#!/usr/bin/python2 # -*- coding: utf-8 -*- # # Automatic patch dependency checker and apply script generator. # # Copyright (C) 2014-2016 Sebastian Lackner # Copyright (C) 2015 Michael Müller # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, write to the Free Software # Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA # import argparse import binascii import cPickle as pickle import contextlib import fnmatch import hashlib import itertools import math import multiprocessing.pool import operator import os import patchutils import progressbar import re import signal import subprocess import sys import tempfile import textwrap import xmlrpclib import ConfigParser _devnull = open(os.devnull, 'wb') # Cached information to speed up patch dependency checks upstream_commit = None class config(object): path_cache = ".patchupdate.cache" path_config = os.path.expanduser("~/.config/patchupdate.conf") path_patches = "patches" path_version = "staging/VERSION" path_wine = "staging/wine" path_template_script = "staging/patchinstall.sh.in" path_script = "patches/patchinstall.sh" path_IfDefined = "9999-IfDefined.patch" bugtracker_url = "https://bugs.winehq.org/xmlrpc.cgi" bugtracker_defaultcc = ["michael@fds-team.de", "sebastian@fds-team.de", "erich.e.hoover@wine-staging.com", "dmitry@baikal.ru"] bugtracker_user = None bugtracker_pass = None github_url = "https://github.com/wine-compholio/wine-staging" class PatchUpdaterError(RuntimeError): """Failed to update patches.""" pass class PatchSet(object): def __init__(self, name, directory): self.name = name self.is_category = False self.variable = None self.directory = directory self.fixes = [] self.changes = [] self.disabled = False self.ifdefined = None self.categories = [] self.files = [] self.patches = [] self.modified_files = set() self.depends = set() self.auto_depends = set() self.verify_time = None def _pairs(a): """Iterate over all pairs of elements contained in the list a.""" for i, j in enumerate(a): for k in a[i+1:]: yield (j, k) def _unique(iterable, key=None): "List unique elements, preserving order. Remember only the element just seen." # _unique('AAAABBBCCDAABBB') --> A B C D A B # _unique('ABBCcAD', str.lower) --> A B C A D return itertools.imap(next, itertools.imap(operator.itemgetter(1), itertools.groupby(iterable, key))) def _split_seq(iterable, size): """Split an iterator into chunks of a given size.""" it = iter(iterable) items = list(itertools.islice(it, size)) while items: yield items items = list(itertools.islice(it, size)) def _escape(s): """Escape string inside of '...' quotes.""" return s.replace("\\", "\\\\\\\\").replace("\"", "\\\"").replace("'", "'\\''") def _load_dict(filename): """Load a Python dictionary object from a file.""" try: with open(filename) as fp: return pickle.load(fp) except IOError: return {} def _save_dict(filename, value): """Save a Python dictionary object to a file.""" with open("%s.new" % filename, "wb") as fp: pickle.dump(value, fp, pickle.HIGHEST_PROTOCOL) os.rename("%s.new" % filename, filename) def _sha256(fp): """Calculate sha256sum from a file descriptor.""" m = hashlib.sha256() fp.seek(0) while True: buf = fp.read(16384) if buf == "": break m.update(buf) return m.digest() def _parse_int(val, default=0): """Parse an integer or boolean value.""" if re.match("^[0-9]+$", val): return int(val) try: return {'true': 1, 'yes': 1, 'false': 0, 'no': 0}[val.lower()] except KeyError: return default def _staging_version(): """Get the current version number of Wine Staging.""" with open(config.path_version) as fp: return fp.read().strip() def _upstream_commit(commit=None): """Get latest wine commit.""" if not os.path.isdir(config.path_wine): raise PatchUpdaterError("Please create a symlink to the wine repository in %s" % config.path_wine) if commit is None: commit = subprocess.check_output(["git", "rev-parse", "origin/master"], cwd=config.path_wine).strip() assert len(commit) == 40 and commit == commit.lower() return commit def enum_patchsets(path): """Return a sorted list of all subdirectories of path.""" dirs = [] for name in os.listdir(path): directory = os.path.join(path, name) if not os.path.isdir(directory): continue dirs.append((name, directory)) return sorted(dirs) def load_patchsets(): """Read information about all patchsets.""" unique_id = itertools.count() all_patches = {} name_to_id = {} categories = {} for name, directory in enum_patchsets(config.path_patches): patch = PatchSet(name, directory) # Enumerate .patch files in the given directory, enumerate individual patches and affected files for f in sorted(os.listdir(directory)): if not re.match("^[0-9]{4}-.*\\.patch$", f): continue if f.startswith(config.path_IfDefined): continue if not os.path.isfile(os.path.join(directory, f)): continue patch.files.append(f) for p in patchutils.read_patch(os.path.join(directory, f)): patch.modified_files.add(p.modified_file) patch.patches.append(p) # No single patch within this directory, ignore it if len(patch.patches) == 0: del patch continue i = next(unique_id) all_patches[i] = patch name_to_id[name] = i # Now read the definition files in a second step for i, patch in all_patches.iteritems(): filename = os.path.join(os.path.join(config.path_patches, patch.name), "definition") try: with open(filename) as fp: content = fp.read() except IOError: continue # Skip this definition file for line in content.split("\n"): if line.startswith("#"): continue tmp = line.split(":", 1) if len(tmp) != 2: continue key, val = tmp[0].lower(), tmp[1].strip() if key == "depends": if not name_to_id.has_key(val): raise PatchUpdaterError("Definition file %s references unknown dependency %s" % (filename, val)) patch.depends.add(name_to_id[val]) elif key == "apply-after": for j, other_patch in all_patches.iteritems(): if i != j and any([fnmatch.fnmatch(f, val) for f in other_patch.modified_files]): patch.auto_depends.add(j) elif key == "apply-before": for j, other_patch in all_patches.iteritems(): if i != j and any([fnmatch.fnmatch(f, val) for f in other_patch.modified_files]): other_patch.auto_depends.add(i) elif key == "category": val = "category-%s" % val if name_to_id.has_key(val): raise PatchUpdaterError("Category name in definition file %s collides with patchset %s" % (filename, val)) patch.categories.append(val) elif key == "fixes": r = re.match("^\\[ *(!)? *([0-9]+) *\\](.*)$", val) if r: sync = (r.group(1) != "!") bugid = int(r.group(2)) patch.fixes.append((sync, bugid, r.group(3).strip())) continue patch.fixes.append((False, None, val)) elif key == "disabled": patch.disabled = _parse_int(val) elif key == "ifdefined": patch.ifdefined = val else: print "WARNING: Ignoring unknown command in definition file %s: %s" % (filename, line) # If patch is not disabled then finally add it to the category if patch.disabled: continue for category in patch.categories: if not categories.has_key(category): categories[category] = set() categories[category].add(i) # Filter autodepends on disabled patchsets for i, patch in all_patches.iteritems(): patch.auto_depends = set([j for j in patch.auto_depends if not all_patches[j].disabled]) # Add virtual targets for all the categories for category, indices in categories.iteritems(): patch = PatchSet(category, directory) patch.is_category = True patch.depends = indices i = next(unique_id) all_patches[i] = patch name_to_id[name] = i return all_patches def causal_time_combine(a, b): """Combines two timestamps into a new one.""" return [max(a, b) for a, b in zip(a, b)] def causal_time_smaller(a, b): """Checks if timestamp a is smaller than timestamp b.""" return all([i <= j for i, j in zip(a,b)]) and any([i < j for i, j in zip(a,b)]) def causal_time_relation(all_patches, indices): """Checks if the dependencies of patches are compatible with a specific apply order.""" for i, j in _pairs(indices): if causal_time_smaller(all_patches[j].verify_time, all_patches[i].verify_time): return False return True def causal_time_relation_any(all_patches, indices): """Similar to causal_time_relation(), but also check all possible permutations of indices.""" for i, j in _pairs(indices): if not (causal_time_smaller(all_patches[i].verify_time, all_patches[j].verify_time) or \ causal_time_smaller(all_patches[j].verify_time, all_patches[i].verify_time)): return False return True def contains_binary_patch(all_patches, indices, filename): """Checks if any patch with given indices affecting filename is a binary patch.""" for i in indices: for patch in all_patches[i].patches: if patch.modified_file == filename and patch.is_binary: return True return False def get_wine_file(filename): """Return the content of a file.""" entry = "%s:%s" % (upstream_commit, filename) result = tempfile.NamedTemporaryFile() try: content = subprocess.check_call(["git", "show", entry], cwd=config.path_wine, \ stdout=result, stderr=_devnull) except subprocess.CalledProcessError as e: if e.returncode != 128: raise result.flush() # shouldn't be necessary because the subprocess writes directly to the fd return result def extract_patch(patchset, filename): """Extract all changes to a specific file from a patchset.""" p = tempfile.NamedTemporaryFile() m = hashlib.sha256() for patch in patchset.patches: if patch.modified_file != filename: continue for chunk in patch.read_chunks(): p.write(chunk) m.update(chunk) p.write("\n") m.update("\n") p.flush() return (m.digest(), p) def select_patches(all_patches, indices, filename): """Create a temporary patch file for each patchset and calculate the checksum.""" selected_patches = {} for i in indices: selected_patches[i] = extract_patch(all_patches[i], filename) return selected_patches def resolve_dependencies(all_patches, index = None, depends = None, auto_deps = True): """Returns a sorted list with all dependencies for a given patch.""" def _resolve(depends): for i in sorted(depends): if all_patches[i].disabled: # Check for disabled patch raise PatchUpdaterError("Encountered dependency on disabled patchset %s" % all_patches[i].name) if all_patches[i].verify_resolved > 0: # Dependencies already resolved continue if all_patches[i].verify_resolved < 0: # Detect circular dependency raise PatchUpdaterError("Circular dependency while trying to resolve %s" % all_patches[i].name) # Recusively resolve dependencies all_patches[i].verify_resolved = -1 _resolve(all_patches[i].depends) if auto_deps: _resolve(all_patches[i].auto_depends) all_patches[i].verify_resolved = 1 resolved.append(i) for _, patch in all_patches.iteritems(): patch.verify_resolved = 0 resolved = [] if depends is None: _resolve(all_patches[index].depends) if auto_deps: _resolve(all_patches[index].auto_depends) else: _resolve(depends) return resolved def sync_bug_status(bugtracker, bug, url): """Automatically updates the STAGED information of a referenced bug.""" # We don't want to reopen bugs if bug['status'] not in ["UNCONFIRMED", "NEW", "ASSIGNED", "REOPENED", "STAGED"]: return if config.bugtracker_user is None or config.bugtracker_pass is None: raise PatchUpdaterError("Can't update bug without username/password set") changes = { 'ids' : bug['id'], 'Bugzilla_login' : config.bugtracker_user, 'Bugzilla_password' : config.bugtracker_pass } # Update bug status if bug['status'] != "STAGED": changes['status'] = "STAGED" # Update patchset URL if bug['cf_staged_patchset'] != url: changes['cf_staged_patchset'] = url # Add missing CC contacts missing_cc = [] for cc in config.bugtracker_defaultcc: if cc not in bug['cc']: missing_cc.append(cc) if len(missing_cc): changes["cc"] = {"add" : missing_cc} bugtracker.Bug.update(changes) def check_bug_status(all_patches, sync_bugs=False): """Checks the information in the referenced bugs and corrects them if sync_bugs is set.""" all_bugids = set() url_map = {} for _, patch in all_patches.iteritems(): url = "%s/tree/master/%s" % (config.github_url, patch.directory) for sync, bugid, bugname in patch.fixes: if sync and bugid is not None: url_map[bugid] = url all_bugids.add(bugid) bugtracker = xmlrpclib.ServerProxy(config.bugtracker_url) bug_list = bugtracker.Bug.get(dict(ids=list(all_bugids))) staged_bugs = bugtracker.Bug.search(dict(status="STAGED")) once = True for bug in bug_list['bugs']: if bug['status'] != "STAGED" or bug['cf_staged_patchset'] != url_map[bug['id']]: if once: print "" print "WARNING: The following bugs might require attention:" print "" once = False print " #%d - \"%s\" - %s %s - %s" % (bug['id'], bug['summary'], bug['status'], bug['resolution'], bug['cf_staged_patchset']) if sync_bugs: sync_bug_status(bugtracker, bug, url_map[bug['id']]) once = True for bug in staged_bugs['bugs']: if bug['id'] not in all_bugids: if once: print "" print "WARNING: The following bugs are incorrectly marked as STAGED:" print "" once = False print " #%d - \"%s\" - %s %s" % (bug['id'], bug['summary'], bug['status'], bug['resolution']) print "" def generate_ifdefined(all_patches, skip_checks=False): """Update autogenerated ifdefined patches, which can be used to selectively disable features at compile time.""" enabled_patches = dict([(i, patch) for i, patch in all_patches.iteritems() if not patch.disabled]) for i, patch in enabled_patches.iteritems(): if patch.ifdefined is None: continue filename = os.path.join(patch.directory, config.path_IfDefined) headers = { 'author': "Wine Staging Team", 'email': "webmaster@fds-team.de", 'subject': "Autogenerated #ifdef patch for %s." % patch.name } if skip_checks: patch.files.append(os.path.basename(filename)) patch.patches.append(patchutils.PatchObject(filename, headers)) continue with open(filename, "wb") as fp: fp.write("From: %s <%s>\n" % (headers['author'], headers['email'])) fp.write("Subject: %s\n" % headers['subject']) fp.write("\n") depends = resolve_dependencies(enabled_patches, i) for f in sorted(patch.modified_files): # Reconstruct the state after applying the dependencies original = get_wine_file(f) selected_patches = select_patches(enabled_patches, depends, f) failed = [] try: for j in depends: failed.append(j) original = patchutils.apply_patch(original, selected_patches[j][1], fuzz=0) except patchutils.PatchApplyError: raise PatchUpdaterError("Changes to file %s don't apply: %s" % (f, ", ".join([all_patches[j].name for j in failed]))) # Now apply the main patch p = extract_patch(patch, f)[1] try: failed.append(i) patched = patchutils.apply_patch(original, p, fuzz=0) except patchutils.PatchApplyError: raise PatchUpdaterError("Changes to file %s don't apply: %s" % (f, ", ".join([all_patches[j].name for j in failed]))) # Now get the diff between both diff = patchutils.generate_ifdef_patch(original, patched, ifdef=patch.ifdefined) if diff is not None: fp.write("diff --git a/%s b/%s\n" % (f, f)) fp.write("--- a/%s\n" % f) fp.write("+++ b/%s\n" % f) while True: buf = diff.read(16384) if buf == "": break fp.write(buf) diff.close() # Close the file fp.close() # Add changes to git subprocess.call(["git", "add", filename]) # Add the autogenerated file as a last patch patch.files.append(os.path.basename(filename)) for p in patchutils.read_patch(filename): assert p.modified_file in patch.modified_files patch.patches.append(p) def generate_apply_order(all_patches, skip_checks=False): """Resolve dependencies, and afterwards check if everything applies properly.""" depends = sorted([i for i, patch in all_patches.iteritems() if not patch.disabled]) resolved = resolve_dependencies(all_patches, depends=depends) max_patches = max(resolved) + 1 if skip_checks: return resolved # Generate timestamps based on dependencies, still required for binary patches # Find out which files are modified by multiple patches modified_files = {} for i, patch in [(i, all_patches[i]) for i in resolved]: patch.verify_time = [0]*max_patches patch.verify_time[i] += 1 for j in patch.depends: patch.verify_time = causal_time_combine(patch.verify_time, all_patches[j].verify_time) for f in patch.modified_files: if f not in modified_files: modified_files[f] = [] modified_files[f].append(i) # Check dependencies dependency_cache = _load_dict(config.path_cache) pool = multiprocessing.pool.ThreadPool(processes=4) try: for filename, indices in modified_files.iteritems(): # If one of patches is a binary patch, then we cannot / won't verify it - require dependencies in this case if contains_binary_patch(all_patches, indices, filename): if not causal_time_relation_any(all_patches, indices): raise PatchUpdaterError("Because of binary patch modifying file %s the following patches need explicit dependencies: %s" % (filename, ", ".join([all_patches[i].name for i in indices]))) continue original_content = get_wine_file(filename) original_hash = _sha256(original_content) selected_patches = select_patches(all_patches, indices, filename) # Generate a unique id based on the original content, the selected patches # and the dependency information. Since this information only has to be compared # we can throw it into a single hash. m = hashlib.sha256() m.update(original_hash) for i in indices: m.update("P%s" % selected_patches[i][0]) for j in indices: if causal_time_smaller(all_patches[j].verify_time, all_patches[i].verify_time): m.update("D%s" % selected_patches[j][0]) unique_hash = m.digest() # Skip checks if it matches the information from the cache # For backwards compatibility, convert string entries to list if dependency_cache.has_key(filename): if not isinstance(dependency_cache[filename], list): dependency_cache[filename] = [dependency_cache[filename]] if unique_hash in dependency_cache[filename]: dependency_cache[filename].append(unique_hash) dependency_cache[filename].remove(unique_hash) continue # Show a progress bar while applying the patches - this task might take some time chunk_size = 20 with progressbar.ProgressBar(desc=filename, total=2 ** len(indices) / chunk_size) as progress: def test_apply(current): set_apply = [(i, all_patches[i]) for i in current] set_skip = [(i, all_patches[i]) for i in indices if i not in current] # Check if there is any patch2 which depends directly or indirectly on patch1. # If this is the case we found an impossible situation, we can be skipped in this test. for i, patch1 in set_apply: for j, patch2 in set_skip: if causal_time_smaller(patch2.verify_time, patch1.verify_time): return True # we can skip this test try: original = original_content for i, _ in set_apply: original = patchutils.apply_patch(original, selected_patches[i][1], fuzz=0) except patchutils.PatchApplyError: return False return True # everything is fine def test_apply_seq(current_list): for current in current_list: if not test_apply(current): return current return None iterables = [] for i in xrange(0, len(indices) + 1): iterables.append(itertools.combinations(indices, i)) it = _split_seq(itertools.chain(*iterables), chunk_size) for k, failed in enumerate(pool.imap_unordered(test_apply_seq, it)): if failed is not None: progress.finish("") raise PatchUpdaterError("Changes to file %s don't apply: %s" % (filename, ", ".join([all_patches[i].name for i in failed]))) progress.update(k) # Update the dependency cache, store max 10 entries per file if not dependency_cache.has_key(filename): dependency_cache[filename] = [] dependency_cache[filename].append(unique_hash) dependency_cache[filename] = dependency_cache[filename][-10:] # Delete outdated cache information for filename in dependency_cache.keys(): if not modified_files.has_key(filename): del dependency_cache[filename] finally: pool.close() _save_dict(config.path_cache, dependency_cache) return resolved def generate_script(all_patches, resolved): """Generate script to apply patches.""" # Generate code for helper functions lines = [] lines.append("# Enable or disable all patchsets\n") lines.append("patch_enable_all ()\n") lines.append("{\n") for i, patch in sorted([(i, all_patches[i]) for i in resolved], key=lambda x:x[1].name): if patch.is_category: continue patch.variable = "enable_%s" % patch.name.replace("-","_").replace(".","_") lines.append("\t%s=\"$1\"\n" % patch.variable) lines.append("}\n") lines.append("\n") lines.append("# Enable or disable all categories\n") lines.append("category_enable_all ()\n") lines.append("{\n") for i, patch in sorted([(i, all_patches[i]) for i in resolved], key=lambda x:x[1].name): if not patch.is_category: continue patch.variable = "enable_%s" % patch.name.replace("-","_").replace(".","_") lines.append("\t%s=\"$1\"\n" % patch.variable) lines.append("}\n") lines.append("\n") lines.append("# Enable or disable a specific patchset/category\n") lines.append("patch_enable ()\n") lines.append("{\n") lines.append("\tcase \"$1\" in\n") for i, patch in sorted([(i, all_patches[i]) for i in resolved], key=lambda x:x[1].name): lines.append("\t\t%s)\n" % patch.name) lines.append("\t\t\t%s=\"$2\"\n" % patch.variable) lines.append("\t\t\t;;\n") lines.append("\t\t*)\n") lines.append("\t\t\treturn 1\n") lines.append("\t\t\t;;\n") lines.append("\tesac\n") lines.append("\treturn 0\n") lines.append("}\n") lines_helpers = lines # Generate code for dependency resolver lines = [] for i, patch in [(i, all_patches[i]) for i in reversed(resolved)]: if len(patch.depends): lines.append("if test \"$%s\" -eq 1; then\n" % patch.variable) for j in sorted(patch.depends): lines.append("\tif test \"$%s\" -gt 1; then\n" % all_patches[j].variable) lines.append("\t\tabort \"Patchset %s disabled, but %s depends on that.\"\n" % (all_patches[j].name, patch.name)) lines.append("\tfi\n") for j in sorted(patch.depends): lines.append("\t%s=1\n" % all_patches[j].variable) lines.append("fi\n\n") lines_resolver = lines # Generate code for applying all patchsets lines = [] for i, patch in [(i, all_patches[i]) for i in resolved]: # Categories do not have any files associated, so just skip over if len(patch.files) == 0: continue lines.append("# Patchset %s\n" % patch.name) lines.append("# |\n") # List dependencies (if any) if len(patch.depends): depends = resolve_dependencies(all_patches, i, auto_deps=False) lines.append("# | This patchset has the following (direct or indirect) dependencies:\n") lines.append("# | *\t%s\n" % "\n# | \t".join(textwrap.wrap( ", ".join([all_patches[j].name for j in depends]), 120))) lines.append("# |\n") # List all bugs fixed by this patchset if any([bugid is not None for sync, bugid, bugname in patch.fixes]): lines.append("# | This patchset fixes the following Wine bugs:\n") for sync, bugid, bugname in patch.fixes: if bugid is not None: lines.append("# | *\t%s\n" % "\n# | \t".join(textwrap.wrap("[#%d] %s" % (bugid, bugname), 120))) lines.append("# |\n") # List all modified files lines.append("# | Modified files:\n") lines.append("# | *\t%s\n" % "\n# | \t".join(textwrap.wrap(", ".join(sorted(patch.modified_files)), 120))) lines.append("# |\n") lines.append("if test \"$%s\" -eq 1; then\n" % patch.variable) for f in patch.files: lines.append("\tpatch_apply %s\n" % os.path.join(patch.name, f)) if len(patch.patches): lines.append("\t(\n") for p in _unique(patch.patches, key=lambda p: (p.patch_author, p.patch_subject, p.patch_revision)): lines.append("\t\techo '+ { \"%s\", \"%s\", %d },';\n" % (_escape(p.patch_author), _escape(p.patch_subject), p.patch_revision)) lines.append("\t) >> \"$patchlist\"\n") lines.append("fi\n\n") lines_apply = lines with open(config.path_template_script) as template_fp: template = template_fp.read() with open(config.path_script, "w") as fp: fp.write(template.format(staging_version=_staging_version(), upstream_commit=upstream_commit, patch_helpers="".join(lines_helpers).rstrip("\n"), patch_resolver="".join(lines_resolver).rstrip("\n"), patch_apply="".join(lines_apply).rstrip("\n"))) # Add changes to git subprocess.call(["git", "add", config.path_script]) if __name__ == "__main__": # Hack to avoid KeyboardInterrupts on different threads def _sig_int(signum=None, frame=None): signal.signal(signal.SIGINT, signal.SIG_IGN) raise RuntimeError("CTRL+C pressed") signal.signal(signal.SIGINT, _sig_int) def _check_commit_hash(commit): if len(commit) != 40 or commit != commit.lower(): raise argparse.ArgumentTypeError("not a valid commit hash") return commit parser = argparse.ArgumentParser(description="Automatic patch dependency checker and apply script generator.") parser.add_argument('--skip-checks', action='store_true', help="Skip dependency checks") parser.add_argument('--commit', type=_check_commit_hash, help="Use given commit hash instead of HEAD") parser.add_argument('--sync-bugs', action='store_true', help="Update bugs in bugtracker (requires admin rights)") args = parser.parse_args() tools_directory = os.path.dirname(os.path.realpath(__file__)) os.chdir(os.path.join(tools_directory, "./..")) config_parser = ConfigParser.ConfigParser() config_parser.read(config.path_config) try: config.bugtracker_user = config_parser.get('bugtracker', 'username') config.bugtracker_pass = config_parser.get('bugtracker', 'password') except (ConfigParser.NoSectionError, ConfigParser.NoOptionError): config.bugtracker_user = None config.bugtracker_pass = None try: upstream_commit = _upstream_commit(args.commit) all_patches = load_patchsets() # Check bugzilla check_bug_status(all_patches, sync_bugs=args.sync_bugs) # Update autogenerated files generate_ifdefined(all_patches, skip_checks=args.skip_checks) resolved = generate_apply_order(all_patches, skip_checks=args.skip_checks) generate_script(all_patches, resolved) except PatchUpdaterError as e: print "" print "ERROR: %s" % e print "" exit(1)