#!/usr/bin/python2 # # Copyright 2010 Google Inc. All Rights Reserved. import datetime import optparse import os import smtplib import sys import time from email.mime.text import MIMEText from autotest_gatherer import AutotestGatherer as AutotestGatherer from autotest_run import AutotestRun as AutotestRun from machine_manager_singleton import MachineManagerSingleton as MachineManagerSingleton from cros_utils import logger from cros_utils.file_utils import FileUtils def CanonicalizeChromeOSRoot(chromeos_root): chromeos_root = os.path.expanduser(chromeos_root) if os.path.isfile(os.path.join(chromeos_root, 'src/scripts/enter_chroot.sh')): return chromeos_root else: return None class Autotest(object): def __init__(self, autotest_string): self.name = None self.iterations = None self.args = None fields = autotest_string.split(',', 1) self.name = fields[0] if len(fields) > 1: autotest_string = fields[1] fields = autotest_string.split(',', 1) else: return self.iterations = int(fields[0]) if len(fields) > 1: self.args = fields[1] else: return def __str__(self): return '\n'.join([self.name, self.iterations, self.args]) def CreateAutotestListFromString(autotest_strings, default_iterations=None): autotest_list = [] for autotest_string in autotest_strings.split(':'): autotest = Autotest(autotest_string) if default_iterations and not autotest.iterations: autotest.iterations = default_iterations autotest_list.append(autotest) return autotest_list def CreateAutotestRuns(images, autotests, remote, board, exact_remote, rerun, rerun_if_failed, main_chromeos_root=None): autotest_runs = [] for image in images: logger.GetLogger().LogOutput('Computing md5sum of: %s' % image) image_checksum = FileUtils().Md5File(image) logger.GetLogger().LogOutput('md5sum %s: %s' % (image, image_checksum)) ### image_checksum = "abcdefghi" chromeos_root = main_chromeos_root if not main_chromeos_root: image_chromeos_root = os.path.join( os.path.dirname(image), '../../../../..') chromeos_root = CanonicalizeChromeOSRoot(image_chromeos_root) assert chromeos_root, 'chromeos_root: %s invalid' % image_chromeos_root else: chromeos_root = CanonicalizeChromeOSRoot(main_chromeos_root) assert chromeos_root, 'chromeos_root: %s invalid' % main_chromeos_root # We just need a single ChromeOS root in the MachineManagerSingleton. It is # needed because we can save re-image time by checking the image checksum at # the beginning and assigning autotests to machines appropriately. if not MachineManagerSingleton().chromeos_root: MachineManagerSingleton().chromeos_root = chromeos_root for autotest in autotests: for iteration in range(autotest.iterations): autotest_run = AutotestRun(autotest, chromeos_root=chromeos_root, chromeos_image=image, board=board, remote=remote, iteration=iteration, image_checksum=image_checksum, exact_remote=exact_remote, rerun=rerun, rerun_if_failed=rerun_if_failed) autotest_runs.append(autotest_run) return autotest_runs def GetNamesAndIterations(autotest_runs): strings = [] for autotest_run in autotest_runs: strings.append('%s:%s' % (autotest_run.autotest.name, autotest_run.iteration)) return ' %s (%s)' % (len(strings), ' '.join(strings)) def GetStatusString(autotest_runs): status_bins = {} for autotest_run in autotest_runs: if autotest_run.status not in status_bins: status_bins[autotest_run.status] = [] status_bins[autotest_run.status].append(autotest_run) status_strings = [] for key, val in status_bins.items(): status_strings.append('%s: %s' % (key, GetNamesAndIterations(val))) return 'Thread Status:\n%s' % '\n'.join(status_strings) def GetProgressBar(num_done, num_total): ret = 'Done: %s%%' % int(100.0 * num_done / num_total) bar_length = 50 done_char = '>' undone_char = ' ' num_done_chars = bar_length * num_done / num_total num_undone_chars = bar_length - num_done_chars ret += ' [%s%s]' % (num_done_chars * done_char, num_undone_chars * undone_char) return ret def GetProgressString(start_time, num_remain, num_total): current_time = time.time() elapsed_time = current_time - start_time try: eta_seconds = float(num_remain) * elapsed_time / (num_total - num_remain) eta_seconds = int(eta_seconds) eta = datetime.timedelta(seconds=eta_seconds) except ZeroDivisionError: eta = 'Unknown' strings = [] strings.append('Current time: %s Elapsed: %s ETA: %s' % (datetime.datetime.now(), datetime.timedelta(seconds=int(elapsed_time)), eta)) strings.append(GetProgressBar(num_total - num_remain, num_total)) return '\n'.join(strings) def RunAutotestRunsInParallel(autotest_runs): start_time = time.time() active_threads = [] for autotest_run in autotest_runs: # Set threads to daemon so program exits when ctrl-c is pressed. autotest_run.daemon = True autotest_run.start() active_threads.append(autotest_run) print_interval = 30 last_printed_time = time.time() while active_threads: try: active_threads = [t for t in active_threads if t is not None and t.isAlive()] for t in active_threads: t.join(1) if time.time() - last_printed_time > print_interval: border = '==============================' logger.GetLogger().LogOutput(border) logger.GetLogger().LogOutput(GetProgressString(start_time, len( [t for t in autotest_runs if t.status not in ['SUCCEEDED', 'FAILED'] ]), len(autotest_runs))) logger.GetLogger().LogOutput(GetStatusString(autotest_runs)) logger.GetLogger().LogOutput('%s\n' % MachineManagerSingleton().AsString()) logger.GetLogger().LogOutput(border) last_printed_time = time.time() except KeyboardInterrupt: print 'C-c received... cleaning up threads.' for t in active_threads: t.terminate = True return 1 return 0 def RunAutotestRunsSerially(autotest_runs): for autotest_run in autotest_runs: retval = autotest_run.Run() if retval: return retval def ProduceTables(autotest_runs, full_table, fit_string): l = logger.GetLogger() ags_dict = {} for autotest_run in autotest_runs: name = autotest_run.full_name if name not in ags_dict: ags_dict[name] = AutotestGatherer() ags_dict[name].runs.append(autotest_run) output = '' for b, ag in ags_dict.items(): output += 'Benchmark: %s\n' % b output += ag.GetFormattedMainTable(percents_only=not full_table, fit_string=fit_string) output += '\n' summary = '' for b, ag in ags_dict.items(): summary += 'Benchmark Summary Table: %s\n' % b summary += ag.GetFormattedSummaryTable(percents_only=not full_table, fit_string=fit_string) summary += '\n' output += summary output += ('Number of re-images performed: %s' % MachineManagerSingleton().num_reimages) l.LogOutput(output) if autotest_runs: board = autotest_runs[0].board else: board = '' subject = '%s: %s' % (board, ', '.join(ags_dict.keys())) if any(autotest_run.run_completed for autotest_run in autotest_runs): SendEmailToUser(subject, summary) def SendEmailToUser(subject, text_to_send): # Email summary to the current user. msg = MIMEText(text_to_send) # me == the sender's email address # you == the recipient's email address me = os.path.basename(__file__) you = os.getlogin() msg['Subject'] = '[%s] %s' % (os.path.basename(__file__), subject) msg['From'] = me msg['To'] = you # Send the message via our own SMTP server, but don't include the # envelope header. s = smtplib.SMTP('localhost') s.sendmail(me, [you], msg.as_string()) s.quit() def Main(argv): """The main function.""" # Common initializations ### command_executer.InitCommandExecuter(True) l = logger.GetLogger() parser = optparse.OptionParser() parser.add_option('-t', '--tests', dest='tests', help=('Tests to compare.' 'Optionally specify per-test iterations by:' ',:')) parser.add_option('-c', '--chromeos_root', dest='chromeos_root', help='A *single* chromeos_root where scripts can be found.') parser.add_option('-n', '--iterations', dest='iterations', help='Iterations to run per benchmark.', default=1) parser.add_option('-r', '--remote', dest='remote', help='The remote chromeos machine.') parser.add_option('-b', '--board', dest='board', help='The remote board.') parser.add_option('--full_table', dest='full_table', help='Print full tables.', action='store_true', default=True) parser.add_option('--exact_remote', dest='exact_remote', help='Run tests on the exact remote.', action='store_true', default=False) parser.add_option('--fit_string', dest='fit_string', help='Fit strings to fixed sizes.', action='store_true', default=False) parser.add_option('--rerun', dest='rerun', help='Re-run regardless of cache hit.', action='store_true', default=False) parser.add_option('--rerun_if_failed', dest='rerun_if_failed', help='Re-run if previous run was a failure.', action='store_true', default=False) parser.add_option('--no_lock', dest='no_lock', help='Do not lock the machine before running the tests.', action='store_true', default=False) l.LogOutput(' '.join(argv)) [options, args] = parser.parse_args(argv) if options.remote is None: l.LogError('No remote machine specified.') parser.print_help() return 1 if not options.board: l.LogError('No board specified.') parser.print_help() return 1 remote = options.remote tests = options.tests board = options.board exact_remote = options.exact_remote iterations = int(options.iterations) autotests = CreateAutotestListFromString(tests, iterations) main_chromeos_root = options.chromeos_root images = args[1:] fit_string = options.fit_string full_table = options.full_table rerun = options.rerun rerun_if_failed = options.rerun_if_failed MachineManagerSingleton().no_lock = options.no_lock # Now try creating all the Autotests autotest_runs = CreateAutotestRuns(images, autotests, remote, board, exact_remote, rerun, rerun_if_failed, main_chromeos_root) try: # At this point we have all the autotest runs. for machine in remote.split(','): MachineManagerSingleton().AddMachine(machine) retval = RunAutotestRunsInParallel(autotest_runs) if retval: return retval # Now print tables ProduceTables(autotest_runs, full_table, fit_string) finally: # not sure why this isn't called at the end normally... MachineManagerSingleton().__del__() return 0 if __name__ == '__main__': sys.exit(Main(sys.argv))