poky/meta/classes/packagefeed-stability.bbclass - mdmillerii/openbmc - Gitiles

 # Class to avoid copying packages into the feed if they haven't materially changed
 #
 # Copyright (C) 2015 Intel Corporation
 # Released under the MIT license (see COPYING.MIT for details)
 #
 # This class effectively intercepts packages as they are written out by
 # do_package_write_*, causing them to be written into a different
 # directory where we can compare them to whatever older packages might
 # be in the "real" package feed directory, and avoid copying the new
 # package to the feed if it has not materially changed. The idea is to
 # avoid unnecessary churn in the packages when dependencies trigger task
 # reexecution (and thus repackaging). Enabling the class is simple:
 #
 # INHERIT += "packagefeed-stability"
 #
 # Caveats:
 # 1) Latest PR values in the build system may not match those in packages
 #    seen on the target (naturally)
 # 2) If you rebuild from sstate without the existing package feed present,
 #    you will lose the "state" of the package feed i.e. the preserved old
 #    package versions. Not the end of the world, but would negate the
 #    entire purpose of this class.
 #
 # Note that running -c cleanall on a recipe will purposely delete the old
 # package files so they will definitely be copied the next time.

 python() {
     if bb.data.inherits_class('native', d) or bb.data.inherits_class('cross', d):
         return
     # Package backend agnostic intercept
     # This assumes that the package_write task is called package_write_<pkgtype>
     # and that the directory in which packages should be written is
     # pointed to by the variable DEPLOY_DIR_<PKGTYPE>
     for pkgclass in (d.getVar('PACKAGE_CLASSES') or '').split():
         if pkgclass.startswith('package_'):
             pkgtype = pkgclass.split('_', 1)[1]
             pkgwritefunc = 'do_package_write_%s' % pkgtype
             sstate_outputdirs = d.getVarFlag(pkgwritefunc, 'sstate-outputdirs', False)
             deploydirvar = 'DEPLOY_DIR_%s' % pkgtype.upper()
             deploydirvarref = '${' + deploydirvar + '}'
             pkgcomparefunc = 'do_package_compare_%s' % pkgtype

             if bb.data.inherits_class('image', d):
                 d.appendVarFlag('do_rootfs', 'recrdeptask', ' ' + pkgcomparefunc)

             if bb.data.inherits_class('populate_sdk_base', d):
                 d.appendVarFlag('do_populate_sdk', 'recrdeptask', ' ' + pkgcomparefunc)

             if bb.data.inherits_class('populate_sdk_ext', d):
                 d.appendVarFlag('do_populate_sdk_ext', 'recrdeptask', ' ' + pkgcomparefunc)

             d.appendVarFlag('do_build', 'recrdeptask', ' ' + pkgcomparefunc)

             if d.getVarFlag(pkgwritefunc, 'noexec') or not d.getVarFlag(pkgwritefunc, 'task'):
                 # Packaging is disabled for this recipe, we shouldn't do anything
                 continue

             if deploydirvarref in sstate_outputdirs:
                 deplor_dir_pkgtype = d.expand(deploydirvarref + '-prediff')
                 # Set intermediate output directory
                 d.setVarFlag(pkgwritefunc, 'sstate-outputdirs', sstate_outputdirs.replace(deploydirvarref, deplor_dir_pkgtype))
                 # Update SSTATE_DUPWHITELIST to avoid shared location conflicted error
                 d.appendVar('SSTATE_DUPWHITELIST', ' %s' % deplor_dir_pkgtype)

             d.setVar(pkgcomparefunc, d.getVar('do_package_compare', False))
             d.setVarFlags(pkgcomparefunc, d.getVarFlags('do_package_compare', False))
             d.appendVarFlag(pkgcomparefunc, 'depends', ' build-compare-native:do_populate_sysroot')
             bb.build.addtask(pkgcomparefunc, 'do_build', 'do_packagedata ' + pkgwritefunc, d)
 }

 # This isn't the real task function - it's a template that we use in the
 # anonymous python code above
 fakeroot python do_package_compare () {
     currenttask = d.getVar('BB_CURRENTTASK')
     pkgtype = currenttask.rsplit('_', 1)[1]
     package_compare_impl(pkgtype, d)
 }

 def package_compare_impl(pkgtype, d):
     import errno
     import fnmatch
     import glob
     import subprocess
     import oe.sstatesig

     pn = d.getVar('PN')
     deploydir = d.getVar('DEPLOY_DIR_%s' % pkgtype.upper())
     prepath = deploydir + '-prediff/'

     # Find out PKGR values are
     pkgdatadir = d.getVar('PKGDATA_DIR')
     packages = []
     try:
         with open(os.path.join(pkgdatadir, pn), 'r') as f:
             for line in f:
                 if line.startswith('PACKAGES:'):
                     packages = line.split(':', 1)[1].split()
                     break
     except IOError as e:
         if e.errno == errno.ENOENT:
             pass

     if not packages:
         bb.debug(2, '%s: no packages, nothing to do' % pn)
         return

     pkgrvalues = {}
     rpkgnames = {}
     rdepends = {}
     pkgvvalues = {}
     for pkg in packages:
         with open(os.path.join(pkgdatadir, 'runtime', pkg), 'r') as f:
             for line in f:
                 if line.startswith('PKGR:'):
                     pkgrvalues[pkg] = line.split(':', 1)[1].strip()
                 if line.startswith('PKGV:'):
                     pkgvvalues[pkg] = line.split(':', 1)[1].strip()
                 elif line.startswith('PKG_%s:' % pkg):
                     rpkgnames[pkg] = line.split(':', 1)[1].strip()
                 elif line.startswith('RDEPENDS_%s:' % pkg):
                     rdepends[pkg] = line.split(':', 1)[1].strip()

     # Prepare a list of the runtime package names for packages that were
     # actually produced
     rpkglist = []
     for pkg, rpkg in rpkgnames.items():
         if os.path.exists(os.path.join(pkgdatadir, 'runtime', pkg + '.packaged')):
             rpkglist.append((rpkg, pkg))
     rpkglist.sort(key=lambda x: len(x[0]), reverse=True)

     pvu = d.getVar('PV', False)
     if '$' + '{SRCPV}' in pvu:
         pvprefix = pvu.split('$' + '{SRCPV}', 1)[0]
     else:
         pvprefix = None

     pkgwritetask = 'package_write_%s' % pkgtype
     files = []
     docopy = False
     manifest, _ = oe.sstatesig.sstate_get_manifest_filename(pkgwritetask, d)
     mlprefix = d.getVar('MLPREFIX')
     # Copy recipe's all packages if one of the packages are different to make
     # they have the same PR.
     with open(manifest, 'r') as f:
         for line in f:
             if line.startswith(prepath):
                 srcpath = line.rstrip()
                 if os.path.isfile(srcpath):
                     destpath = os.path.join(deploydir, os.path.relpath(srcpath, prepath))

                     # This is crude but should work assuming the output
                     # package file name starts with the package name
                     # and rpkglist is sorted by length (descending)
                     pkgbasename = os.path.basename(destpath)
                     pkgname = None
                     for rpkg, pkg in rpkglist:
                         if mlprefix and pkgtype == 'rpm' and rpkg.startswith(mlprefix):
                             rpkg = rpkg[len(mlprefix):]
                         if pkgbasename.startswith(rpkg):
                             pkgr = pkgrvalues[pkg]
                             destpathspec = destpath.replace(pkgr, '*')
                             if pvprefix:
                                 pkgv = pkgvvalues[pkg]
                                 if pkgv.startswith(pvprefix):
                                     pkgvsuffix = pkgv[len(pvprefix):]
                                     if '+' in pkgvsuffix:
                                         newpkgv = pvprefix + '*+' + pkgvsuffix.split('+', 1)[1]
                                         destpathspec = destpathspec.replace(pkgv, newpkgv)
                             pkgname = pkg
                             break
                     else:
                         bb.warn('Unable to map %s back to package' % pkgbasename)
                         destpathspec = destpath

                     oldfile = None
                     if not docopy:
                         oldfiles = glob.glob(destpathspec)
                         if oldfiles:
                             oldfile = oldfiles[-1]
                             result = subprocess.call(['pkg-diff.sh', oldfile, srcpath])
                             if result != 0:
                                 docopy = True
                                 bb.note("%s and %s are different, will copy packages" % (oldfile, srcpath))
                         else:
                             docopy = True
                             bb.note("No old packages found for %s, will copy packages" % pkgname)

                     files.append((pkgname, pkgbasename, srcpath, destpath))

     # Remove all the old files and copy again if docopy
     if docopy:
         bb.note('Copying packages for recipe %s' % pn)
         pcmanifest = os.path.join(prepath, d.expand('pkg-compare-manifest-${MULTIMACH_TARGET_SYS}-${PN}'))
         try:
             with open(pcmanifest, 'r') as f:
                 for line in f:
                     fn = line.rstrip()
                     if fn:
                         try:
                             os.remove(fn)
                             bb.note('Removed old package %s' % fn)
                         except OSError as e:
                             if e.errno == errno.ENOENT:
                                 pass
         except IOError as e:
             if e.errno == errno.ENOENT:
                 pass

         # Create new manifest
         with open(pcmanifest, 'w') as f:
             for pkgname, pkgbasename, srcpath, destpath in files:
                 destdir = os.path.dirname(destpath)
                 bb.utils.mkdirhier(destdir)
                 # Remove allarch rpm pkg if it is already existed (for
                 # multilib), they're identical in theory, but sstate.bbclass
                 # copies it again, so keep align with that.
                 if os.path.exists(destpath) and pkgtype == 'rpm' \
                         and d.getVar('PACKAGE_ARCH') == 'all':
                     os.unlink(destpath)
                 if (os.stat(srcpath).st_dev == os.stat(destdir).st_dev):
                     # Use a hard link to save space
                     os.link(srcpath, destpath)
                 else:
                     shutil.copyfile(srcpath, destpath)
                 f.write('%s\n' % destpath)
     else:
         bb.note('Not copying packages for recipe %s' % pn)

 do_cleansstate[postfuncs] += "pfs_cleanpkgs"
 python pfs_cleanpkgs () {
     import errno
     for pkgclass in (d.getVar('PACKAGE_CLASSES') or '').split():
         if pkgclass.startswith('package_'):
             pkgtype = pkgclass.split('_', 1)[1]
             deploydir = d.getVar('DEPLOY_DIR_%s' % pkgtype.upper())
             prepath = deploydir + '-prediff'
             pcmanifest = os.path.join(prepath, d.expand('pkg-compare-manifest-${MULTIMACH_TARGET_SYS}-${PN}'))
             try:
                 with open(pcmanifest, 'r') as f:
                     for line in f:
                         fn = line.rstrip()
                         if fn:
                             try:
                                 os.remove(fn)
                             except OSError as e:
                                 if e.errno == errno.ENOENT:
                                     pass
                 os.remove(pcmanifest)
             except IOError as e:
                 if e.errno == errno.ENOENT:
                     pass
 }
	# Class to avoid copying packages into the feed if they haven't materially changed
	#
	# Copyright (C) 2015 Intel Corporation
	# Released under the MIT license (see COPYING.MIT for details)
	#
	# This class effectively intercepts packages as they are written out by
	# do_package_write_*, causing them to be written into a different
	# directory where we can compare them to whatever older packages might
	# be in the "real" package feed directory, and avoid copying the new
	# package to the feed if it has not materially changed. The idea is to
	# avoid unnecessary churn in the packages when dependencies trigger task
	# reexecution (and thus repackaging). Enabling the class is simple:
	#
	# INHERIT += "packagefeed-stability"
	#
	# Caveats:
	# 1) Latest PR values in the build system may not match those in packages
	# seen on the target (naturally)
	# 2) If you rebuild from sstate without the existing package feed present,
	# you will lose the "state" of the package feed i.e. the preserved old
	# package versions. Not the end of the world, but would negate the
	# entire purpose of this class.
	#
	# Note that running -c cleanall on a recipe will purposely delete the old
	# package files so they will definitely be copied the next time.

	python() {
	if bb.data.inherits_class('native', d) or bb.data.inherits_class('cross', d):
	return
	# Package backend agnostic intercept
	# This assumes that the package_write task is called package_write_<pkgtype>
	# and that the directory in which packages should be written is
	# pointed to by the variable DEPLOY_DIR_<PKGTYPE>
	for pkgclass in (d.getVar('PACKAGE_CLASSES') or '').split():
	if pkgclass.startswith('package_'):
	pkgtype = pkgclass.split('_', 1)[1]
	pkgwritefunc = 'do_package_write_%s' % pkgtype
	sstate_outputdirs = d.getVarFlag(pkgwritefunc, 'sstate-outputdirs', False)
	deploydirvar = 'DEPLOY_DIR_%s' % pkgtype.upper()
	deploydirvarref = '${' + deploydirvar + '}'
	pkgcomparefunc = 'do_package_compare_%s' % pkgtype

	if bb.data.inherits_class('image', d):
	d.appendVarFlag('do_rootfs', 'recrdeptask', ' ' + pkgcomparefunc)

	if bb.data.inherits_class('populate_sdk_base', d):
	d.appendVarFlag('do_populate_sdk', 'recrdeptask', ' ' + pkgcomparefunc)

	if bb.data.inherits_class('populate_sdk_ext', d):
	d.appendVarFlag('do_populate_sdk_ext', 'recrdeptask', ' ' + pkgcomparefunc)

	d.appendVarFlag('do_build', 'recrdeptask', ' ' + pkgcomparefunc)

	if d.getVarFlag(pkgwritefunc, 'noexec') or not d.getVarFlag(pkgwritefunc, 'task'):
	# Packaging is disabled for this recipe, we shouldn't do anything
	continue

	if deploydirvarref in sstate_outputdirs:
	deplor_dir_pkgtype = d.expand(deploydirvarref + '-prediff')
	# Set intermediate output directory
	d.setVarFlag(pkgwritefunc, 'sstate-outputdirs', sstate_outputdirs.replace(deploydirvarref, deplor_dir_pkgtype))
	# Update SSTATE_DUPWHITELIST to avoid shared location conflicted error
	d.appendVar('SSTATE_DUPWHITELIST', ' %s' % deplor_dir_pkgtype)

	d.setVar(pkgcomparefunc, d.getVar('do_package_compare', False))
	d.setVarFlags(pkgcomparefunc, d.getVarFlags('do_package_compare', False))
	d.appendVarFlag(pkgcomparefunc, 'depends', ' build-compare-native:do_populate_sysroot')
	bb.build.addtask(pkgcomparefunc, 'do_build', 'do_packagedata ' + pkgwritefunc, d)
	}

	# This isn't the real task function - it's a template that we use in the
	# anonymous python code above
	fakeroot python do_package_compare () {
	currenttask = d.getVar('BB_CURRENTTASK')
	pkgtype = currenttask.rsplit('_', 1)[1]
	package_compare_impl(pkgtype, d)
	}

	def package_compare_impl(pkgtype, d):
	import errno
	import fnmatch
	import glob
	import subprocess
	import oe.sstatesig

	pn = d.getVar('PN')
	deploydir = d.getVar('DEPLOY_DIR_%s' % pkgtype.upper())
	prepath = deploydir + '-prediff/'

	# Find out PKGR values are
	pkgdatadir = d.getVar('PKGDATA_DIR')
	packages = []
	try:
	with open(os.path.join(pkgdatadir, pn), 'r') as f:
	for line in f:
	if line.startswith('PACKAGES:'):
	packages = line.split(':', 1)[1].split()
	break
	except IOError as e:
	if e.errno == errno.ENOENT:
	pass

	if not packages:
	bb.debug(2, '%s: no packages, nothing to do' % pn)
	return

	pkgrvalues = {}
	rpkgnames = {}
	rdepends = {}
	pkgvvalues = {}
	for pkg in packages:
	with open(os.path.join(pkgdatadir, 'runtime', pkg), 'r') as f:
	for line in f:
	if line.startswith('PKGR:'):
	pkgrvalues[pkg] = line.split(':', 1)[1].strip()
	if line.startswith('PKGV:'):
	pkgvvalues[pkg] = line.split(':', 1)[1].strip()
	elif line.startswith('PKG_%s:' % pkg):
	rpkgnames[pkg] = line.split(':', 1)[1].strip()
	elif line.startswith('RDEPENDS_%s:' % pkg):
	rdepends[pkg] = line.split(':', 1)[1].strip()

	# Prepare a list of the runtime package names for packages that were
	# actually produced
	rpkglist = []
	for pkg, rpkg in rpkgnames.items():
	if os.path.exists(os.path.join(pkgdatadir, 'runtime', pkg + '.packaged')):
	rpkglist.append((rpkg, pkg))
	rpkglist.sort(key=lambda x: len(x[0]), reverse=True)

	pvu = d.getVar('PV', False)
	if '$' + '{SRCPV}' in pvu:
	pvprefix = pvu.split('$' + '{SRCPV}', 1)[0]
	else:
	pvprefix = None

	pkgwritetask = 'package_write_%s' % pkgtype
	files = []
	docopy = False
	manifest, _ = oe.sstatesig.sstate_get_manifest_filename(pkgwritetask, d)
	mlprefix = d.getVar('MLPREFIX')
	# Copy recipe's all packages if one of the packages are different to make
	# they have the same PR.
	with open(manifest, 'r') as f:
	for line in f:
	if line.startswith(prepath):
	srcpath = line.rstrip()
	if os.path.isfile(srcpath):
	destpath = os.path.join(deploydir, os.path.relpath(srcpath, prepath))

	# This is crude but should work assuming the output
	# package file name starts with the package name
	# and rpkglist is sorted by length (descending)
	pkgbasename = os.path.basename(destpath)
	pkgname = None
	for rpkg, pkg in rpkglist:
	if mlprefix and pkgtype == 'rpm' and rpkg.startswith(mlprefix):
	rpkg = rpkg[len(mlprefix):]
	if pkgbasename.startswith(rpkg):
	pkgr = pkgrvalues[pkg]
	destpathspec = destpath.replace(pkgr, '*')
	if pvprefix:
	pkgv = pkgvvalues[pkg]
	if pkgv.startswith(pvprefix):
	pkgvsuffix = pkgv[len(pvprefix):]
	if '+' in pkgvsuffix:
	newpkgv = pvprefix + '*+' + pkgvsuffix.split('+', 1)[1]
	destpathspec = destpathspec.replace(pkgv, newpkgv)
	pkgname = pkg
	break
	else:
	bb.warn('Unable to map %s back to package' % pkgbasename)
	destpathspec = destpath

	oldfile = None
	if not docopy:
	oldfiles = glob.glob(destpathspec)
	if oldfiles:
	oldfile = oldfiles[-1]
	result = subprocess.call(['pkg-diff.sh', oldfile, srcpath])
	if result != 0:
	docopy = True
	bb.note("%s and %s are different, will copy packages" % (oldfile, srcpath))
	else:
	docopy = True
	bb.note("No old packages found for %s, will copy packages" % pkgname)

	files.append((pkgname, pkgbasename, srcpath, destpath))

	# Remove all the old files and copy again if docopy
	if docopy:
	bb.note('Copying packages for recipe %s' % pn)
	pcmanifest = os.path.join(prepath, d.expand('pkg-compare-manifest-${MULTIMACH_TARGET_SYS}-${PN}'))
	try:
	with open(pcmanifest, 'r') as f:
	for line in f:
	fn = line.rstrip()
	if fn:
	try:
	os.remove(fn)
	bb.note('Removed old package %s' % fn)
	except OSError as e:
	if e.errno == errno.ENOENT:
	pass
	except IOError as e:
	if e.errno == errno.ENOENT:
	pass

	# Create new manifest
	with open(pcmanifest, 'w') as f:
	for pkgname, pkgbasename, srcpath, destpath in files:
	destdir = os.path.dirname(destpath)
	bb.utils.mkdirhier(destdir)
	# Remove allarch rpm pkg if it is already existed (for
	# multilib), they're identical in theory, but sstate.bbclass
	# copies it again, so keep align with that.
	if os.path.exists(destpath) and pkgtype == 'rpm' \
	and d.getVar('PACKAGE_ARCH') == 'all':
	os.unlink(destpath)
	if (os.stat(srcpath).st_dev == os.stat(destdir).st_dev):
	# Use a hard link to save space
	os.link(srcpath, destpath)
	else:
	shutil.copyfile(srcpath, destpath)
	f.write('%s\n' % destpath)
	else:
	bb.note('Not copying packages for recipe %s' % pn)

	do_cleansstate[postfuncs] += "pfs_cleanpkgs"
	python pfs_cleanpkgs () {
	import errno
	for pkgclass in (d.getVar('PACKAGE_CLASSES') or '').split():
	if pkgclass.startswith('package_'):
	pkgtype = pkgclass.split('_', 1)[1]
	deploydir = d.getVar('DEPLOY_DIR_%s' % pkgtype.upper())
	prepath = deploydir + '-prediff'
	pcmanifest = os.path.join(prepath, d.expand('pkg-compare-manifest-${MULTIMACH_TARGET_SYS}-${PN}'))
	try:
	with open(pcmanifest, 'r') as f:
	for line in f:
	fn = line.rstrip()
	if fn:
	try:
	os.remove(fn)
	except OSError as e:
	if e.errno == errno.ENOENT:
	pass
	os.remove(pcmanifest)
	except IOError as e:
	if e.errno == errno.ENOENT:
	pass
	}