# Populates LICENSE_DIRECTORY as set in distro config with the license files as set by # LIC_FILES_CHKSUM. # TODO: # - There is a real issue revolving around license naming standards. LICENSE_DIRECTORY ??= "${DEPLOY_DIR}/licenses" LICSSTATEDIR = "${WORKDIR}/license-destdir/" # Create extra package with license texts and add it to RRECOMMENDS_${PN} LICENSE_CREATE_PACKAGE[type] = "boolean" LICENSE_CREATE_PACKAGE ??= "0" LICENSE_PACKAGE_SUFFIX ??= "-lic" LICENSE_FILES_DIRECTORY ??= "${datadir}/licenses/" addtask populate_lic after do_patch before do_build do_populate_lic[dirs] = "${LICSSTATEDIR}/${PN}" do_populate_lic[cleandirs] = "${LICSSTATEDIR}" python write_package_manifest() { # Get list of installed packages license_image_dir = d.expand('${LICENSE_DIRECTORY}/${IMAGE_NAME}') bb.utils.mkdirhier(license_image_dir) from oe.rootfs import image_list_installed_packages from oe.utils import format_pkg_list pkgs = image_list_installed_packages(d) output = format_pkg_list(pkgs) open(os.path.join(license_image_dir, 'package.manifest'), 'w+').write(output) } python write_deploy_manifest() { license_deployed_manifest(d) } python license_create_manifest() { import oe.packagedata from oe.rootfs import image_list_installed_packages build_images_from_feeds = d.getVar('BUILD_IMAGES_FROM_FEEDS', True) if build_images_from_feeds == "1": return 0 pkg_dic = {} for pkg in sorted(image_list_installed_packages(d)): pkg_info = os.path.join(d.getVar('PKGDATA_DIR', True), 'runtime-reverse', pkg) pkg_name = os.path.basename(os.readlink(pkg_info)) pkg_dic[pkg_name] = oe.packagedata.read_pkgdatafile(pkg_info) if not "LICENSE" in pkg_dic[pkg_name].keys(): pkg_lic_name = "LICENSE_" + pkg_name pkg_dic[pkg_name]["LICENSE"] = pkg_dic[pkg_name][pkg_lic_name] rootfs_license_manifest = os.path.join(d.getVar('LICENSE_DIRECTORY', True), d.getVar('IMAGE_NAME', True), 'license.manifest') write_license_files(d, rootfs_license_manifest, pkg_dic) } def write_license_files(d, license_manifest, pkg_dic): import re bad_licenses = (d.getVar("INCOMPATIBLE_LICENSE", True) or "").split() bad_licenses = map(lambda l: canonical_license(d, l), bad_licenses) bad_licenses = expand_wildcard_licenses(d, bad_licenses) with open(license_manifest, "w") as license_file: for pkg in sorted(pkg_dic): if bad_licenses: try: (pkg_dic[pkg]["LICENSE"], pkg_dic[pkg]["LICENSES"]) = \ oe.license.manifest_licenses(pkg_dic[pkg]["LICENSE"], bad_licenses, canonical_license, d) except oe.license.LicenseError as exc: bb.fatal('%s: %s' % (d.getVar('P', True), exc)) else: pkg_dic[pkg]["LICENSES"] = re.sub('[|&()*]', ' ', pkg_dic[pkg]["LICENSE"]) pkg_dic[pkg]["LICENSES"] = re.sub(' *', ' ', pkg_dic[pkg]["LICENSES"]) pkg_dic[pkg]["LICENSES"] = pkg_dic[pkg]["LICENSES"].split() if not "IMAGE_MANIFEST" in pkg_dic[pkg]: # Rootfs manifest license_file.write("PACKAGE NAME: %s\n" % pkg) license_file.write("PACKAGE VERSION: %s\n" % pkg_dic[pkg]["PV"]) license_file.write("RECIPE NAME: %s\n" % pkg_dic[pkg]["PN"]) license_file.write("LICENSE: %s\n\n" % pkg_dic[pkg]["LICENSE"]) # If the package doesn't contain any file, that is, its size is 0, the license # isn't relevant as far as the final image is concerned. So doing license check # doesn't make much sense, skip it. if pkg_dic[pkg]["PKGSIZE_%s" % pkg] == "0": continue else: # Image manifest license_file.write("RECIPE NAME: %s\n" % pkg_dic[pkg]["PN"]) license_file.write("VERSION: %s\n" % pkg_dic[pkg]["PV"]) license_file.write("LICENSE: %s\n" % pkg_dic[pkg]["LICENSE"]) license_file.write("FILES: %s\n\n" % pkg_dic[pkg]["FILES"]) for lic in pkg_dic[pkg]["LICENSES"]: lic_file = os.path.join(d.getVar('LICENSE_DIRECTORY', True), pkg_dic[pkg]["PN"], "generic_%s" % re.sub('\+', '', lic)) # add explicity avoid of CLOSED license because isn't generic if lic == "CLOSED": continue if not os.path.exists(lic_file): bb.warn("The license listed %s was not in the "\ "licenses collected for recipe %s" % (lic, pkg_dic[pkg]["PN"])) # Two options here: # - Just copy the manifest # - Copy the manifest and the license directories # With both options set we see a .5 M increase in core-image-minimal copy_lic_manifest = d.getVar('COPY_LIC_MANIFEST', True) copy_lic_dirs = d.getVar('COPY_LIC_DIRS', True) if copy_lic_manifest == "1": rootfs_license_dir = os.path.join(d.getVar('IMAGE_ROOTFS', 'True'), 'usr', 'share', 'common-licenses') bb.utils.mkdirhier(rootfs_license_dir) rootfs_license_manifest = os.path.join(rootfs_license_dir, os.path.split(license_manifest)[1]) if not os.path.exists(rootfs_license_manifest): os.link(license_manifest, rootfs_license_manifest) if copy_lic_dirs == "1": for pkg in sorted(pkg_dic): pkg_rootfs_license_dir = os.path.join(rootfs_license_dir, pkg) bb.utils.mkdirhier(pkg_rootfs_license_dir) pkg_license_dir = os.path.join(d.getVar('LICENSE_DIRECTORY', True), pkg_dic[pkg]["PN"]) licenses = os.listdir(pkg_license_dir) for lic in licenses: rootfs_license = os.path.join(rootfs_license_dir, lic) pkg_license = os.path.join(pkg_license_dir, lic) pkg_rootfs_license = os.path.join(pkg_rootfs_license_dir, lic) if re.match("^generic_.*$", lic): generic_lic = re.search("^generic_(.*)$", lic).group(1) if oe.license.license_ok(canonical_license(d, generic_lic), bad_licenses) == False: continue if not os.path.exists(rootfs_license): os.link(pkg_license, rootfs_license) if not os.path.exists(pkg_rootfs_license): os.symlink(os.path.join('..', lic), pkg_rootfs_license) else: if (oe.license.license_ok(canonical_license(d, lic), bad_licenses) == False or os.path.exists(pkg_rootfs_license)): continue os.link(pkg_license, pkg_rootfs_license) def license_deployed_manifest(d): """ Write the license manifest for the deployed recipes. The deployed recipes usually includes the bootloader and extra files to boot the target. """ dep_dic = {} man_dic = {} lic_dir = d.getVar("LICENSE_DIRECTORY", True) dep_dic = get_deployed_dependencies(d) for dep in dep_dic.keys(): man_dic[dep] = {} # It is necessary to mark this will be used for image manifest man_dic[dep]["IMAGE_MANIFEST"] = True man_dic[dep]["PN"] = dep man_dic[dep]["FILES"] = \ " ".join(get_deployed_files(dep_dic[dep])) with open(os.path.join(lic_dir, dep, "recipeinfo"), "r") as f: for line in f.readlines(): key,val = line.split(": ", 1) man_dic[dep][key] = val[:-1] lic_manifest_dir = os.path.join(d.getVar('LICENSE_DIRECTORY', True), d.getVar('IMAGE_NAME', True)) bb.utils.mkdirhier(lic_manifest_dir) image_license_manifest = os.path.join(lic_manifest_dir, 'image_license.manifest') write_license_files(d, image_license_manifest, man_dic) def get_deployed_dependencies(d): """ Get all the deployed dependencies of an image """ deploy = {} # Get all the dependencies for the current task (rootfs). # Also get EXTRA_IMAGEDEPENDS because the bootloader is # usually in this var and not listed in rootfs. # At last, get the dependencies from boot classes because # it might contain the bootloader. taskdata = d.getVar("BB_TASKDEPDATA", False) depends = list(set([dep[0] for dep in list(taskdata.values()) if not dep[0].endswith("-native")])) extra_depends = d.getVar("EXTRA_IMAGEDEPENDS", True) boot_depends = get_boot_dependencies(d) depends.extend(extra_depends.split()) depends.extend(boot_depends) depends = list(set(depends)) # To verify what was deployed it checks the rootfs dependencies against # the SSTATE_MANIFESTS for "deploy" task. # The manifest file name contains the arch. Because we are not running # in the recipe context it is necessary to check every arch used. sstate_manifest_dir = d.getVar("SSTATE_MANIFESTS", True) sstate_archs = d.getVar("SSTATE_ARCHS", True) extra_archs = d.getVar("PACKAGE_EXTRA_ARCHS", True) archs = list(set(("%s %s" % (sstate_archs, extra_archs)).split())) for dep in depends: # Some recipes have an arch on their own, so we try that first. special_arch = d.getVar("PACKAGE_ARCH_pn-%s" % dep, True) if special_arch: sstate_manifest_file = os.path.join(sstate_manifest_dir, "manifest-%s-%s.deploy" % (special_arch, dep)) if os.path.exists(sstate_manifest_file): deploy[dep] = sstate_manifest_file continue for arch in archs: sstate_manifest_file = os.path.join(sstate_manifest_dir, "manifest-%s-%s.deploy" % (arch, dep)) if os.path.exists(sstate_manifest_file): deploy[dep] = sstate_manifest_file break return deploy get_deployed_dependencies[vardepsexclude] = "BB_TASKDEPDATA" def get_boot_dependencies(d): """ Return the dependencies from boot tasks """ depends = [] boot_depends_string = "" taskdepdata = d.getVar("BB_TASKDEPDATA", False) # Only bootimg and bootdirectdisk include the depends flag boot_tasks = ["do_bootimg", "do_bootdirectdisk",] for task in boot_tasks: boot_depends_string = "%s %s" % (boot_depends_string, d.getVarFlag(task, "depends", True) or "") boot_depends = [dep.split(":")[0] for dep in boot_depends_string.split() if not dep.split(":")[0].endswith("-native")] for dep in boot_depends: info_file = os.path.join(d.getVar("LICENSE_DIRECTORY", True), dep, "recipeinfo") # If the recipe and dependency name is the same if os.path.exists(info_file): depends.append(dep) # We need to search for the provider of the dependency else: for taskdep in taskdepdata.values(): # The fifth field contains what the task provides if dep in taskdep[4]: info_file = os.path.join( d.getVar("LICENSE_DIRECTORY", True), taskdep[0], "recipeinfo") if os.path.exists(info_file): depends.append(taskdep[0]) break return depends get_boot_dependencies[vardepsexclude] = "BB_TASKDEPDATA" def get_deployed_files(man_file): """ Get the files deployed from the sstate manifest """ dep_files = [] excluded_files = ["README_-_DO_NOT_DELETE_FILES_IN_THIS_DIRECTORY.txt"] with open(man_file, "r") as manifest: all_files = manifest.read() for f in all_files.splitlines(): if ((not (os.path.islink(f) or os.path.isdir(f))) and not os.path.basename(f) in excluded_files): dep_files.append(os.path.basename(f)) return dep_files python do_populate_lic() { """ Populate LICENSE_DIRECTORY with licenses. """ lic_files_paths = find_license_files(d) # The base directory we wrangle licenses to destdir = os.path.join(d.getVar('LICSSTATEDIR', True), d.getVar('PN', True)) copy_license_files(lic_files_paths, destdir) info = get_recipe_info(d) with open(os.path.join(destdir, "recipeinfo"), "w") as f: for key in sorted(info.keys()): f.write("%s: %s\n" % (key, info[key])) } # it would be better to copy them in do_install_append, but find_license_filesa is python python perform_packagecopy_prepend () { enabled = oe.data.typed_value('LICENSE_CREATE_PACKAGE', d) if d.getVar('CLASSOVERRIDE', True) == 'class-target' and enabled: lic_files_paths = find_license_files(d) # LICENSE_FILES_DIRECTORY starts with '/' so os.path.join cannot be used to join D and LICENSE_FILES_DIRECTORY destdir = d.getVar('D', True) + os.path.join(d.getVar('LICENSE_FILES_DIRECTORY', True), d.getVar('PN', True)) copy_license_files(lic_files_paths, destdir) add_package_and_files(d) } perform_packagecopy[vardeps] += "LICENSE_CREATE_PACKAGE" def get_recipe_info(d): info = {} info["PV"] = d.getVar("PV", True) info["PR"] = d.getVar("PR", True) info["LICENSE"] = d.getVar("LICENSE", True) return info def add_package_and_files(d): packages = d.getVar('PACKAGES', True) files = d.getVar('LICENSE_FILES_DIRECTORY', True) pn = d.getVar('PN', True) pn_lic = "%s%s" % (pn, d.getVar('LICENSE_PACKAGE_SUFFIX', False)) if pn_lic in packages: bb.warn("%s package already existed in %s." % (pn_lic, pn)) else: # first in PACKAGES to be sure that nothing else gets LICENSE_FILES_DIRECTORY d.setVar('PACKAGES', "%s %s" % (pn_lic, packages)) d.setVar('FILES_' + pn_lic, files) rrecommends_pn = d.getVar('RRECOMMENDS_' + pn, True) if rrecommends_pn: d.setVar('RRECOMMENDS_' + pn, "%s %s" % (pn_lic, rrecommends_pn)) else: d.setVar('RRECOMMENDS_' + pn, "%s" % (pn_lic)) def copy_license_files(lic_files_paths, destdir): import shutil import errno bb.utils.mkdirhier(destdir) for (basename, path) in lic_files_paths: try: src = path dst = os.path.join(destdir, basename) if os.path.exists(dst): os.remove(dst) if os.path.islink(src): src = os.path.realpath(src) canlink = os.access(src, os.W_OK) and (os.stat(src).st_dev == os.stat(destdir).st_dev) if canlink: try: os.link(src, dst) except OSError as err: if err.errno == errno.EXDEV: # Copy license files if hard-link is not possible even if st_dev is the # same on source and destination (docker container with device-mapper?) canlink = False else: raise try: if canlink: os.chown(dst,0,0) except OSError as err: if err.errno in (errno.EPERM, errno.EINVAL): # Suppress "Operation not permitted" error, as # sometimes this function is not executed under pseudo. # Also ignore "Invalid argument" errors that happen in # some (unprivileged) container environments (no root). pass else: raise if not canlink: shutil.copyfile(src, dst) except Exception as e: bb.warn("Could not copy license file %s to %s: %s" % (src, dst, e)) def find_license_files(d): """ Creates list of files used in LIC_FILES_CHKSUM and generic LICENSE files. """ import shutil import oe.license from collections import defaultdict, OrderedDict # All the license files for the package lic_files = d.getVar('LIC_FILES_CHKSUM', True) or "" pn = d.getVar('PN', True) # The license files are located in S/LIC_FILE_CHECKSUM. srcdir = d.getVar('S', True) # Directory we store the generic licenses as set in the distro configuration generic_directory = d.getVar('COMMON_LICENSE_DIR', True) # List of basename, path tuples lic_files_paths = [] # Entries from LIC_FILES_CHKSUM lic_chksums = {} license_source_dirs = [] license_source_dirs.append(generic_directory) try: additional_lic_dirs = d.getVar('LICENSE_PATH', True).split() for lic_dir in additional_lic_dirs: license_source_dirs.append(lic_dir) except: pass class FindVisitor(oe.license.LicenseVisitor): def visit_Str(self, node): # # Until I figure out what to do with # the two modifiers I support (or greater = + # and "with exceptions" being * # we'll just strip out the modifier and put # the base license. find_license(node.s.replace("+", "").replace("*", "")) self.generic_visit(node) def find_license(license_type): try: bb.utils.mkdirhier(gen_lic_dest) except: pass spdx_generic = None license_source = None # If the generic does not exist we need to check to see if there is an SPDX mapping to it, # unless NO_GENERIC_LICENSE is set. for lic_dir in license_source_dirs: if not os.path.isfile(os.path.join(lic_dir, license_type)): if d.getVarFlag('SPDXLICENSEMAP', license_type, True) != None: # Great, there is an SPDXLICENSEMAP. We can copy! bb.debug(1, "We need to use a SPDXLICENSEMAP for %s" % (license_type)) spdx_generic = d.getVarFlag('SPDXLICENSEMAP', license_type, True) license_source = lic_dir break elif os.path.isfile(os.path.join(lic_dir, license_type)): spdx_generic = license_type license_source = lic_dir break non_generic_lic = d.getVarFlag('NO_GENERIC_LICENSE', license_type, True) if spdx_generic and license_source: # we really should copy to generic_ + spdx_generic, however, that ends up messing the manifest # audit up. This should be fixed in emit_pkgdata (or, we actually got and fix all the recipes) lic_files_paths.append(("generic_" + license_type, os.path.join(license_source, spdx_generic))) # The user may attempt to use NO_GENERIC_LICENSE for a generic license which doesn't make sense # and should not be allowed, warn the user in this case. if d.getVarFlag('NO_GENERIC_LICENSE', license_type, True): bb.warn("%s: %s is a generic license, please don't use NO_GENERIC_LICENSE for it." % (pn, license_type)) elif non_generic_lic and non_generic_lic in lic_chksums: # if NO_GENERIC_LICENSE is set, we copy the license files from the fetched source # of the package rather than the license_source_dirs. lic_files_paths.append(("generic_" + license_type, os.path.join(srcdir, non_generic_lic))) else: # Add explicity avoid of CLOSED license because this isn't generic if license_type != 'CLOSED': # And here is where we warn people that their licenses are lousy bb.warn("%s: No generic license file exists for: %s in any provider" % (pn, license_type)) pass if not generic_directory: bb.fatal("COMMON_LICENSE_DIR is unset. Please set this in your distro config") for url in lic_files.split(): try: (type, host, path, user, pswd, parm) = bb.fetch.decodeurl(url) except bb.fetch.MalformedUrl: bb.fatal("%s: LIC_FILES_CHKSUM contains an invalid URL: %s" % (d.getVar('PF', True), url)) # We want the license filename and path chksum = parm['md5'] if 'md5' in parm else parm['sha256'] lic_chksums[path] = chksum v = FindVisitor() try: v.visit_string(d.getVar('LICENSE', True)) except oe.license.InvalidLicense as exc: bb.fatal('%s: %s' % (d.getVar('PF', True), exc)) except SyntaxError: bb.warn("%s: Failed to parse it's LICENSE field." % (d.getVar('PF', True))) # Add files from LIC_FILES_CHKSUM to list of license files lic_chksum_paths = defaultdict(OrderedDict) for path, chksum in lic_chksums.items(): lic_chksum_paths[os.path.basename(path)][chksum] = os.path.join(srcdir, path) for basename, files in lic_chksum_paths.items(): if len(files) == 1: lic_files_paths.append((basename, list(files.values())[0])) else: # If there are multiple different license files with identical # basenames we rename them to .0, .1, ... for i, path in enumerate(files.values()): lic_files_paths.append(("%s.%d" % (basename, i), path)) return lic_files_paths def return_spdx(d, license): """ This function returns the spdx mapping of a license if it exists. """ return d.getVarFlag('SPDXLICENSEMAP', license, True) def canonical_license(d, license): """ Return the canonical (SPDX) form of the license if available (so GPLv3 becomes GPL-3.0), for the license named 'X+', return canonical form of 'X' if availabel and the tailing '+' (so GPLv3+ becomes GPL-3.0+), or the passed license if there is no canonical form. """ lic = d.getVarFlag('SPDXLICENSEMAP', license, True) or "" if not lic and license.endswith('+'): lic = d.getVarFlag('SPDXLICENSEMAP', license.rstrip('+'), True) if lic: lic += '+' return lic or license def expand_wildcard_licenses(d, wildcard_licenses): """ Return actual spdx format license names if wildcard used. We expand wildcards from SPDXLICENSEMAP flags and SRC_DISTRIBUTE_LICENSES values. """ import fnmatch licenses = [] spdxmapkeys = d.getVarFlags('SPDXLICENSEMAP').keys() for wld_lic in wildcard_licenses: spdxflags = fnmatch.filter(spdxmapkeys, wld_lic) licenses += [d.getVarFlag('SPDXLICENSEMAP', flag, True) for flag in spdxflags] spdx_lics = (d.getVar('SRC_DISTRIBUTE_LICENSES', False) or '').split() for wld_lic in wildcard_licenses: licenses += fnmatch.filter(spdx_lics, wld_lic) licenses = list(set(licenses)) return licenses def incompatible_license_contains(license, truevalue, falsevalue, d): license = canonical_license(d, license) bad_licenses = (d.getVar('INCOMPATIBLE_LICENSE', True) or "").split() bad_licenses = expand_wildcard_licenses(d, bad_licenses) return truevalue if license in bad_licenses else falsevalue def incompatible_license(d, dont_want_licenses, package=None): """ This function checks if a recipe has only incompatible licenses. It also take into consideration 'or' operand. dont_want_licenses should be passed as canonical (SPDX) names. """ import oe.license license = d.getVar("LICENSE_%s" % package, True) if package else None if not license: license = d.getVar('LICENSE', True) # Handles an "or" or two license sets provided by # flattened_licenses(), pick one that works if possible. def choose_lic_set(a, b): return a if all(oe.license.license_ok(canonical_license(d, lic), dont_want_licenses) for lic in a) else b try: licenses = oe.license.flattened_licenses(license, choose_lic_set) except oe.license.LicenseError as exc: bb.fatal('%s: %s' % (d.getVar('P', True), exc)) return any(not oe.license.license_ok(canonical_license(d, l), \ dont_want_licenses) for l in licenses) def check_license_flags(d): """ This function checks if a recipe has any LICENSE_FLAGS that aren't whitelisted. If it does, it returns the first LICENSE_FLAGS item missing from the whitelist, or all of the LICENSE_FLAGS if there is no whitelist. If everything is is properly whitelisted, it returns None. """ def license_flag_matches(flag, whitelist, pn): """ Return True if flag matches something in whitelist, None if not. Before we test a flag against the whitelist, we append _${PN} to it. We then try to match that string against the whitelist. This covers the normal case, where we expect LICENSE_FLAGS to be a simple string like 'commercial', which the user typically matches exactly in the whitelist by explicitly appending the package name e.g 'commercial_foo'. If we fail the match however, we then split the flag across '_' and append each fragment and test until we either match or run out of fragments. """ flag_pn = ("%s_%s" % (flag, pn)) for candidate in whitelist: if flag_pn == candidate: return True flag_cur = "" flagments = flag_pn.split("_") flagments.pop() # we've already tested the full string for flagment in flagments: if flag_cur: flag_cur += "_" flag_cur += flagment for candidate in whitelist: if flag_cur == candidate: return True return False def all_license_flags_match(license_flags, whitelist): """ Return first unmatched flag, None if all flags match """ pn = d.getVar('PN', True) split_whitelist = whitelist.split() for flag in license_flags.split(): if not license_flag_matches(flag, split_whitelist, pn): return flag return None license_flags = d.getVar('LICENSE_FLAGS', True) if license_flags: whitelist = d.getVar('LICENSE_FLAGS_WHITELIST', True) if not whitelist: return license_flags unmatched_flag = all_license_flags_match(license_flags, whitelist) if unmatched_flag: return unmatched_flag return None def check_license_format(d): """ This function checks if LICENSE is well defined, Validate operators in LICENSES. No spaces are allowed between LICENSES. """ pn = d.getVar('PN', True) licenses = d.getVar('LICENSE', True) from oe.license import license_operator, license_operator_chars, license_pattern elements = list(filter(lambda x: x.strip(), license_operator.split(licenses))) for pos, element in enumerate(elements): if license_pattern.match(element): if pos > 0 and license_pattern.match(elements[pos - 1]): bb.warn('%s: LICENSE value "%s" has an invalid format - license names ' \ 'must be separated by the following characters to indicate ' \ 'the license selection: %s' % (pn, licenses, license_operator_chars)) elif not license_operator.match(element): bb.warn('%s: LICENSE value "%s" has an invalid separator "%s" that is not ' \ 'in the valid list of separators (%s)' % (pn, licenses, element, license_operator_chars)) SSTATETASKS += "do_populate_lic" do_populate_lic[sstate-inputdirs] = "${LICSSTATEDIR}" do_populate_lic[sstate-outputdirs] = "${LICENSE_DIRECTORY}/" ROOTFS_POSTPROCESS_COMMAND_prepend = "write_package_manifest; license_create_manifest; " do_rootfs[recrdeptask] += "do_populate_lic" IMAGE_POSTPROCESS_COMMAND_prepend = "write_deploy_manifest; " do_image[recrdeptask] += "do_populate_lic" python do_populate_lic_setscene () { sstate_setscene(d) } addtask do_populate_lic_setscene