

     dirname = os.path.dirname(src)
     basename = os.path.basename(src)
     os.chdir(dirname)
     out_file = os.path.join(ar_outdir, '%s-diff.gz' % d.getVar('PF', True))
     diff_cmd = 'diff -Naur %s.orig %s.patched | gzip -c > %s' % (basename, basename, out_file)
     subprocess.call(diff_cmd, shell=True)
     bb.utils.remove(src_patched, recurse=True)

 # Run do_unpack and do_patch
 python do_unpack_and_patch() {
     if d.getVarFlag('ARCHIVER_MODE', 'src', True) not in \
             [ 'patched', 'configured'] and \
             d.getVarFlag('ARCHIVER_MODE', 'diff', True) != '1':
         return
     ar_outdir = d.getVar('ARCHIVER_OUTDIR', True)
     ar_workdir = d.getVar('ARCHIVER_WORKDIR', True)

     # The kernel class functions require it to be on work-shared, so we dont change WORKDIR
     if not bb.data.inherits_class('kernel-yocto', d):
         # Change the WORKDIR to make do_unpack do_patch run in another dir.
         d.setVar('WORKDIR', ar_workdir)

         # The changed 'WORKDIR' also caused 'B' changed, create dir 'B' for the
         # possibly requiring of the following tasks (such as some recipes's
         # do_patch required 'B' existed).
         bb.utils.mkdirhier(d.getVar('B', True))

         bb.build.exec_func('do_unpack', d)

     # Save the original source for creating the patches
     if d.getVarFlag('ARCHIVER_MODE', 'diff', True) == '1':
         src = d.getVar('S', True).rstrip('/')
         src_orig = '%s.orig' % src
         oe.path.copytree(src, src_orig)

     # Make sure gcc and kernel sources are patched only once
     if not ((d.getVar('SRC_URI', True) == "" or bb.data.inherits_class('kernel-yocto', d))):
         bb.build.exec_func('do_patch', d)

     # Create the patches
     if d.getVarFlag('ARCHIVER_MODE', 'diff', True) == '1':
         bb.note('Creating diff gz...')
         create_diff_gz(d, src_orig, src, ar_outdir)
         bb.utils.remove(src_orig, recurse=True)
 }

 python do_ar_recipe () {
     """
     archive the recipe, including .bb and .inc.
     """
     import re
     import shutil

     require_re = re.compile( r"require\s+(.+)" )
     include_re = re.compile( r"include\s+(.+)" )
     bbfile = d.getVar('FILE', True)
     outdir = os.path.join(d.getVar('WORKDIR', True), \
             '%s-recipe' % d.getVar('PF', True))
     bb.utils.mkdirhier(outdir)
     shutil.copy(bbfile, outdir)

     pn = d.getVar('PN', True)
     bbappend_files = d.getVar('BBINCLUDED', True).split()
     # If recipe name is aa, we need to match files like aa.bbappend and aa_1.1.bbappend
     # Files like aa1.bbappend or aa1_1.1.bbappend must be excluded.
     bbappend_re = re.compile( r".*/%s_[^/]*\.bbappend$" %pn)
     bbappend_re1 = re.compile( r".*/%s\.bbappend$" %pn)
     for file in bbappend_files:
         if bbappend_re.match(file) or bbappend_re1.match(file):
             shutil.copy(file, outdir)

     dirname = os.path.dirname(bbfile)
     bbpath = '%s:%s' % (dirname, d.getVar('BBPATH', True))
     f = open(bbfile, 'r')
     for line in f.readlines():
         incfile = None
         if require_re.match(line):
             incfile = require_re.match(line).group(1)
         elif include_re.match(line):
             incfile = include_re.match(line).group(1)
         if incfile:
             incfile = bb.data.expand(incfile, d)
             incfile = bb.utils.which(bbpath, incfile)
             if incfile:
                 shutil.copy(incfile, outdir)

     create_tarball(d, outdir, 'recipe', d.getVar('ARCHIVER_OUTDIR', True))
     bb.utils.remove(outdir, recurse=True)
 }

 python do_dumpdata () {
     """
     dump environment data to ${PF}-showdata.dump
     """

     dumpfile = os.path.join(d.getVar('ARCHIVER_OUTDIR', True), \
         '%s-showdata.dump' % d.getVar('PF', True))
     bb.note('Dumping metadata into %s' % dumpfile)
     with open(dumpfile, "w") as f:
         # emit variables and shell functions
         bb.data.emit_env(f, d, True)
         # emit the metadata which isn't valid shell
         for e in d.keys():
             if d.getVarFlag(e, "python", False):
                 f.write("\npython %s () {\n%s}\n" % (e, d.getVar(e, False)))
 }

 SSTATETASKS += "do_deploy_archives"
 do_deploy_archives () {
     echo "Deploying source archive files from ${ARCHIVER_TOPDIR} to ${DEPLOY_DIR_SRC}."
 }
 python do_deploy_archives_setscene () {
     sstate_setscene(d)
 }
 do_deploy_archives[dirs] = "${ARCHIVER_TOPDIR}"
 do_deploy_archives[sstate-inputdirs] = "${ARCHIVER_TOPDIR}"
 do_deploy_archives[sstate-outputdirs] = "${DEPLOY_DIR_SRC}"
 addtask do_deploy_archives_setscene

 addtask do_ar_original after do_unpack
 addtask do_unpack_and_patch after do_patch
 addtask do_ar_patched after do_unpack_and_patch
 addtask do_ar_configured after do_unpack_and_patch
 addtask do_dumpdata
 addtask do_ar_recipe
 addtask do_deploy_archives before do_build

 addtask do_deploy_all_archives after do_deploy_archives
 do_deploy_all_archives[recrdeptask] = "do_deploy_archives"
 do_deploy_all_archives[recideptask] = "do_${BB_DEFAULT_TASK}"
 do_deploy_all_archives() {
         :
 }

 python () {
     # Add tasks in the correct order, specifically for linux-yocto to avoid race condition
     if bb.data.inherits_class('kernel-yocto', d):
         bb.build.addtask('do_kernel_configme', 'do_configure', 'do_unpack_and_patch', d)
 }
	# ex:ts=4:sw=4:sts=4:et
	# -- tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil --
	#
	# This bbclass is used for creating archive for:
	# 1) original (or unpacked) source: ARCHIVER_MODE[src] = "original"
	# 2) patched source: ARCHIVER_MODE[src] = "patched" (default)
	# 3) configured source: ARCHIVER_MODE[src] = "configured"
	# 4) The patches between do_unpack and do_patch:
	# ARCHIVER_MODE[diff] = "1"
	# And you can set the one that you'd like to exclude from the diff:
	# ARCHIVER_MODE[diff-exclude] ?= ".pc autom4te.cache patches"
	# 5) The environment data, similar to 'bitbake -e recipe':
	# ARCHIVER_MODE[dumpdata] = "1"
	# 6) The recipe (.bb and .inc): ARCHIVER_MODE[recipe] = "1"
	# 7) Whether output the .src.rpm package:
	# ARCHIVER_MODE[srpm] = "1"
	# 8) Filter the license, the recipe whose license in
	# COPYLEFT_LICENSE_INCLUDE will be included, and in
	# COPYLEFT_LICENSE_EXCLUDE will be excluded.
	# COPYLEFT_LICENSE_INCLUDE = 'GPL* LGPL*'
	# COPYLEFT_LICENSE_EXCLUDE = 'CLOSED Proprietary'
	# 9) The recipe type that will be archived:
	# COPYLEFT_RECIPE_TYPES = 'target'
	#

	# Don't filter the license by default
	COPYLEFT_LICENSE_INCLUDE ?= ''
	COPYLEFT_LICENSE_EXCLUDE ?= ''
	# Create archive for all the recipe types
	COPYLEFT_RECIPE_TYPES ?= 'target native nativesdk cross crosssdk cross-canadian'
	inherit copyleft_filter

	ARCHIVER_MODE[srpm] ?= "0"
	ARCHIVER_MODE[src] ?= "patched"
	ARCHIVER_MODE[diff] ?= "0"
	ARCHIVER_MODE[diff-exclude] ?= ".pc autom4te.cache patches"
	ARCHIVER_MODE[dumpdata] ?= "0"
	ARCHIVER_MODE[recipe] ?= "0"

	DEPLOY_DIR_SRC ?= "${DEPLOY_DIR}/sources"
	ARCHIVER_TOPDIR ?= "${WORKDIR}/deploy-sources"
	ARCHIVER_OUTDIR = "${ARCHIVER_TOPDIR}/${TARGET_SYS}/${PF}/"
	ARCHIVER_WORKDIR = "${WORKDIR}/archiver-work/"

	do_dumpdata[dirs] = "${ARCHIVER_OUTDIR}"
	do_ar_recipe[dirs] = "${ARCHIVER_OUTDIR}"
	do_ar_original[dirs] = "${ARCHIVER_OUTDIR} ${ARCHIVER_WORKDIR}"
	do_deploy_archives[dirs] = "${WORKDIR}"
	do_deploy_all_archives[dirs] = "${WORKDIR}"

	# This is a convenience for the shell script to use it


	python () {
	pn = d.getVar('PN', True)
	assume_provided = (d.getVar("ASSUME_PROVIDED", True) or "").split()
	if pn in assume_provided:
	for p in d.getVar("PROVIDES", True).split():
	if p != pn:
	pn = p
	break

	included, reason = copyleft_should_include(d)
	if not included:
	bb.debug(1, 'archiver: %s is excluded: %s' % (pn, reason))
	return
	else:
	bb.debug(1, 'archiver: %s is included: %s' % (pn, reason))

	# We just archive gcc-source for all the gcc related recipes
	if d.getVar('BPN', True) in ['gcc', 'libgcc'] \
	and not pn.startswith('gcc-source'):
	bb.debug(1, 'archiver: %s is excluded, covered by gcc-source' % pn)
	return

	ar_src = d.getVarFlag('ARCHIVER_MODE', 'src', True)
	ar_dumpdata = d.getVarFlag('ARCHIVER_MODE', 'dumpdata', True)
	ar_recipe = d.getVarFlag('ARCHIVER_MODE', 'recipe', True)

	if ar_src == "original":
	d.appendVarFlag('do_deploy_archives', 'depends', ' %s:do_ar_original' % pn)
	elif ar_src == "patched":
	d.appendVarFlag('do_deploy_archives', 'depends', ' %s:do_ar_patched' % pn)
	elif ar_src == "configured":
	# We can't use "addtask do_ar_configured after do_configure" since it
	# will cause the deptask of do_populate_sysroot to run not matter what
	# archives we need, so we add the depends here.

	# There is a corner case with "gcc-source-${PV}" recipes, they don't have
	# the "do_configure" task, so we need to use "do_preconfigure"
	if pn.startswith("gcc-source-"):
	d.appendVarFlag('do_ar_configured', 'depends', ' %s:do_preconfigure' % pn)
	else:
	d.appendVarFlag('do_ar_configured', 'depends', ' %s:do_configure' % pn)
	d.appendVarFlag('do_deploy_archives', 'depends', ' %s:do_ar_configured' % pn)

	elif ar_src:
	bb.fatal("Invalid ARCHIVER_MODE[src]: %s" % ar_src)

	if ar_dumpdata == "1":
	d.appendVarFlag('do_deploy_archives', 'depends', ' %s:do_dumpdata' % pn)

	if ar_recipe == "1":
	d.appendVarFlag('do_deploy_archives', 'depends', ' %s:do_ar_recipe' % pn)

	# Output the srpm package
	ar_srpm = d.getVarFlag('ARCHIVER_MODE', 'srpm', True)
	if ar_srpm == "1":
	if d.getVar('PACKAGES', True) != '' and d.getVar('IMAGE_PKGTYPE', True) == 'rpm':
	d.appendVarFlag('do_deploy_archives', 'depends', ' %s:do_package_write_rpm' % pn)
	if ar_dumpdata == "1":
	d.appendVarFlag('do_package_write_rpm', 'depends', ' %s:do_dumpdata' % pn)
	if ar_recipe == "1":
	d.appendVarFlag('do_package_write_rpm', 'depends', ' %s:do_ar_recipe' % pn)
	if ar_src == "original":
	d.appendVarFlag('do_package_write_rpm', 'depends', ' %s:do_ar_original' % pn)
	elif ar_src == "patched":
	d.appendVarFlag('do_package_write_rpm', 'depends', ' %s:do_ar_patched' % pn)
	elif ar_src == "configured":
	d.appendVarFlag('do_package_write_rpm', 'depends', ' %s:do_ar_configured' % pn)
	}

	# Take all the sources for a recipe and puts them in WORKDIR/archiver-work/.
	# Files in SRC_URI are copied directly, anything that's a directory
	# (e.g. git repositories) is "unpacked" and then put into a tarball.
	python do_ar_original() {

	import shutil, tarfile, tempfile

	if d.getVarFlag('ARCHIVER_MODE', 'src', True) != "original":
	return

	ar_outdir = d.getVar('ARCHIVER_OUTDIR', True)
	bb.note('Archiving the original source...')
	fetch = bb.fetch2.Fetch([], d)
	for url in fetch.urls:
	local = fetch.localpath(url).rstrip("/");
	if os.path.isfile(local):
	shutil.copy(local, ar_outdir)
	elif os.path.isdir(local):
	tmpdir = tempfile.mkdtemp(dir=d.getVar('ARCHIVER_WORKDIR', True))
	fetch.unpack(tmpdir, (url,))
	create_tarball(d, tmpdir + '/.', '', ar_outdir)

	# Emit patch series files for 'original'
	bb.note('Writing patch series files...')
	for patch in src_patches(d):
	_, _, local, _, _, parm = bb.fetch.decodeurl(patch)
	patchdir = parm.get('patchdir')
	if patchdir:
	series = os.path.join(ar_outdir, 'series.subdir.%s' % patchdir.replace('/', '_'))
	else:
	series = os.path.join(ar_outdir, 'series')

	with open(series, 'a') as s:
	s.write('%s -p%s\n' % (os.path.basename(local), parm['striplevel']))
	}

	python do_ar_patched() {

	if d.getVarFlag('ARCHIVER_MODE', 'src', True) != 'patched':
	return

	# Get the ARCHIVER_OUTDIR before we reset the WORKDIR
	ar_outdir = d.getVar('ARCHIVER_OUTDIR', True)
	ar_workdir = d.getVar('ARCHIVER_WORKDIR', True)
	bb.note('Archiving the patched source...')
	d.setVar('WORKDIR', ar_workdir)
	create_tarball(d, d.getVar('S', True), 'patched', ar_outdir)
	}

	python do_ar_configured() {
	import shutil

	ar_outdir = d.getVar('ARCHIVER_OUTDIR', True)
	if d.getVarFlag('ARCHIVER_MODE', 'src', True) == 'configured':
	bb.note('Archiving the configured source...')
	pn = d.getVar('PN', True)
	# "gcc-source-${PV}" recipes don't have "do_configure"
	# task, so we need to run "do_preconfigure" instead
	if pn.startswith("gcc-source-"):
	d.setVar('WORKDIR', d.getVar('ARCHIVER_WORKDIR', True))
	bb.build.exec_func('do_preconfigure', d)

	# The libtool-native's do_configure will remove the
	# ${STAGING_DATADIR}/aclocal/libtool.m4, so we can't re-run the
	# do_configure, we archive the already configured ${S} to
	# instead of.
	elif pn != 'libtool-native':
	# Change the WORKDIR to make do_configure run in another dir.
	d.setVar('WORKDIR', d.getVar('ARCHIVER_WORKDIR', True))
	if bb.data.inherits_class('kernel-yocto', d):
	bb.build.exec_func('do_kernel_configme', d)
	if bb.data.inherits_class('cmake', d):
	bb.build.exec_func('do_generate_toolchain_file', d)
	prefuncs = d.getVarFlag('do_configure', 'prefuncs', True)
	for func in (prefuncs or '').split():
	if func != "sysroot_cleansstate":
	bb.build.exec_func(func, d)
	bb.build.exec_func('do_configure', d)
	postfuncs = d.getVarFlag('do_configure', 'postfuncs', True)
	for func in (postfuncs or '').split():
	if func != "do_qa_configure":
	bb.build.exec_func(func, d)
	srcdir = d.getVar('S', True)
	builddir = d.getVar('B', True)
	if srcdir != builddir:
	if os.path.exists(builddir):
	oe.path.copytree(builddir, os.path.join(srcdir, \
	'build.%s.ar_configured' % d.getVar('PF', True)))
	create_tarball(d, srcdir, 'configured', ar_outdir)
	}

	def create_tarball(d, srcdir, suffix, ar_outdir):
	"""
	create the tarball from srcdir
	"""
	import tarfile

	# Make sure we are only creating a single tarball for gcc sources
	if (d.getVar('SRC_URI', True) == ""):
	return

	bb.utils.mkdirhier(ar_outdir)
	if suffix:
	filename = '%s-%s.tar.gz' % (d.getVar('PF', True), suffix)
	else:
	filename = '%s.tar.gz' % d.getVar('PF', True)
	tarname = os.path.join(ar_outdir, filename)

	srcdir = srcdir.rstrip('/')
	dirname = os.path.dirname(srcdir)
	basename = os.path.basename(srcdir)
	os.chdir(dirname)
	bb.note('Creating %s' % tarname)
	tar = tarfile.open(tarname, 'w:gz')
	tar.add(basename)
	tar.close()

	# creating .diff.gz between source.orig and source
	def create_diff_gz(d, src_orig, src, ar_outdir):

	import subprocess

	if not os.path.isdir(src) or not os.path.isdir(src_orig):
	return

	# The diff --exclude can't exclude the file with path, so we copy
	# the patched source, and remove the files that we'd like to
	# exclude.
	src_patched = src + '.patched'
	oe.path.copyhardlinktree(src, src_patched)
	for i in d.getVarFlag('ARCHIVER_MODE', 'diff-exclude', True).split():
	bb.utils.remove(os.path.join(src_orig, i), recurse=True)
	bb.utils.remove(os.path.join(src_patched, i), recurse=True)

	dirname = os.path.dirname(src)
	basename = os.path.basename(src)
	os.chdir(dirname)
	out_file = os.path.join(ar_outdir, '%s-diff.gz' % d.getVar('PF', True))
	diff_cmd = 'diff -Naur %s.orig %s.patched \| gzip -c > %s' % (basename, basename, out_file)
	subprocess.call(diff_cmd, shell=True)
	bb.utils.remove(src_patched, recurse=True)

	# Run do_unpack and do_patch
	python do_unpack_and_patch() {
	if d.getVarFlag('ARCHIVER_MODE', 'src', True) not in \
	[ 'patched', 'configured'] and \
	d.getVarFlag('ARCHIVER_MODE', 'diff', True) != '1':
	return
	ar_outdir = d.getVar('ARCHIVER_OUTDIR', True)
	ar_workdir = d.getVar('ARCHIVER_WORKDIR', True)

	# The kernel class functions require it to be on work-shared, so we dont change WORKDIR
	if not bb.data.inherits_class('kernel-yocto', d):
	# Change the WORKDIR to make do_unpack do_patch run in another dir.
	d.setVar('WORKDIR', ar_workdir)

	# The changed 'WORKDIR' also caused 'B' changed, create dir 'B' for the
	# possibly requiring of the following tasks (such as some recipes's
	# do_patch required 'B' existed).
	bb.utils.mkdirhier(d.getVar('B', True))

	bb.build.exec_func('do_unpack', d)

	# Save the original source for creating the patches
	if d.getVarFlag('ARCHIVER_MODE', 'diff', True) == '1':
	src = d.getVar('S', True).rstrip('/')
	src_orig = '%s.orig' % src
	oe.path.copytree(src, src_orig)

	# Make sure gcc and kernel sources are patched only once
	if not ((d.getVar('SRC_URI', True) == "" or bb.data.inherits_class('kernel-yocto', d))):
	bb.build.exec_func('do_patch', d)

	# Create the patches
	if d.getVarFlag('ARCHIVER_MODE', 'diff', True) == '1':
	bb.note('Creating diff gz...')
	create_diff_gz(d, src_orig, src, ar_outdir)
	bb.utils.remove(src_orig, recurse=True)
	}

	python do_ar_recipe () {
	"""
	archive the recipe, including .bb and .inc.
	"""
	import re
	import shutil

	require_re = re.compile( r"require\s+(.+)" )
	include_re = re.compile( r"include\s+(.+)" )
	bbfile = d.getVar('FILE', True)
	outdir = os.path.join(d.getVar('WORKDIR', True), \
	'%s-recipe' % d.getVar('PF', True))
	bb.utils.mkdirhier(outdir)
	shutil.copy(bbfile, outdir)

	pn = d.getVar('PN', True)
	bbappend_files = d.getVar('BBINCLUDED', True).split()
	# If recipe name is aa, we need to match files like aa.bbappend and aa_1.1.bbappend
	# Files like aa1.bbappend or aa1_1.1.bbappend must be excluded.
	bbappend_re = re.compile( r"./%s_[^/]\.bbappend$" %pn)
	bbappend_re1 = re.compile( r".*/%s\.bbappend$" %pn)
	for file in bbappend_files:
	if bbappend_re.match(file) or bbappend_re1.match(file):
	shutil.copy(file, outdir)

	dirname = os.path.dirname(bbfile)
	bbpath = '%s:%s' % (dirname, d.getVar('BBPATH', True))
	f = open(bbfile, 'r')
	for line in f.readlines():
	incfile = None
	if require_re.match(line):
	incfile = require_re.match(line).group(1)
	elif include_re.match(line):
	incfile = include_re.match(line).group(1)
	if incfile:
	incfile = bb.data.expand(incfile, d)
	incfile = bb.utils.which(bbpath, incfile)
	if incfile:
	shutil.copy(incfile, outdir)

	create_tarball(d, outdir, 'recipe', d.getVar('ARCHIVER_OUTDIR', True))
	bb.utils.remove(outdir, recurse=True)
	}

	python do_dumpdata () {
	"""
	dump environment data to ${PF}-showdata.dump
	"""

	dumpfile = os.path.join(d.getVar('ARCHIVER_OUTDIR', True), \
	'%s-showdata.dump' % d.getVar('PF', True))
	bb.note('Dumping metadata into %s' % dumpfile)
	with open(dumpfile, "w") as f:
	# emit variables and shell functions
	bb.data.emit_env(f, d, True)
	# emit the metadata which isn't valid shell
	for e in d.keys():
	if d.getVarFlag(e, "python", False):
	f.write("\npython %s () {\n%s}\n" % (e, d.getVar(e, False)))
	}

	SSTATETASKS += "do_deploy_archives"
	do_deploy_archives () {
	echo "Deploying source archive files from ${ARCHIVER_TOPDIR} to ${DEPLOY_DIR_SRC}."
	}
	python do_deploy_archives_setscene () {
	sstate_setscene(d)
	}
	do_deploy_archives[dirs] = "${ARCHIVER_TOPDIR}"
	do_deploy_archives[sstate-inputdirs] = "${ARCHIVER_TOPDIR}"
	do_deploy_archives[sstate-outputdirs] = "${DEPLOY_DIR_SRC}"
	addtask do_deploy_archives_setscene

	addtask do_ar_original after do_unpack
	addtask do_unpack_and_patch after do_patch
	addtask do_ar_patched after do_unpack_and_patch
	addtask do_ar_configured after do_unpack_and_patch
	addtask do_dumpdata
	addtask do_ar_recipe
	addtask do_deploy_archives before do_build

	addtask do_deploy_all_archives after do_deploy_archives
	do_deploy_all_archives[recrdeptask] = "do_deploy_archives"
	do_deploy_all_archives[recideptask] = "do_${BB_DEFAULT_TASK}"
	do_deploy_all_archives() {
	:
	}

	python () {
	# Add tasks in the correct order, specifically for linux-yocto to avoid race condition
	if bb.data.inherits_class('kernel-yocto', d):
	bb.build.addtask('do_kernel_configme', 'do_configure', 'do_unpack_and_patch', d)
	}