#!/usr/bin/python # # Automatic patch dependency checker and Makefile/README.md generator. # # Copyright (C) 2014 Sebastian Lackner # # 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 # from xml.dom import minidom import contextlib import hashlib import itertools import multiprocessing import os import patchutils import pickle import re import subprocess import sys import textwrap import urllib # Cached information to speed up patch dependency checks latest_wine_commit = None cached_patch_result = {} cached_original_src = {} class config(object): path_depcache = "./.depcache" path_srccache = "./.srccache" path_patches = "./patches" path_changelog = "./debian/changelog" path_wine = "./debian/tools/wine" path_template_Makefile = "./debian/tools/Makefile.in" path_Makefile = "./patches/Makefile" path_README_md = "./README.md" path_template_README_md = "./debian/tools/README.md.in" path_DEVELOPER_md = "./DEVELOPER.md" path_template_DEVELOPER_md = "./debian/tools/DEVELOPER.md.in" class PatchUpdaterError(RuntimeError): """Failed to update patches.""" pass class AuthorInfo(object): def __init__(self): self.author = "" self.subject = "" self.revision = "" class PatchSet(object): def __init__(self, name): self.name = name self.authors = [] self.fixes = [] self.changes = [] self.files = [] self.patches = [] self.modified_files = set() self.depends = set() self.verify_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 _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(filename, "wb") as fp: pickle.dump(value, fp, pickle.HIGHEST_PROTOCOL) def _winebugs_query_short_desc(bugids): """Query short_desc from multiple wine bugzilla bugs at the same time.""" bugids = list(set(bugids)) # Remove duplicates and convert to fixed order if len(bugids) == 0: return {} # Query bugzilla url = "http://bugs.winehq.org/show_bug.cgi?%s&ctype=xml&field=short_desc" % \ "&".join(["id=%d" % bugid for bugid in bugids]) with contextlib.closing(urllib.urlopen(url)) as fp: data = minidom.parseString(fp.read()) # convert xml in a dictionary containing all bugs we found result = {} for element in data.getElementsByTagName('bug_id'): bugids.remove(int(element.firstChild.data)) for bugid, element in zip(bugids, data.getElementsByTagName('short_desc')): result[bugid] = element.firstChild.data return result def read_patchsets(directory): """Read information about all patchsets in a given directory.""" def _iter_kv_from_file(filename): """Iterate through all key/value pairs in a file.""" with open(filename) as fp: for line in fp: if line.startswith("#"): continue tmp = line.split(":", 1) if len(tmp) != 2: yield None, None else: yield tmp[0].lower(), tmp[1].strip() unique_id = itertools.count() all_patches = {} name_to_id = {} all_bugs = [] # Read in sorted order (to ensure created Makefile doesn't change too much) for name in sorted(os.listdir(directory)): if name in [".", ".."]: continue subdirectory = os.path.join(directory, name) if not os.path.isdir(subdirectory): continue patch = PatchSet(name) # Enumerate .patch files in the given directory, enumerate individual patches and affected files for f in sorted(os.listdir(subdirectory)): if not f.endswith(".patch") or not os.path.isfile(os.path.join(subdirectory, f)): continue patch.files.append(f) for p in patchutils.read_patch(os.path.join(subdirectory, f)): patch.patches.append(p) patch.modified_files.add(p.modified_file) # 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(): deffile = os.path.join(os.path.join(directory, patch.name), "definition") if not os.path.isfile(deffile): raise PatchUpdaterError("Missing definition file %s" % deffile) info = AuthorInfo() for key, val in _iter_kv_from_file(deffile): if key is None: if len(info.author) and len(info.subject) and len(info.revision): patch.authors.append(info) info = AuthorInfo() continue if key == "author": if len(info.author): info.author += ", " info.author += val elif key == "subject" or key == "title": if len(info.subject): info.subject += " " info.subject += val elif key == "revision": if len(info.revision): info.revision += ", " info.revision += val elif key == "fixes": r = re.match("^[0-9]+$", val) if r: bugid = int(val) patch.fixes.append((bugid, None, None)) all_bugs.append(bugid) continue r = re.match("^\\[ *([0-9]+) *\\](.*)$", val) if r: bugid, description = int(r.group(1)), r.group(2).strip() patch.fixes.append((bugid, None, description)) all_bugs.append(bugid) continue patch.fixes.append((None, None, val)) elif key == "depends": if not name_to_id.has_key(val): raise PatchUpdaterError("Definition file %s references unknown dependency %s" % (deffile, val)) patch.depends.add(name_to_id[val]) else: print "WARNING: Ignoring unknown command in definition file %s: %s" % (deffile, line) if len(info.author) and len(info.subject) and len(info.revision): patch.authors.append(info) bug_short_desc = _winebugs_query_short_desc(all_bugs) for i, patch in all_patches.iteritems(): patch.fixes = [(bugid, (bug_short_desc[bugid] if bug_short_desc.has_key(bugid) else None), description) for bugid, dummy, description in patch.fixes] 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 causal_time_permutations(all_patches, indices, filename): """Iterate over all possible permutations of patches affecting a specific file, which are compatible with dependencies.""" for permutation in itertools.permutations(indices): if causal_time_relation(all_patches, permutation): selected_patches = [] for i in permutation: selected_patches += [patch for patch in all_patches[i].patches if patch.modified_file == filename] yield selected_patches 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, force=False): """Return the hash and optionally the content of a file.""" # If we're not forced, we try to save time and only lookup the cached checksum entry = "%s:%s" % (latest_wine_commit, filename) if not force and cached_original_src.has_key(entry): return (cached_original_src[entry], None) # Grab original file from the wine git repository try: with open(os.devnull, 'w') as devnull: content = subprocess.check_output(["git", "show", entry], cwd=config.path_wine, stderr=devnull) except subprocess.CalledProcessError as e: if e.returncode != 128: raise # not found content = "" content_hash = hashlib.sha256(content).digest() cached_original_src[entry] = content_hash return (content_hash, content) def verify_patch_order(all_patches, indices, filename): """Checks if the dependencies are defined correctly by applying on the patches on a copy from the git tree.""" global cached_patch_result # 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]))) return # Get at least the checksum of the original file original_content_hash, original_content = get_wine_file(filename) # Check for possible ways to apply the patch failed_to_apply = False last_result_hash = None for patches in causal_time_permutations(all_patches, indices, filename): # Calculate unique hash based on the original content and the order in which the patches are applied m = hashlib.sha256() m.update(original_content_hash) for patch in patches: m.update(patch.hash()) unique_hash = m.digest() # Fast path -> we know that it applies properly if cached_patch_result.has_key(unique_hash): result_hash = cached_patch_result[unique_hash] else: # Now really get the file, if we don't have it yet if original_content is None: original_content_hash, original_content = get_wine_file(filename, force=True) # Apply the patches (without fuzz) try: content = patchutils.apply_patch(original_content, patches, fuzz=0) except patchutils.PatchApplyError: if last_result_hash is not None: break failed_to_apply = True continue # Get hash of resulting file and add to cache result_hash = hashlib.sha256(content).digest() cached_patch_result[unique_hash] = result_hash if last_result_hash is None: last_result_hash = result_hash if failed_to_apply: break elif last_result_hash != result_hash: last_result_hash = None break # If something failed, then show the appropriate error message. if failed_to_apply and last_result_hash is None: raise PatchUpdaterError("Changes to file %s don't apply on git source tree: %s" % (filename, ", ".join([all_patches[i].name for i in indices]))) elif failed_to_apply or last_result_hash is None: raise PatchUpdaterError("Depending on the order some changes to file %s dont't apply / lead to different results: %s" % (filename, ", ".join([all_patches[i].name for i in indices]))) else: assert len(last_result_hash) == 32 def verify_dependencies(all_patches): """Resolve dependencies, and afterwards run verify_patch_order() to check if everything applies properly.""" def _load_patch_cache(): """Load dictionary for cached patch dependency tests into cached_patch_result.""" global cached_patch_result global cached_original_src cached_patch_result = _load_dict(config.path_depcache) cached_original_src = _load_dict(config.path_srccache) def _save_patch_cache(): """Save dictionary for cached patch depdency tests.""" _save_dict(config.path_depcache, cached_patch_result) _save_dict(config.path_srccache, cached_original_src) max_patches = max(all_patches.keys()) + 1 for i, patch in all_patches.iteritems(): patch.verify_depends = set(patch.depends) patch.verify_time = [0]*max_patches # Check for circular dependencies and perform modified vector clock algorithm patches = dict(all_patches) while len(patches): to_delete = [] for i, patch in patches.iteritems(): if len(patch.verify_depends) == 0: patch.verify_time[i] += 1 to_delete.append(i) if len(to_delete) == 0: raise PatchUpdaterError("Circular dependency in set of patches: %s" % ", ".join([patch.name for i, patch in patches.iteritems()])) for j in to_delete: for i, patch in patches.iteritems(): if i != j and j in patch.verify_depends: patch.verify_time = causal_time_combine(patch.verify_time, patches[j].verify_time) patch.verify_depends.remove(j) del patches[j] # Find out which files are modified by multiple patches modified_files = {} for i, patch in all_patches.iteritems(): for f in patch.modified_files: if f not in modified_files: modified_files[f] = [] modified_files[f].append(i) # Check if patches always apply correctly _load_patch_cache() try: for f, indices in modified_files.iteritems(): verify_patch_order(all_patches, indices, f) finally: _save_patch_cache() def generate_makefile(all_patches, fp): """Generate Makefile for a specific set of patches.""" with open(config.path_template_Makefile) as template_fp: template = template_fp.read() fp.write(template.format(patchlist=" \\\n\t\t".join(["%s.ok" % patch.name for i, patch in all_patches.iteritems()]))) for i, patch in all_patches.iteritems(): fp.write("# Patchset %s\n" % patch.name) fp.write("# |\n") fp.write("# | Included patches:\n") # List all patches and their corresponding authors for info in patch.authors: if not info.subject: continue s = [] if info.revision and info.revision != "1": s.append("rev %s" % info.revision) if info.author: s.append("by %s" % info.author) if len(s): s = " [%s]" % ", ".join(s) fp.write("# | *\t%s\n" % "\n# | \t".join(textwrap.wrap(info.subject + s, 120))) fp.write("# |\n") # List all bugs fixed by this patchset if any([bugid is not None for bugid, bugname, description in patch.fixes]): fp.write("# | This patchset fixes the following Wine bugs:\n") for bugid, bugname, description in patch.fixes: if bugid is not None: fp.write("# | *\t%s\n" % "\n# | \t".join(textwrap.wrap("[#%d] %s" % (bugid, bugname), 120))) fp.write("# |\n") # List all modified files fp.write("# | Modified files: \n") fp.write("# | *\t%s\n" % "\n# | \t".join(textwrap.wrap(", ".join(sorted(patch.modified_files)), 120))) fp.write("# |\n") # Generate dependencies and code to apply patches fp.write(".INTERMEDIATE: %s.ok\n" % patch.name) depends = " ".join([""] + ["%s.ok" % all_patches[d].name for d in patch.depends]) if len(patch.depends) else "" fp.write("%s.ok:%s\n" % (patch.name, depends)) for f in patch.files: fp.write("\t$(call APPLY_PATCH,%s)\n" % os.path.join(patch.name, f)) # Create *.ok file (used to generate patchlist) if len(patch.authors): fp.write("\t@( \\\n") for info in patch.authors: if not info.subject: continue s = info.subject.replace("\\", "\\\\\\\\").replace("\"", "\\\\\"") if info.revision and info.revision != "1": s += " [rev %s]" % info.revision fp.write("\t\techo '+ { \"%s\", \"%s\", \"%s\" },'; \\\n" % (patch.name, info.author, s)) fp.write("\t) > %s.ok\n" % patch.name) else: fp.write("\ttouch %s.ok\n" % patch.name) fp.write("\n"); def generate_readme_md(all_patches, fp): """Generate README.md including information about specific patches and bugfixes.""" # Get list of all bugs def _all_bugs(): all_bugs = [] for i, patch in all_patches.iteritems(): for (bugid, bugname, description) in patch.fixes: if bugid is not None: if description is None: description = bugname all_bugs.append((bugid, bugname, description)) for (bugid, bugname, description) in sorted(all_bugs, key=lambda x: x[2]): yield "%s ([Wine Bug #%d](http://bugs.winehq.org/show_bug.cgi?id=%d \"%s\"))" % \ (description, bugid, bugid, bugname.replace("\\", "\\\\").replace("\"", "\\\"")) # Get list of all fixes def _all_fixes(): all_fixes = [] for i, patch in all_patches.iteritems(): for (bugid, bugname, description) in patch.fixes: if bugid is None: all_fixes.append(description) for description in sorted(all_fixes): yield description # Create enumeration from list def _enum(x): return "* " + "\n* ".join(x) with open(config.path_template_README_md) as template_fp: template = template_fp.read() fp.write(template.format(bugs=_enum(_all_bugs()), fixes=_enum(_all_fixes()))) def generate_developer_md(fp): # Read information from changelog def _read_changelog(): with open(config.path_changelog) as fp: for line in fp: r = re.match("^([a-zA-Z0-9][^(]*)\((.*)\) ([^;]*)", line) if r: yield (r.group(1).strip(), r.group(2).strip(), r.group(3).strip()) # Get version number of the latest stable release def _latest_stable_version(): for package, version, distro in _read_changelog(): if distro.lower() != "unreleased": return version with open(config.path_template_DEVELOPER_md) as template_fp: template = template_fp.read() fp.write(template.format(version=_latest_stable_version())) if __name__ == "__main__": # Get the latest wine commit (sha1) if not os.path.isdir(config.path_wine): raise RuntimeError("Please create a symlink to the wine repository in %s" % config.path_wine) latest_wine_commit = subprocess.check_output(["git", "rev-parse", "origin/master"], cwd=config.path_wine).strip() assert len(latest_wine_commit) == 40 try: all_patches = read_patchsets(config.path_patches) verify_dependencies(all_patches) except PatchUpdaterError as e: print "" print "ERROR: %s" % e print "" exit(1) with open(config.path_Makefile, "w") as fp: generate_makefile(all_patches, fp) with open(config.path_README_md, "w") as fp: generate_readme_md(all_patches, fp) with open(config.path_DEVELOPER_md, "w") as fp: generate_developer_md(fp)