blob: 8a8f6b6a22a4a0fa83a1518d1df0e66250596848 [file] [log] [blame]
#!/usr/bin/env python
# Generate the output tree into a specified directory.
import argparse, sys, os, errno, shutil, re, subprocess
import tarfile, gzip
# find self
source_dir = os.path.abspath(os.path.dirname(__file__))
# and import libraries we have
from lib import kconfig, patch, make
from lib import bpgit as git
from lib import bpgpg as gpg
from lib import bpkup as kup
from lib.tempdir import tempdir
from lib import bpreqs as reqs
def read_copy_list(copyfile):
Read a copy-list file and return a list of (source, target)
tuples. The source and target are usually the same, but in
the copy-list file there may be a rename included.
ret = []
for item in copyfile:
# remove leading/trailing whitespace
item = item.strip()
# comments
if not item or item[0] == '#':
if item[0] == '/':
raise Exception("Input path '%s' is absolute path, this isn't allowed" % (item, ))
if ' -> ' in item:
srcitem, dstitem = item.split(' -> ')
if (srcitem[-1] == '/') != (dstitem[-1] == '/'):
raise Exception("Cannot copy file/dir to dir/file")
srcitem = dstitem = item
ret.append((srcitem, dstitem))
return ret
def read_dependencies(depfilename):
Read a (the) dependency file and return the list of
dependencies as a dictionary, mapping a Kconfig symbol
to a list of kernel version dependencies.
If a backported feature that an upstream backported driver
depends on had kconfig limitations (ie, debugging feature not
available) a built constaint restriction can be expressed
by using a kconfig expression. The kconfig expressions can
be specified by using the "kconfig: " prefix.
While reading ignore blank or commented lines.
ret = {}
depfile = open(depfilename, 'r')
for item in depfile:
kconfig_exp = ""
item = item.strip()
if not item or item[0] == '#':
if "kconfig:" in item:
sym, kconfig_exp = item.split(" ", 1)
if not sym in ret:
ret[sym] = [kconfig_exp, ]
sym, dep = item.split()
if not sym in ret:
ret[sym] = [dep, ]
return ret
def check_output_dir(d, clean):
Check that the output directory doesn't exist or is empty,
unless clean is True in which case it's nuked. This helps
sanity check the output when generating a tree, so usually
running with --clean isn't suggested.
if clean:
shutil.rmtree(d, ignore_errors=True)
except OSError as e:
if e.errno != errno.ENOENT:
def copytree(src, dst, symlinks=False, ignore=None):
Copy a directory tree. This differs from shutil.copytree()
in that it allows destination directories to already exist.
names = os.listdir(src)
if ignore is not None:
ignored_names = ignore(src, names)
ignored_names = set()
if not os.path.isdir(dst):
errors = []
for name in names:
if name in ignored_names:
srcname = os.path.join(src, name)
dstname = os.path.join(dst, name)
if symlinks and os.path.islink(srcname):
linkto = os.readlink(srcname)
os.symlink(linkto, dstname)
elif os.path.isdir(srcname):
copytree(srcname, dstname, symlinks, ignore)
shutil.copy2(srcname, dstname)
except (IOError, os.error) as why:
errors.append((srcname, dstname, str(why)))
# catch the Error from the recursive copytree so that we can
# continue with other files
except shutil.Error as err:
shutil.copystat(src, dst)
except WindowsError:
# can't copy file access times on Windows
except OSError as why:
errors.extend((src, dst, str(why)))
if errors:
raise shutil.Error(errors)
def copy_files(srcpath, copy_list, outdir):
Copy the copy_list files and directories from the srcpath
to the outdir. The copy_list contains source and target
For now, it also ignores any *~ editor backup files, though
this should probably be generalized (maybe using .gitignore?)
Similarly the code that only copies some files (*.c, *.h,
*.awk, Kconfig, Makefile) to avoid any build remnants in the
kernel if they should exist.
for srcitem, tgtitem in copy_list:
if tgtitem == '':
copytree(srcpath, outdir, ignore=shutil.ignore_patterns('*~'))
elif tgtitem[-1] == '/':
def copy_ignore(dir, entries):
r = []
for i in entries:
if i[-2:] == '.o' or i[-1] == '~':
return r
copytree(os.path.join(srcpath, srcitem),
os.path.join(outdir, tgtitem),
os.makedirs(os.path.join(outdir, os.path.dirname(tgtitem)))
except OSError as e:
# ignore dirs we might have created just now
if e.errno != errno.EEXIST:
shutil.copy(os.path.join(srcpath, srcitem),
os.path.join(outdir, tgtitem))
def copy_git_files(srcpath, copy_list, rev, outdir):
"Copy" files from a git repository. This really means listing them with
ls-tree and then using git show to obtain all the blobs.
for srcitem, tgtitem in copy_list:
for m, t, h, f in git.ls_tree(rev=rev, files=(srcitem,), tree=srcpath):
assert t == 'blob'
f = os.path.join(outdir, f.replace(srcitem, tgtitem))
d = os.path.dirname(f)
if not os.path.exists(d):
outf = open(f, 'w')
git.get_blob(h, outf, tree=srcpath)
os.chmod(f, int(m, 8))
def automatic_backport_mangle_c_file(name):
return name.replace('/', '-')
def add_automatic_backports(args):
disable_list = []
export = re.compile(r'^EXPORT_SYMBOL(_GPL)?\((?P<sym>[^\)]*)\)')
bpi = kconfig.get_backport_info(os.path.join(args.outdir, 'compat', 'Kconfig'))
configtree = kconfig.ConfigTree(os.path.join(args.outdir, 'Kconfig'))
all_selects = configtree.all_selects()
for sym, vals in bpi.items():
if sym.startswith('BACKPORT_BUILD_'):
if not sym[15:] in all_selects:
symtype, module_name, c_files, h_files = vals
# first copy files
files = []
for f in c_files:
files.append((f, os.path.join('compat', automatic_backport_mangle_c_file(f))))
for f in h_files:
files.append((os.path.join('include', f),
os.path.join('include', os.path.dirname(f), 'backport-' + os.path.basename(f))))
if args.git_revision:
copy_git_files(args.kerneldir, files, args.git_revision, args.outdir)
copy_files(args.kerneldir, files, args.outdir)
# now add the Makefile line
mf = open(os.path.join(args.outdir, 'compat', 'Makefile'), 'a+')
o_files = [automatic_backport_mangle_c_file(f)[:-1] + 'o' for f in c_files]
if symtype == 'tristate':
if not module_name:
raise Exception('backporting a module requires a #module-name')
for of in o_files:
mf.write('%s-objs += %s\n' % (module_name, of))
mf.write('obj-$(CPTCFG_%s) += %s.o\n' % (sym, module_name))
elif symtype == 'bool':
mf.write('compat-$(CPTCFG_%s) += %s\n' % (sym, ' '.join(o_files)))
# finally create the include file
syms = []
for f in c_files:
for l in open(os.path.join(args.outdir, 'compat',
automatic_backport_mangle_c_file(f)), 'r'):
m = export.match(l)
if m:
for f in h_files:
outf = open(os.path.join(args.outdir, 'include', f), 'w')
outf.write('/* Automatically created during backport process */\n')
outf.write('#ifndef CPTCFG_%s\n' % sym)
outf.write('#include_next <%s>\n' % f)
for s in syms:
outf.write('#undef %s\n' % s)
outf.write('#define %s LINUX_BACKPORT(%s)\n' % (s, s))
outf.write('#include <%s>\n' % (os.path.dirname(f) + '/backport-' + os.path.basename(f), ))
outf.write('#endif /* CPTCFG_%s */\n' % sym)
return disable_list
def git_debug_init(args):
Initialize a git repository in the output directory and commit the current
code in it. This is only used for debugging the transformations this code
will do to the output later.
if not args.gitdebug:
git.commit_all("Copied backport", tree=args.outdir)
def git_debug_snapshot(args, name):
Take a git snapshot for the debugging.
if not args.gitdebug:
git.commit_all(name, tree=args.outdir)
def get_rel_spec_stable(rel):
Returns release specs for a linux-stable backports based release.
if ("rc" in rel):
m = re.match(r"(?P<VERSION>\d+)\.+" \
"(?P<PATCHLEVEL>\d+)[.]*" \
"(?P<SUBLEVEL>\d*)" \
"[-rc]+(?P<RC_VERSION>\d+)\-+" \
"(?P<RELMOD_UPDATE>\d+)[-]*" \
"(?P<RELMOD_TYPE>[usnpc]*)", \
m = re.match(r"(?P<VERSION>\d+)\.+" \
"(?P<PATCHLEVEL>\d+)[.]*" \
"(?P<SUBLEVEL>\d*)\-+" \
"(?P<RELMOD_UPDATE>\d+)[-]*" \
"(?P<RELMOD_TYPE>[usnpc]*)", \
if (not m):
return m
return m.groupdict()
def get_rel_spec_next(rel):
Returns release specs for a linux-next backports based release.
m = re.match(r"(?P<DATE_VERSION>\d+)[-]*" \
"(?P<RELMOD_UPDATE>\d*)[-]*" \
"(?P<RELMOD_TYPE>[usnpc]*)", \
if (not m):
return m
return m.groupdict()
def get_rel_prep(rel):
Returns a dict with prep work details we need prior to
uploading a backports release to
rel_specs = get_rel_spec_stable(rel)
is_stable = True
rel_tag = ""
paths = list()
if (not rel_specs):
rel_specs = get_rel_spec_next(rel)
if (not rel_specs):
sys.stdout.write("rel: %s\n" % rel)
return None
if (rel_specs['RELMOD_UPDATE'] == '0' or
rel_specs['RELMOD_UPDATE'] == '1'):
return None
is_stable = False
date = rel_specs['DATE_VERSION']
year = date[0:4]
if (len(year) != 4):
return None
month = date[4:6]
if (len(month) != 2):
return None
day = date[6:8]
if (len(day) != 2):
return None
rel_tag = "backports-" + rel.replace(rel_specs['RELMOD_TYPE'], "")
ignore = "-"
if (not rel_specs['RELMOD_UPDATE']):
return None
if (rel_specs['RELMOD_UPDATE'] == '0'):
return None
ignore += rel_specs['RELMOD_UPDATE']
if (rel_specs['RELMOD_TYPE'] != ''):
ignore += rel_specs['RELMOD_TYPE']
base_rel = rel.replace(ignore, "")
paths.append("v" + base_rel)
rel_tag = "v" + rel.replace(rel_specs['RELMOD_TYPE'], "")
rel_prep = dict(stable = is_stable,
expected_tag = rel_tag,
paths_to_create = paths)
return rel_prep
def create_tar_and_gz(tar_name, dir_to_tar):
We need both a tar file and gzip for, the tar file
gets signed, then we upload the compressed version, kup-server
in the backend decompresses and verifies the tarball against
our signature.
basename = os.path.basename(dir_to_tar)
tar =, "w")
tar.add(dir_to_tar, basename)
tar_file = open(tar_name, "r")
gz_file = gzip.GzipFile(tar_name + ".gz", 'wb')
def upload_release(args, rel_prep, logwrite=lambda x:None):
Given a path of a relase make tarball out of it, PGP sign it, and
then upload it to using kup.
The linux-next based release do not require a RELMOD_UPDATE
given that typically only one release is made per day. Using
RELMOD_UPDATE for these releases is allowed though and if
present it must be > 1.
The linux-stable based releases require a RELMOD_UPDATE.
RELMOD_UPDATE must be numeric and > 0 just as the RC releases
of the Linux kernel.
The tree must also be tagged with the respective release, without
the RELMOD_TYPE. For linux-next based releases this consists of
backports- followed by DATE_VERSION and if RELMOD_TYPE is present.
For linux-stable releases this consists of v followed by the
full release version except the RELMOD_TYPE.
Uploads will not be allowed if these rules are not followed.
korg_path = "/pub/linux/kernel/projects/backports"
if (rel_prep['stable']):
korg_path += "/stable"
parent = os.path.dirname(args.outdir)
release = os.path.basename(args.outdir)
tar_name = parent + '/' + release + ".tar"
gzip_name = tar_name + ".gz"
create_tar_and_gz(tar_name, args.outdir)
logwrite(gpg.sign(tar_name, extra_args=['--armor', '--detach-sign']))
if (not args.kup_test):
logwrite("About to upload, current target path contents:")
logwrite("kup-test: current target path contents:")
for path in rel_prep['paths_to_create']:
korg_path += '/' + path
if (not args.kup_test):
logwrite("create directory: %s" % korg_path)
korg_path += '/'
if (not args.kup_test):
logwrite("upload file %s to %s" % (gzip_name, korg_path))
logwrite(kup.put(gzip_name, tar_name + '.asc', korg_path))
logwrite("\nFinished upload!\n")
logwrite("Target path contents:")
kup_cmd = "kup put /\n\t\t%s /\n\t\t%s /\n\t\t%s" % (gzip_name, tar_name + '.asc', korg_path)
logwrite("kup-test: skipping cmd: %s" % kup_cmd)
def _main():
# Our binary requirements go here
req = reqs.Req()
if not req.reqs_match():
# set up and parse arguments
parser = argparse.ArgumentParser(description='generate backport tree')
parser.add_argument('kerneldir', metavar='<kernel tree>', type=str,
help='Kernel tree to copy drivers from')
parser.add_argument('outdir', metavar='<output directory>', type=str,
help='Directory to write the generated tree to')
parser.add_argument('--copy-list', metavar='<listfile>', type=argparse.FileType('r'),
help='File containing list of files/directories to copy, default "copy-list"')
parser.add_argument('--git-revision', metavar='<revision>', type=str,
help='git commit revision (see gitrevisions(7)) to take objects from.' +
'If this is specified, the kernel tree is used as git object storage ' +
'and we use git ls-tree to get the files.')
parser.add_argument('--clean', const=True, default=False, action="store_const",
help='Clean output directory instead of erroring if it isn\'t empty')
parser.add_argument('--refresh', const=True, default=False, action="store_const",
help='Refresh patches as they are applied, the source dir will be modified!')
parser.add_argument('--base-name', metavar='<name>', type=str, default='Linux',
help='name of base tree, default just "Linux"')
parser.add_argument('--gitdebug', const=True, default=False, action="store_const",
help='Use git, in the output tree, to debug the various transformation steps ' +
'that the tree generation makes (apply patches, ...)')
parser.add_argument('--verbose', const=True, default=False, action="store_const",
help='Print more verbose information')
parser.add_argument('--extra-driver', nargs=2, metavar=('<source dir>', '<copy-list>'), type=str,
action='append', default=[], help='Extra driver directory/copy-list.')
parser.add_argument('--kup', const=True, default=False, action="store_const",
help='For maintainers: upload a release to')
parser.add_argument('--kup-test', const=True, default=False, action="store_const",
help='For maintainers: do all the work as if you were about to ' +
'upload to but do not do the final `kup put` ' +
'and also do not run any `kup mkdir` commands. This will ' +
'however run `kup ls` on the target paths so ' +
'at the very least we test your kup configuration. ' +
'If this is your first time uploading use this first!')
parser.add_argument('--test-cocci', metavar='<sp_file>', type=str, default=None,
help='Only use the cocci file passed for Coccinelle, don\'t do anything else, ' +
'also creates a git repo on the target directory for easy inspection ' +
'of changes done by Coccinelle.')
parser.add_argument('--profile-cocci', metavar='<sp_file>', type=str, default=None,
help='Only use the cocci file passed and pass --profile to Coccinelle, ' +
'also creates a git repo on the target directory for easy inspection ' +
'of changes done by Coccinelle.')
args = parser.parse_args()
def logwrite(msg):
return process(args.kerneldir, args.outdir, args.copy_list,
git_revision=args.git_revision, clean=args.clean,
refresh=args.refresh, base_name=args.base_name,
gitdebug=args.gitdebug, verbose=args.verbose,
def process(kerneldir, outdir, copy_list_file, git_revision=None,
clean=False, refresh=False, base_name="Linux", gitdebug=False,
verbose=False, extra_driver=[], kup=False,
logwrite=lambda x:None,
class Args(object):
def __init__(self, kerneldir, outdir, copy_list_file,
git_revision, clean, refresh, base_name,
gitdebug, verbose, extra_driver, kup,
self.kerneldir = kerneldir
self.outdir = outdir
self.copy_list = copy_list_file
self.git_revision = git_revision
self.clean = clean
self.refresh = refresh
self.base_name = base_name
self.gitdebug = gitdebug
self.verbose = verbose
self.extra_driver = extra_driver
self.kup = kup
self.kup_test = kup_test
self.test_cocci = test_cocci
self.profile_cocci = profile_cocci
if self.test_cocci or self.profile_cocci:
self.gitdebug = True
def git_paranoia(tree=None, logwrite=lambda x:None):
data = git.paranoia(tree)
if (data['r'] != 0):
logwrite('Cannot use %s' % tree)
logwrite('%s' % data['output'])
logwrite('Validated tree: %s' % tree)
args = Args(kerneldir, outdir, copy_list_file,
git_revision, clean, refresh, base_name,
gitdebug, verbose, extra_driver, kup, kup_test,
test_cocci, profile_cocci)
rel_prep = None
# start processing ...
if (args.kup or args.kup_test):
git_paranoia(source_dir, logwrite)
git_paranoia(kerneldir, logwrite)
rel_describe = git.describe(rev=None, tree=source_dir, extra_args=['--dirty'])
release = os.path.basename(args.outdir)
version = release.replace("backports-", "")
rel_prep = get_rel_prep(version)
if (not rel_prep):
logwrite('Invalid backports release name: %s' % release)
logwrite('For rules on the release name see upload_release()')
rel_type = "linux-stable"
if (not rel_prep['stable']):
rel_type = "linux-next"
if (rel_prep['expected_tag'] != rel_describe):
logwrite('Unexpected %s based backports release tag on' % rel_type)
logwrite('the backports tree tree: %s\n' % rel_describe)
logwrite('You asked to make a release with this ')
logwrite('directory name: %s' % release)
logwrite('The actual expected tag we should find on')
logwrite('the backports tree then is: %s\n' % rel_prep['expected_tag'])
logwrite('For rules on the release name see upload_release()')
copy_list = read_copy_list(args.copy_list)
deplist = read_dependencies(os.path.join(source_dir, 'dependencies'))
# validate output directory
check_output_dir(args.outdir, args.clean)
# do the copy
backport_files = [(x, x) for x in [
'Kconfig', 'Makefile', '', 'Makefile.kernel', '.gitignore',
'Makefile.real', 'compat/', 'backport-include/', 'kconf/',
'scripts/', '',
if not args.git_revision:
logwrite('Copy original source files ...')
logwrite('Get original source files from git ...')
copy_files(os.path.join(source_dir, 'backport'), backport_files, args.outdir)
if not args.git_revision:
copy_files(args.kerneldir, copy_list, args.outdir)
copy_git_files(args.kerneldir, copy_list, args.git_revision, args.outdir)
# FIXME: should we add a git version of this (e.g. --git-extra-driver)?
for src, copy_list in args.extra_driver:
if (args.kup or args.kup_test):
copy_files(src, read_copy_list(open(copy_list, 'r')), args.outdir)
git_debug_snapshot(args, 'Add driver sources')
disable_list = add_automatic_backports(args)
if disable_list:
bpcfg = kconfig.ConfigTree(os.path.join(args.outdir, 'compat', 'Kconfig'))
git_debug_snapshot(args, 'Add automatic backports')
test_cocci = args.test_cocci or args.profile_cocci
logwrite('Apply patches ...')
patches = []
sempatches = []
for root, dirs, files in os.walk(os.path.join(source_dir, 'patches')):
for f in files:
if not test_cocci and f.endswith('.patch'):
patches.append(os.path.join(root, f))
if f.endswith('.cocci'):
if test_cocci:
if f not in test_cocci:
if args.test_cocci:
logwrite("Testing Coccinelle SmPL patch: %s" % test_cocci)
elif args.profile_cocci:
logwrite("Profiling Coccinelle SmPL patch: %s" % test_cocci)
sempatches.append(os.path.join(root, f))
prefix_len = len(os.path.join(source_dir, 'patches')) + 1
for pfile in patches:
print_name = pfile[prefix_len:]
# read the patch file
p = patch.fromfile(pfile)
# complain if it's not a patch
if not p:
raise Exception('No patch content found in %s' % print_name)
# leading / seems to be stripped?
if 'dev/null' in p.items[0].source:
raise Exception('Patches creating files are not supported (in %s)' % print_name)
# check if the first file the patch touches exists, if so
# assume the patch needs to be applied -- otherwise continue
patched_file = '/'.join(p.items[0].source.split('/')[1:])
fullfn = os.path.join(args.outdir, patched_file)
if not os.path.exists(fullfn):
if args.verbose:
logwrite("Not applying %s, not needed" % print_name)
if args.verbose:
logwrite("Applying patch %s" % print_name)
if args.refresh:
# but for refresh, of course look at all files the patch touches
for patchitem in p.items:
patched_file = '/'.join(patchitem.source.split('/')[1:])
fullfn = os.path.join(args.outdir, patched_file)
shutil.copyfile(fullfn, fullfn + '.orig_file')
process = subprocess.Popen(['patch', '-p1'], stdout=subprocess.PIPE,
stderr=subprocess.STDOUT, stdin=subprocess.PIPE,
close_fds=True, universal_newlines=True,
output = process.communicate(input=open(pfile, 'r').read())[0]
output = output.split('\n')
if output[-1] == '':
output = output[:-1]
if args.verbose:
for line in output:
logwrite('> %s' % line)
if process.returncode != 0:
if not args.verbose:
logwrite("Failed to apply changes from %s" % print_name)
for line in output:
logwrite('> %s' % line)
return 2
if args.refresh:
pfilef = open(pfile + '.tmp', 'a')
for patchitem in p.items:
patched_file = '/'.join(patchitem.source.split('/')[1:])
fullfn = os.path.join(args.outdir, patched_file)
process = subprocess.Popen(['diff', '-p', '-u', patched_file + '.orig_file', patched_file,
'--label', 'a/' + patched_file,
'--label', 'b/' + patched_file],
stdout=pfilef, close_fds=True,
universal_newlines=True, cwd=args.outdir)
os.unlink(fullfn + '.orig_file')
if not process.returncode in (0, 1):
logwrite("Failed to diff to refresh %s" % print_name)
os.unlink(pfile + '.tmp')
return 3
os.rename(pfile + '.tmp', pfile)
# remove orig/rej files that patch sometimes creates
for root, dirs, files in os.walk(args.outdir):
for f in files:
if f[-5:] == '.orig' or f[-4:] == '.rej':
os.unlink(os.path.join(root, f))
git_debug_snapshot(args, "apply backport patch %s" % print_name)
prefix_len = len(os.path.join(source_dir, 'patches')) + 1
for cocci_file in sempatches:
# Until Coccinelle picks this up
pycocci = os.path.join(source_dir, 'devel/pycocci')
cmd = [pycocci, cocci_file]
extra_spatch_args = []
if args.profile_cocci:
print_name = cocci_file[prefix_len:]
if args.verbose:
logwrite("Applying SmPL patch %s" % print_name)
sprocess = subprocess.Popen(cmd,
stdout=subprocess.PIPE, stderr=subprocess.STDOUT,
close_fds=True, universal_newlines=True,
output = sprocess.communicate()[0]
if sprocess.returncode != 0:
logwrite("Failed to process SmPL patch %s" % print_name)
return 3
output = output.split('\n')
if output[-1] == '':
output = output[:-1]
if args.verbose:
for line in output:
logwrite('> %s' % line)
# remove cocci_backup files
for root, dirs, files in os.walk(args.outdir):
for f in files:
if f.endswith('.cocci_backup'):
os.unlink(os.path.join(root, f))
git_debug_snapshot(args, "apply backport SmPL patch %s" % print_name)
if test_cocci:
return 0
# some post-processing is required
configtree = kconfig.ConfigTree(os.path.join(args.outdir, 'Kconfig'))
logwrite('Modify Kconfig tree ...')
configtree.prune_sources(ignore=['Kconfig.kernel', 'Kconfig.versions'])
git_debug_snapshot(args, "prune Kconfig tree")
git_debug_snapshot(args, "force tristate options modular")
git_debug_snapshot(args, "convert select to depends on")
# write the versioning file
if git_tracked_version:
backports_version = "(see git)"
kernel_version = "(see git)"
backports_version = git.describe(tree=source_dir, extra_args=['--long'])
kernel_version = git.describe(rev=args.git_revision or 'HEAD',
f = open(os.path.join(args.outdir, 'versions'), 'w')
f.write('BACKPORTS_VERSION="%s"\n' % backports_version)
f.write('BACKPORTED_KERNEL_VERSION="%s"\n' % kernel_version)
f.write('BACKPORTED_KERNEL_NAME="%s"\n' % args.base_name)
if git_tracked_version:
f.write('BACKPORTS_GIT_TRACKED="backport tracker ID: $(shell git rev-parse HEAD 2>/dev/null || echo \'not built in git tree\')"\n')
symbols = configtree.symbols()
# write local symbol list -- needed during build
f = open(os.path.join(args.outdir, '.local-symbols'), 'w')
for sym in symbols:
f.write('%s=\n' % sym)
git_debug_snapshot(args, "add versions/symbols files")
# add defconfigs that we want
defconfigs_dir = os.path.join(source_dir, 'backport', 'defconfigs')
os.mkdir(os.path.join(args.outdir, 'defconfigs'))
for dfbase in os.listdir(defconfigs_dir):
copy_defconfig = True
dfsrc = os.path.join(defconfigs_dir, dfbase)
for line in open(dfsrc, 'r'):
if not '=' in line:
line_ok = False
for sym in symbols:
if sym + '=' in line:
line_ok = True
if not line_ok:
print dfbase, line
copy_defconfig = False
if copy_defconfig:
shutil.copy(dfsrc, os.path.join(args.outdir, 'defconfigs', dfbase))
git_debug_snapshot(args, "add (useful) defconfig files")
logwrite('Rewrite Makefiles and Kconfig files ...')
# rewrite Makefile and source symbols
regexes = []
for some_symbols in [symbols[i:i + 50] for i in range(0, len(symbols), 50)]:
r = 'CONFIG_((' + '|'.join([s + '(_MODULE)?' for s in some_symbols]) + ')([^A-Za-z0-9_]|$))'
regexes.append(re.compile(r, re.MULTILINE))
for root, dirs, files in os.walk(args.outdir):
# don't go into .git dir (possible debug thing)
if '.git' in dirs:
for f in files:
data = open(os.path.join(root, f), 'r').read()
for r in regexes:
data = r.sub(r'CPTCFG_\1', data)
data = re.sub(r'\$\(srctree\)', '$(backport_srctree)', data)
data = re.sub(r'-Idrivers', '-I$(backport_srctree)/drivers', data)
fo = open(os.path.join(root, f), 'w')
git_debug_snapshot(args, "rename config symbol / srctree usage")
# disable unbuildable Kconfig symbols and stuff Makefiles that doesn't exist
maketree = make.MakeTree(os.path.join(args.outdir, 'Makefile.kernel'))
disable_kconfig = []
disable_makefile = []
for sym in maketree.get_impossible_symbols():
git_debug_snapshot(args, "disable impossible kconfig symbols")
# add kernel version dependencies to Kconfig, from the dependency list
# we read previously
for sym in tuple(deplist.keys()):
new = []
for dep in deplist[sym]:
if "kconfig:" in dep:
kconfig_expr = dep.replace('kconfig: ', '')
elif (dep == "DISABLE"):
new.append('!BACKPORT_KERNEL_%s' % dep.replace('.', '_'))
deplist[sym] = new
git_debug_snapshot(args, "add kernel version dependencies")
# disable things in makefiles that can't be selected and that the
# build shouldn't recurse into because they don't exist -- if we
# don't do that then a symbol from the kernel could cause the build
# to attempt to recurse and fail
# Note that we split the regex after 50 symbols, this is because of a
# limitation in the regex implementation (it only supports 100 nested
# groups -- 50 seemed safer and is still fast)
regexes = []
for some_symbols in [disable_makefile[i:i + 50] for i in range(0, len(disable_makefile), 50)]:
r = '^([^#].*((CPTCFG|CONFIG)_(' + '|'.join([s for s in some_symbols]) + ')))'
regexes.append(re.compile(r, re.MULTILINE))
for f in maketree.get_makefiles():
data = open(f, 'r').read()
for r in regexes:
data = r.sub(r'#\1', data)
fo = open(f, 'w')
git_debug_snapshot(args, "disable unsatisfied Makefile parts")
if (args.kup or args.kup_test):
req = reqs.Req()
if not req.reqs_match():
upload_release(args, rel_prep, logwrite=logwrite)
return 0
if __name__ == '__main__':
ret = _main()
if ret: