# Copyright (c) 2009, Google Inc. All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are # met: # # * Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # * Redistributions in binary form must reproduce the above # copyright notice, this list of conditions and the following disclaimer # in the documentation and/or other materials provided with the # distribution. # * Neither the name of Google Inc. nor the names of its # contributors may be used to endorse or promote products derived from # this software without specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR # A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT # OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT # LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. import json import operator import re import urllib import urllib2 import webkitpy.common.config.urls as config_urls from webkitpy.common.memoized import memoized from webkitpy.common.net.failuremap import FailureMap from webkitpy.common.net.layouttestresults import LayoutTestResults from webkitpy.common.net.networktransaction import NetworkTransaction from webkitpy.common.net.regressionwindow import RegressionWindow from webkitpy.common.system.logutils import get_logger from webkitpy.thirdparty.BeautifulSoup import BeautifulSoup _log = get_logger(__file__) class Builder(object): def __init__(self, name, buildbot): self._name = name self._buildbot = buildbot self._builds_cache = {} self._revision_to_build_number = None from webkitpy.thirdparty.autoinstalled.mechanize import Browser self._browser = Browser() self._browser.set_handle_robots(False) # The builder pages are excluded by robots.txt def name(self): return self._name def results_url(self): return "%s/results/%s" % (self._buildbot.buildbot_url, self.url_encoded_name()) # In addition to per-build results, the build.chromium.org builders also # keep a directory that accumulates test results over many runs. def accumulated_results_url(self): return None def latest_layout_test_results_url(self): return self.accumulated_results_url() or self.latest_cached_build().results_url(); @memoized def latest_layout_test_results(self): return self.fetch_layout_test_results(self.latest_layout_test_results_url()) def _fetch_file_from_results(self, results_url, file_name): # It seems this can return None if the url redirects and then returns 404. result = urllib2.urlopen("%s/%s" % (results_url, file_name)) if not result: return None # urlopen returns a file-like object which sometimes works fine with str() # but sometimes is a addinfourl object. In either case calling read() is correct. return result.read() def fetch_layout_test_results(self, results_url): # FIXME: This should cache that the result was a 404 and stop hitting the network. results_file = NetworkTransaction(convert_404_to_None=True).run(lambda: self._fetch_file_from_results(results_url, "full_results.json")) return LayoutTestResults.results_from_string(results_file) def url_encoded_name(self): return urllib.quote(self._name) def url(self): return "%s/builders/%s" % (self._buildbot.buildbot_url, self.url_encoded_name()) # This provides a single place to mock def _fetch_build(self, build_number): build_dictionary = self._buildbot._fetch_build_dictionary(self, build_number) if not build_dictionary: return None revision_string = build_dictionary['sourceStamp']['revision'] return Build(self, build_number=int(build_dictionary['number']), # 'revision' may be None if a trunk build was started by the force-build button on the web page. revision=(int(revision_string) if revision_string else None), # Buildbot uses any nubmer other than 0 to mean fail. Since we fetch with # filter=1, passing builds may contain no 'results' value. is_green=(not build_dictionary.get('results')), ) def build(self, build_number): if not build_number: return None cached_build = self._builds_cache.get(build_number) if cached_build: return cached_build build = self._fetch_build(build_number) self._builds_cache[build_number] = build return build def latest_cached_build(self): revision_build_pairs = self.revision_build_pairs_with_results() revision_build_pairs.sort(key=lambda i: i[1]) latest_build_number = revision_build_pairs[-1][1] return self.build(latest_build_number) def force_build(self, username="webkit-patch", comments=None): def predicate(form): try: return form.find_control("username") except Exception, e: return False # ignore false positives for missing Browser methods - pylint: disable=E1102 self._browser.open(self.url()) self._browser.select_form(predicate=predicate) self._browser["username"] = username if comments: self._browser["comments"] = comments return self._browser.submit() file_name_regexp = re.compile(r"r(?P\d+) \((?P\d+)\)") def _revision_and_build_for_filename(self, filename): # Example: "r47483 (1)/" or "r47483 (1).zip" match = self.file_name_regexp.match(filename) if not match: return None return (int(match.group("revision")), int(match.group("build_number"))) def _fetch_revision_to_build_map(self): # All _fetch requests go through _buildbot for easier mocking # FIXME: This should use NetworkTransaction's 404 handling instead. try: # FIXME: This method is horribly slow due to the huge network load. # FIXME: This is a poor way to do revision -> build mapping. # Better would be to ask buildbot through some sort of API. print "Loading revision/build list from %s." % self.results_url() print "This may take a while..." result_files = self._buildbot._fetch_twisted_directory_listing(self.results_url()) except urllib2.HTTPError, error: if error.code != 404: raise _log.debug("Revision/build list failed to load.") result_files = [] return dict(self._file_info_list_to_revision_to_build_list(result_files)) def _file_info_list_to_revision_to_build_list(self, file_info_list): # This assumes there was only one build per revision, which is false but we don't care for now. revisions_and_builds = [] for file_info in file_info_list: revision_and_build = self._revision_and_build_for_filename(file_info["filename"]) if revision_and_build: revisions_and_builds.append(revision_and_build) return revisions_and_builds def _revision_to_build_map(self): if not self._revision_to_build_number: self._revision_to_build_number = self._fetch_revision_to_build_map() return self._revision_to_build_number def revision_build_pairs_with_results(self): return self._revision_to_build_map().items() # This assumes there can be only one build per revision, which is false, but we don't care for now. def build_for_revision(self, revision, allow_failed_lookups=False): # NOTE: This lookup will fail if that exact revision was never built. build_number = self._revision_to_build_map().get(int(revision)) if not build_number: return None build = self.build(build_number) if not build and allow_failed_lookups: # Builds for old revisions with fail to lookup via buildbot's json api. build = Build(self, build_number=build_number, revision=revision, is_green=False, ) return build def find_regression_window(self, red_build, look_back_limit=30): if not red_build or red_build.is_green(): return RegressionWindow(None, None) common_failures = None current_build = red_build build_after_current_build = None look_back_count = 0 while current_build: if current_build.is_green(): # current_build can't possibly have any failures in common # with red_build because it's green. break results = current_build.layout_test_results() # We treat a lack of results as if all the test failed. # This occurs, for example, when we can't compile at all. if results: failures = set(results.failing_tests()) if common_failures == None: common_failures = failures else: common_failures = common_failures.intersection(failures) if not common_failures: # current_build doesn't have any failures in common with # the red build we're worried about. We assume that any # failures in current_build were due to flakiness. break look_back_count += 1 if look_back_count > look_back_limit: return RegressionWindow(None, current_build, failing_tests=common_failures) build_after_current_build = current_build current_build = current_build.previous_build() # We must iterate at least once because red_build is red. assert(build_after_current_build) # Current build must either be green or have no failures in common # with red build, so we've found our failure transition. return RegressionWindow(current_build, build_after_current_build, failing_tests=common_failures) def find_blameworthy_regression_window(self, red_build_number, look_back_limit=30, avoid_flakey_tests=True): red_build = self.build(red_build_number) regression_window = self.find_regression_window(red_build, look_back_limit) if not regression_window.build_before_failure(): return None # We ran off the limit of our search # If avoid_flakey_tests, require at least 2 bad builds before we # suspect a real failure transition. if avoid_flakey_tests and regression_window.failing_build() == red_build: return None return regression_window class Build(object): def __init__(self, builder, build_number, revision, is_green): self._builder = builder self._number = build_number self._revision = revision self._is_green = is_green @staticmethod def build_url(builder, build_number): return "%s/builds/%s" % (builder.url(), build_number) def url(self): return self.build_url(self.builder(), self._number) def results_url(self): results_directory = "r%s (%s)" % (self.revision(), self._number) return "%s/%s" % (self._builder.results_url(), urllib.quote(results_directory)) def results_zip_url(self): return "%s.zip" % self.results_url() @memoized def layout_test_results(self): return self._builder.fetch_layout_test_results(self.results_url()) def builder(self): return self._builder def revision(self): return self._revision def is_green(self): return self._is_green def previous_build(self): # previous_build() allows callers to avoid assuming build numbers are sequential. # They may not be sequential across all master changes, or when non-trunk builds are made. return self._builder.build(self._number - 1) class BuildBot(object): _builder_factory = Builder _default_url = config_urls.buildbot_url def __init__(self, url=None): self.buildbot_url = url if url else self._default_url self._builder_by_name = {} def _parse_last_build_cell(self, builder, cell): status_link = cell.find('a') if status_link: # Will be either a revision number or a build number revision_string = status_link.string # If revision_string has non-digits assume it's not a revision number. builder['built_revision'] = int(revision_string) \ if not re.match('\D', revision_string) \ else None # FIXME: We treat slave lost as green even though it is not to # work around the Qts bot being on a broken internet connection. # The real fix is https://bugs.webkit.org/show_bug.cgi?id=37099 builder['is_green'] = not re.search('fail', cell.renderContents()) or \ not not re.search('lost', cell.renderContents()) status_link_regexp = r"builders/(?P.*)/builds/(?P\d+)" link_match = re.match(status_link_regexp, status_link['href']) builder['build_number'] = int(link_match.group("build_number")) else: # We failed to find a link in the first cell, just give up. This # can happen if a builder is just-added, the first cell will just # be "no build" # Other parts of the code depend on is_green being present. builder['is_green'] = False builder['built_revision'] = None builder['build_number'] = None def _parse_current_build_cell(self, builder, cell): activity_lines = cell.renderContents().split("
") builder["activity"] = activity_lines[0] # normally "building" or "idle" # The middle lines document how long left for any current builds. match = re.match("(?P\d) pending", activity_lines[-1]) builder["pending_builds"] = int(match.group("pending_builds")) if match else 0 def _parse_builder_status_from_row(self, status_row): status_cells = status_row.findAll('td') builder = {} # First cell is the name name_link = status_cells[0].find('a') builder["name"] = unicode(name_link.string) self._parse_last_build_cell(builder, status_cells[1]) self._parse_current_build_cell(builder, status_cells[2]) return builder def _matches_regexps(self, builder_name, name_regexps): for name_regexp in name_regexps: if re.match(name_regexp, builder_name): return True return False # FIXME: This method needs to die, but is used by a unit test at the moment. def _builder_statuses_with_names_matching_regexps(self, builder_statuses, name_regexps): return [builder for builder in builder_statuses if self._matches_regexps(builder["name"], name_regexps)] # FIXME: These _fetch methods should move to a networking class. def _fetch_build_dictionary(self, builder, build_number): # Note: filter=1 will remove None and {} and '', which cuts noise but can # cause keys to be missing which you might otherwise expect. # FIXME: The bot sends a *huge* amount of data for each request, we should # find a way to reduce the response size further. json_url = "%s/json/builders/%s/builds/%s?filter=1" % (self.buildbot_url, urllib.quote(builder.name()), build_number) try: return json.load(urllib2.urlopen(json_url)) except urllib2.URLError, err: build_url = Build.build_url(builder, build_number) _log.error("Error fetching data for %s build %s (%s, json: %s): %s" % (builder.name(), build_number, build_url, json_url, err)) return None except ValueError, err: build_url = Build.build_url(builder, build_number) _log.error("Error decoding json data from %s: %s" % (build_url, err)) return None def _fetch_one_box_per_builder(self): build_status_url = "%s/one_box_per_builder" % self.buildbot_url return urllib2.urlopen(build_status_url) def _file_cell_text(self, file_cell): """Traverses down through firstChild elements until one containing a string is found, then returns that string""" element = file_cell while element.string is None and element.contents: element = element.contents[0] return element.string def _parse_twisted_file_row(self, file_row): string_or_empty = lambda string: unicode(string) if string else u"" file_cells = file_row.findAll('td') return { "filename": string_or_empty(self._file_cell_text(file_cells[0])), "size": string_or_empty(self._file_cell_text(file_cells[1])), "type": string_or_empty(self._file_cell_text(file_cells[2])), "encoding": string_or_empty(self._file_cell_text(file_cells[3])), } def _parse_twisted_directory_listing(self, page): soup = BeautifulSoup(page) # HACK: Match only table rows with a class to ignore twisted header/footer rows. file_rows = soup.find('table').findAll('tr', {'class': re.compile(r'\b(?:directory|file)\b')}) return [self._parse_twisted_file_row(file_row) for file_row in file_rows] # FIXME: There should be a better way to get this information directly from twisted. def _fetch_twisted_directory_listing(self, url): return self._parse_twisted_directory_listing(urllib2.urlopen(url)) def builders(self): return [self.builder_with_name(status["name"]) for status in self.builder_statuses()] # This method pulls from /one_box_per_builder as an efficient way to get information about def builder_statuses(self): soup = BeautifulSoup(self._fetch_one_box_per_builder()) return [self._parse_builder_status_from_row(status_row) for status_row in soup.find('table').findAll('tr')] def builder_with_name(self, name): builder = self._builder_by_name.get(name) if not builder: builder = self._builder_factory(name, self) self._builder_by_name[name] = builder return builder def failure_map(self): failure_map = FailureMap() revision_to_failing_bots = {} for builder_status in self.builder_statuses(): if builder_status["is_green"]: continue builder = self.builder_with_name(builder_status["name"]) regression_window = builder.find_blameworthy_regression_window(builder_status["build_number"]) if regression_window: failure_map.add_regression_window(builder, regression_window) return failure_map # This makes fewer requests than calling Builder.latest_build would. It grabs all builder # statuses in one request using self.builder_statuses (fetching /one_box_per_builder instead of builder pages). def _latest_builds_from_builders(self): builder_statuses = self.builder_statuses() return [self.builder_with_name(status["name"]).build(status["build_number"]) for status in builder_statuses] def _build_at_or_before_revision(self, build, revision): while build: if build.revision() <= revision: return build build = build.previous_build() def _fetch_builder_page(self, builder): builder_page_url = "%s/builders/%s?numbuilds=100" % (self.buildbot_url, urllib2.quote(builder.name())) return urllib2.urlopen(builder_page_url) def _revisions_for_builder(self, builder): soup = BeautifulSoup(self._fetch_builder_page(builder)) revisions = [] for status_row in soup.find('table').findAll('tr'): revision_anchor = status_row.find('a') table_cells = status_row.findAll('td') if not table_cells or len(table_cells) < 3 or not table_cells[2].string: continue if revision_anchor and revision_anchor.string and re.match(r'^\d+$', revision_anchor.string): revisions.append((int(revision_anchor.string), 'success' in table_cells[2].string)) return revisions def _find_green_revision(self, builder_revisions): revision_statuses = {} for builder in builder_revisions: for revision, succeeded in builder_revisions[builder]: revision_statuses.setdefault(revision, set()) if succeeded and revision_statuses[revision] != None: revision_statuses[revision].add(builder) else: revision_statuses[revision] = None # In descending order, look for a revision X with successful builds # Once we found X, check if remaining builders succeeded in the neighborhood of X. revisions_in_order = sorted(revision_statuses.keys(), reverse=True) for i, revision in enumerate(revisions_in_order): if not revision_statuses[revision]: continue builders_succeeded_in_future = set() for future_revision in sorted(revisions_in_order[:i + 1]): if not revision_statuses[future_revision]: break builders_succeeded_in_future = builders_succeeded_in_future.union(revision_statuses[future_revision]) builders_succeeded_in_past = set() for past_revision in revisions_in_order[i:]: if not revision_statuses[past_revision]: break builders_succeeded_in_past = builders_succeeded_in_past.union(revision_statuses[past_revision]) if len(builders_succeeded_in_future) == len(builder_revisions) and len(builders_succeeded_in_past) == len(builder_revisions): return revision return None