# Copyright (c) 2012 The Chromium Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """A database of OWNERS files. OWNERS files indicate who is allowed to approve changes in a specific directory (or who is allowed to make changes without needing approval of another OWNER). Note that all changes must still be reviewed by someone familiar with the code, so you may need approval from both an OWNER and a reviewer in many cases. The syntax of the OWNERS file is, roughly: lines := (\s* line? \s* "\n")* line := directive | "per-file" \s+ glob \s* "=" \s* directive | comment directive := "set noparent" | "file:" glob | email_address | "*" glob := [a-zA-Z0-9_-*?]+ comment := "#" [^"\n"]* Email addresses must follow the foo@bar.com short form (exact syntax given in BASIC_EMAIL_REGEXP, below). Filename globs follow the simple unix shell conventions, and relative and absolute paths are not allowed (i.e., globs only refer to the files in the current directory). If a user's email is one of the email_addresses in the file, the user is considered an "OWNER" for all files in the directory. If the "per-file" directive is used, the line only applies to files in that directory that match the filename glob specified. If the "set noparent" directive used, then only entries in this OWNERS file apply to files in this directory; if the "set noparent" directive is not used, then entries in OWNERS files in enclosing (upper) directories also apply (up until a "set noparent is encountered"). If "per-file glob=set noparent" is used, then global directives are ignored for the glob, and only the "per-file" owners are used for files matching that glob. If the "file:" directive is used, the referred to OWNERS file will be parsed and considered when determining the valid set of OWNERS. If the filename starts with "//" it is relative to the root of the repository, otherwise it is relative to the current file Examples for all of these combinations can be found in tests/owners_unittest.py. """ import collections import random import re # If this is present by itself on a line, this means that everyone can review. EVERYONE = '*' # Recognizes 'X@Y' email addresses. Very simplistic. BASIC_EMAIL_REGEXP = r'^[\w\-\+\%\.]+\@[\w\-\+\%\.]+$' def _assert_is_collection(obj): assert not isinstance(obj, basestring) # Module 'collections' has no 'Iterable' member # pylint: disable=E1101 if hasattr(collections, 'Iterable') and hasattr(collections, 'Sized'): assert (isinstance(obj, collections.Iterable) and isinstance(obj, collections.Sized)) class SyntaxErrorInOwnersFile(Exception): def __init__(self, path, lineno, msg): super(SyntaxErrorInOwnersFile, self).__init__((path, lineno, msg)) self.path = path self.lineno = lineno self.msg = msg def __str__(self): return '%s:%d syntax error: %s' % (self.path, self.lineno, self.msg) class Database(object): """A database of OWNERS files for a repository. This class allows you to find a suggested set of reviewers for a list of changed files, and see if a list of changed files is covered by a list of reviewers.""" def __init__(self, root, fopen, os_path, glob): """Args: root: the path to the root of the Repository open: function callback to open a text file for reading os_path: module/object callback with fields for 'abspath', 'dirname', 'exists', and 'join' glob: function callback to list entries in a directory match a glob (i.e., glob.glob) """ self.root = root self.fopen = fopen self.os_path = os_path self.glob = glob # Pick a default email regexp to use; callers can override as desired. self.email_regexp = re.compile(BASIC_EMAIL_REGEXP) # Mapping of owners to the paths they own. self.owned_by = {EVERYONE: set()} # Mapping of paths to authorized owners. self.owners_for = {} # Mapping reviewers to the preceding comment per file in the OWNERS files. self.comments = {} # Set of paths that stop us from looking above them for owners. # (This is implicitly true for the root directory). self.stop_looking = set(['']) # Set of files which have already been read. self.read_files = set() def reviewers_for(self, files, author): """Returns a suggested set of reviewers that will cover the files. files is a sequence of paths relative to (and under) self.root. If author is nonempty, we ensure it is not included in the set returned in order avoid suggesting the author as a reviewer for their own changes.""" self._check_paths(files) self.load_data_needed_for(files) suggested_owners = self._covering_set_of_owners_for(files, author) if EVERYONE in suggested_owners: if len(suggested_owners) > 1: suggested_owners.remove(EVERYONE) else: suggested_owners = set(['']) return suggested_owners def files_not_covered_by(self, files, reviewers): """Returns the files not owned by one of the reviewers. Args: files is a sequence of paths relative to (and under) self.root. reviewers is a sequence of strings matching self.email_regexp. """ self._check_paths(files) self._check_reviewers(reviewers) self.load_data_needed_for(files) covered_objs = self._objs_covered_by(reviewers) uncovered_files = [f for f in files if not self._is_obj_covered_by(f, covered_objs)] return set(uncovered_files) def _check_paths(self, files): def _is_under(f, pfx): return self.os_path.abspath(self.os_path.join(pfx, f)).startswith(pfx) _assert_is_collection(files) assert all(not self.os_path.isabs(f) and _is_under(f, self.os_path.abspath(self.root)) for f in files) def _check_reviewers(self, reviewers): _assert_is_collection(reviewers) assert all(self.email_regexp.match(r) for r in reviewers) def _objs_covered_by(self, reviewers): objs = self.owned_by[EVERYONE] for r in reviewers: objs = objs | self.owned_by.get(r, set()) return objs def _stop_looking(self, objname): return objname in self.stop_looking def _is_obj_covered_by(self, objname, covered_objs): while not objname in covered_objs and not self._stop_looking(objname): objname = self.os_path.dirname(objname) return objname in covered_objs def _enclosing_dir_with_owners(self, objname): """Returns the innermost enclosing directory that has an OWNERS file.""" dirpath = objname while not dirpath in self.owners_for: if self._stop_looking(dirpath): break dirpath = self.os_path.dirname(dirpath) return dirpath def load_data_needed_for(self, files): for f in files: dirpath = self.os_path.dirname(f) while not dirpath in self.owners_for: self._read_owners(self.os_path.join(dirpath, 'OWNERS')) if self._stop_looking(dirpath): break dirpath = self.os_path.dirname(dirpath) def _read_owners(self, path): owners_path = self.os_path.join(self.root, path) if not self.os_path.exists(owners_path): return if owners_path in self.read_files: return self.read_files.add(owners_path) comment = [] dirpath = self.os_path.dirname(path) in_comment = False lineno = 0 for line in self.fopen(owners_path): lineno += 1 line = line.strip() if line.startswith('#'): if not in_comment: comment = [] comment.append(line[1:].strip()) in_comment = True continue if line == '': continue in_comment = False if line == 'set noparent': self.stop_looking.add(dirpath) continue m = re.match('per-file (.+)=(.+)', line) if m: glob_string = m.group(1).strip() directive = m.group(2).strip() full_glob_string = self.os_path.join(self.root, dirpath, glob_string) if '/' in glob_string or '\\' in glob_string: raise SyntaxErrorInOwnersFile(owners_path, lineno, 'per-file globs cannot span directories or use escapes: "%s"' % line) baselines = self.glob(full_glob_string) for baseline in (self.os_path.relpath(b, self.root) for b in baselines): self._add_entry(baseline, directive, 'per-file line', owners_path, lineno, '\n'.join(comment)) continue if line.startswith('set '): raise SyntaxErrorInOwnersFile(owners_path, lineno, 'unknown option: "%s"' % line[4:].strip()) self._add_entry(dirpath, line, 'line', owners_path, lineno, ' '.join(comment)) def _add_entry(self, path, directive, line_type, owners_path, lineno, comment): if directive == 'set noparent': self.stop_looking.add(path) elif directive.startswith('file:'): owners_file = self._resolve_include(directive[5:], owners_path) if not owners_file: raise SyntaxErrorInOwnersFile(owners_path, lineno, ('%s does not refer to an existing file.' % directive[5:])) self._read_owners(owners_file) dirpath = self.os_path.dirname(owners_file) for key in self.owned_by: if not dirpath in self.owned_by[key]: continue self.owned_by[key].add(path) if dirpath in self.owners_for: self.owners_for.setdefault(path, set()).update(self.owners_for[dirpath]) elif self.email_regexp.match(directive) or directive == EVERYONE: self.comments.setdefault(directive, {}) self.comments[directive][path] = comment self.owned_by.setdefault(directive, set()).add(path) self.owners_for.setdefault(path, set()).add(directive) else: raise SyntaxErrorInOwnersFile(owners_path, lineno, ('%s is not a "set" directive, file include, "*", ' 'or an email address: "%s"' % (line_type, directive))) def _resolve_include(self, path, start): if path.startswith('//'): include_path = path[2:] else: assert start.startswith(self.root) start = self.os_path.dirname(start[len(self.root):]) include_path = self.os_path.join(start, path) owners_path = self.os_path.join(self.root, include_path) if not self.os_path.exists(owners_path): return None return include_path def _covering_set_of_owners_for(self, files, author): dirs_remaining = set(self._enclosing_dir_with_owners(f) for f in files) all_possible_owners = self.all_possible_owners(dirs_remaining, author) suggested_owners = set() while dirs_remaining: owner = self.lowest_cost_owner(all_possible_owners, dirs_remaining) suggested_owners.add(owner) dirs_to_remove = set(el[0] for el in all_possible_owners[owner]) dirs_remaining -= dirs_to_remove return suggested_owners def all_possible_owners(self, dirs, author): """Returns a list of (potential owner, distance-from-dir) tuples; a distance of 1 is the lowest/closest possible distance (which makes the subsequent math easier).""" all_possible_owners = {} for current_dir in dirs: dirname = current_dir distance = 1 while True: for owner in self.owners_for.get(dirname, []): if author and owner == author: continue all_possible_owners.setdefault(owner, []) # If the same person is in multiple OWNERS files above a given # directory, only count the closest one. if not any(current_dir == el[0] for el in all_possible_owners[owner]): all_possible_owners[owner].append((current_dir, distance)) if self._stop_looking(dirname): break dirname = self.os_path.dirname(dirname) distance += 1 return all_possible_owners @staticmethod def total_costs_by_owner(all_possible_owners, dirs): # We want to minimize both the number of reviewers and the distance # from the files/dirs needing reviews. The "pow(X, 1.75)" below is # an arbitrarily-selected scaling factor that seems to work well - it # will select one reviewer in the parent directory over three reviewers # in subdirs, but not one reviewer over just two. result = {} for owner in all_possible_owners: total_distance = 0 num_directories_owned = 0 for dirname, distance in all_possible_owners[owner]: if dirname in dirs: total_distance += distance num_directories_owned += 1 if num_directories_owned: result[owner] = (total_distance / pow(num_directories_owned, 1.75)) return result @staticmethod def lowest_cost_owner(all_possible_owners, dirs): total_costs_by_owner = Database.total_costs_by_owner(all_possible_owners, dirs) # Return the lowest cost owner. In the case of a tie, pick one randomly. lowest_cost = min(total_costs_by_owner.itervalues()) lowest_cost_owners = filter( lambda owner: total_costs_by_owner[owner] == lowest_cost, total_costs_by_owner) return random.Random().choice(lowest_cost_owners)