# 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."""
import collections
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):
"""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'
"""
self.root = root
self.fopen = fopen
self.os_path = os_path
# 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 = {}
# Set of paths that stop us from looking above them for owners.
# (This is implicitly true for the root directory).
self.stop_looking = set([''])
def reviewers_for(self, files):
"""Returns a suggested set of reviewers that will cover the files.
files is a sequence of paths relative to (and under) self.root."""
self._check_paths(files)
self._load_data_needed_for(files)
return self._covering_set_of_owners_for(files)
def directories_not_covered_by(self, files, reviewers):
"""Returns the set of directories that are not owned by a reviewer.
Determines which of the given files are not owned by at least one of the
reviewers, then returns a set containing the applicable enclosing
directories, i.e. the ones upward from the files that have OWNERS files.
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)
dirs = set([self.os_path.dirname(f) for f in files])
covered_dirs = self._dirs_covered_by(reviewers)
uncovered_dirs = [self._enclosing_dir_with_owners(d) for d in dirs
if not self._is_dir_covered_by(d, covered_dirs)]
return set(uncovered_dirs)
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(_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 _dirs_covered_by(self, reviewers):
dirs = self.owned_by[EVERYONE]
for r in reviewers:
dirs = dirs | self.owned_by.get(r, set())
return dirs
def _stop_looking(self, dirname):
return dirname in self.stop_looking
def _is_dir_covered_by(self, dirname, covered_dirs):
while not dirname in covered_dirs and not self._stop_looking(dirname):
dirname = self.os_path.dirname(dirname)
return dirname in covered_dirs
def _enclosing_dir_with_owners(self, directory):
"""Returns the innermost enclosing directory that has an OWNERS file."""
dirpath = directory
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_in_dir(dirpath)
if self._stop_looking(dirpath):
break
dirpath = self.os_path.dirname(dirpath)
def _read_owners_in_dir(self, dirpath):
owners_path = self.os_path.join(self.root, dirpath, 'OWNERS')
if not self.os_path.exists(owners_path):
return
lineno = 0
for line in self.fopen(owners_path):
lineno += 1
line = line.strip()
if line.startswith('#') or line == '':
continue
if line == 'set noparent':
self.stop_looking.add(dirpath)
continue
if line.startswith('set '):
raise SyntaxErrorInOwnersFile(owners_path, lineno,
'unknown option: "%s"' % line[4:].strip())
if self.email_regexp.match(line) or line == EVERYONE:
self.owned_by.setdefault(line, set()).add(dirpath)
self.owners_for.setdefault(dirpath, set()).add(line)
continue
raise SyntaxErrorInOwnersFile(owners_path, lineno,
('line is not a comment, a "set" directive, '
'or an email address: "%s"' % line))
def _covering_set_of_owners_for(self, files):
# Get the set of directories from the files.
dirs = set()
for f in files:
dirs.add(self.os_path.dirname(f))
owned_dirs = {}
dir_owners = {}
for current_dir in dirs:
# Get the list of owners for each directory.
current_owners = set()
dirname = current_dir
while dirname in self.owners_for:
current_owners |= self.owners_for[dirname]
if self._stop_looking(dirname):
break
prev_parent = dirname
dirname = self.os_path.dirname(dirname)
if prev_parent == dirname:
break
# Map each directory to a list of its owners.
dir_owners[current_dir] = current_owners
# Add the directory to the list of each owner.
for owner in current_owners:
owned_dirs.setdefault(owner, set()).add(current_dir)
final_owners = set()
while dirs:
# Find the owner that has the most directories.
max_count = 0
max_owner = None
owner_count = {}
for dirname in dirs:
for owner in dir_owners[dirname]:
count = owner_count.get(owner, 0) + 1
owner_count[owner] = count
if count >= max_count:
max_owner = owner
max_count = count
# If no more directories have OWNERS, we're done.
if not max_owner:
break
final_owners.add(max_owner)
# Remove all directories owned by the current owner from the remaining
# list.
for dirname in owned_dirs[max_owner]:
dirs.discard(dirname)
return final_owners