blob: 7e1d0e08a9c00499eb793f40bfa67584b38e8b79 [file] [log] [blame]
ROOTFS_LICENSE_DIR = "${IMAGE_ROOTFS}/usr/share/common-licenses"
# This requires LICENSE_CREATE_PACKAGE=1 to work too
COMPLEMENTARY_GLOB[lic-pkgs] = "*-lic"
python() {
if not oe.data.typed_value('LICENSE_CREATE_PACKAGE', d):
features = set(oe.data.typed_value('IMAGE_FEATURES', d))
if 'lic-pkgs' in features:
bb.error("'lic-pkgs' in IMAGE_FEATURES but LICENSE_CREATE_PACKAGE not enabled to generate -lic packages")
}
python write_package_manifest() {
# Get list of installed packages
license_image_dir = d.expand('${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)
with open(os.path.join(license_image_dir, 'package.manifest'), "w+") as package_manifest:
package_manifest.write(output)
}
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')
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'),
'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'),
d.getVar('IMAGE_NAME'), 'license.manifest')
write_license_files(d, rootfs_license_manifest, pkg_dic, rootfs=True)
}
def write_license_files(d, license_manifest, pkg_dic, rootfs=True):
import re
import stat
bad_licenses = (d.getVar("INCOMPATIBLE_LICENSE") or "").split()
bad_licenses = expand_wildcard_licenses(d, bad_licenses)
exceptions = (d.getVar("INCOMPATIBLE_LICENSE_EXCEPTIONS") or "").split()
with open(license_manifest, "w") as license_file:
for pkg in sorted(pkg_dic):
remaining_bad_licenses = oe.license.apply_pkg_license_exception(pkg, bad_licenses, exceptions)
incompatible_licenses = incompatible_pkg_license(d, remaining_bad_licenses, pkg_dic[pkg]["LICENSE"])
if incompatible_licenses:
bb.fatal("Package %s cannot be installed into the image because it has incompatible license(s): %s" %(pkg, ' '.join(incompatible_licenses)))
else:
incompatible_licenses = incompatible_pkg_license(d, bad_licenses, pkg_dic[pkg]["LICENSE"])
if incompatible_licenses:
oe.qa.handle_error('license-incompatible', "Including %s with incompatible license(s) %s into the image, because it has been allowed by exception list." %(pkg, ' '.join(incompatible_licenses)), d)
try:
(pkg_dic[pkg]["LICENSE"], pkg_dic[pkg]["LICENSES"]) = \
oe.license.manifest_licenses(pkg_dic[pkg]["LICENSE"],
remaining_bad_licenses, canonical_license, d)
except oe.license.LicenseError as exc:
bb.fatal('%s: %s' % (d.getVar('P'), exc))
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'),
pkg_dic[pkg]["PN"], "generic_%s" %
re.sub(r'\+', '', lic))
# add explicity avoid of CLOSED license because isn't generic
if lic == "CLOSED":
continue
if not os.path.exists(lic_file):
oe.qa.handle_error('license-file-missing',
"The license listed %s was not in the "\
"licenses collected for recipe %s"
% (lic, pkg_dic[pkg]["PN"]), d)
# 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')
copy_lic_dirs = d.getVar('COPY_LIC_DIRS')
if rootfs and copy_lic_manifest == "1":
rootfs_license_dir = d.getVar('ROOTFS_LICENSE_DIR')
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):
oe.path.copyhardlink(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'),
pkg_dic[pkg]["PN"])
pkg_manifest_licenses = [canonical_license(d, lic) \
for lic in pkg_dic[pkg]["LICENSES"]]
licenses = os.listdir(pkg_license_dir)
for lic in licenses:
pkg_license = os.path.join(pkg_license_dir, lic)
pkg_rootfs_license = os.path.join(pkg_rootfs_license_dir, lic)
if re.match(r"^generic_.*$", lic):
generic_lic = canonical_license(d,
re.search(r"^generic_(.*)$", lic).group(1))
# Do not copy generic license into package if isn't
# declared into LICENSES of the package.
if not re.sub(r'\+$', '', generic_lic) in \
[re.sub(r'\+', '', lic) for lic in \
pkg_manifest_licenses]:
continue
if oe.license.license_ok(generic_lic,
bad_licenses) == False:
continue
# Make sure we use only canonical name for the license file
generic_lic_file = "generic_%s" % generic_lic
rootfs_license = os.path.join(rootfs_license_dir, generic_lic_file)
if not os.path.exists(rootfs_license):
oe.path.copyhardlink(pkg_license, rootfs_license)
if not os.path.exists(pkg_rootfs_license):
os.symlink(os.path.join('..', generic_lic_file), pkg_rootfs_license)
else:
if (oe.license.license_ok(canonical_license(d,
lic), bad_licenses) == False or
os.path.exists(pkg_rootfs_license)):
continue
oe.path.copyhardlink(pkg_license, pkg_rootfs_license)
# Fixup file ownership and permissions
for walkroot, dirs, files in os.walk(rootfs_license_dir):
for f in files:
p = os.path.join(walkroot, f)
os.lchown(p, 0, 0)
if not os.path.islink(p):
os.chmod(p, stat.S_IRUSR | stat.S_IWUSR | stat.S_IRGRP | stat.S_IROTH)
for dir in dirs:
p = os.path.join(walkroot, dir)
os.lchown(p, 0, 0)
os.chmod(p, stat.S_IRWXU | stat.S_IRGRP | stat.S_IXGRP | stat.S_IROTH | stat.S_IXOTH)
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")
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'),
d.getVar('IMAGE_NAME'))
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, rootfs=False)
link_name = d.getVar('IMAGE_LINK_NAME')
if link_name:
lic_manifest_symlink_dir = os.path.join(d.getVar('LICENSE_DIRECTORY'),
link_name)
# remove old symlink
if os.path.islink(lic_manifest_symlink_dir):
os.unlink(lic_manifest_symlink_dir)
# create the image dir symlink
if lic_manifest_dir != lic_manifest_symlink_dir:
os.symlink(lic_manifest_dir, lic_manifest_symlink_dir)
def get_deployed_dependencies(d):
"""
Get all the deployed dependencies of an image
"""
deploy = {}
# Get all the dependencies for the current task (rootfs).
taskdata = d.getVar("BB_TASKDEPDATA", False)
pn = d.getVar("PN", True)
depends = list(set([dep[0] for dep
in list(taskdata.values())
if not dep[0].endswith("-native") and not dep[0] == pn]))
# 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")
archs = list(set(d.getVar("SSTATE_ARCHS").split()))
for dep in depends:
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_deployed_files(man_file):
"""
Get the files deployed from the sstate manifest
"""
dep_files = []
excluded_files = []
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
ROOTFS_POSTPROCESS_COMMAND:prepend = "write_package_manifest; license_create_manifest; "
do_rootfs[recrdeptask] += "do_populate_lic"
python do_populate_lic_deploy() {
license_deployed_manifest(d)
oe.qa.exit_if_errors(d)
}
addtask populate_lic_deploy before do_build after do_image_complete
do_populate_lic_deploy[recrdeptask] += "do_populate_lic do_deploy"
python license_qa_dead_symlink() {
import os
for root, dirs, files in os.walk(d.getVar('ROOTFS_LICENSE_DIR')):
for file in files:
full_path = root + "/" + file
if os.path.islink(full_path) and not os.path.exists(full_path):
bb.error("broken symlink: " + full_path)
}
IMAGE_QA_COMMANDS += "license_qa_dead_symlink"