# Copyright 2013 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. """Runs perf tests. Our buildbot infrastructure requires each slave to run steps serially. This is sub-optimal for android, where these steps can run independently on multiple connected devices. The buildbots will run this script multiple times per cycle: - First: all steps listed in --steps in will be executed in parallel using all connected devices. Step results will be pickled to disk. Each step has a unique name. The result code will be ignored if the step name is listed in --flaky-steps. The buildbot will treat this step as a regular step, and will not process any graph data. - Then, with -print-step STEP_NAME: at this stage, we'll simply print the file with the step results previously saved. The buildbot will then process the graph data accordingly. The JSON steps file contains a dictionary in the format: { "version": int, "steps": { "foo": { "device_affinity": int, "cmd": "script_to_execute foo" }, "bar": { "device_affinity": int, "cmd": "script_to_execute bar" } } } The JSON flaky steps file contains a list with step names which results should be ignored: [ "step_name_foo", "step_name_bar" ] Note that script_to_execute necessarily have to take at least the following option: --device: the serial number to be passed to all adb commands. """ import collections import datetime import json import logging import os import pickle import shutil import sys import tempfile import threading import time from pylib import cmd_helper from pylib import constants from pylib import forwarder from pylib.base import base_test_result from pylib.base import base_test_runner from pylib.device import device_errors def OutputJsonList(json_input, json_output): with file(json_input, 'r') as i: all_steps = json.load(i) step_values = [{'test': k, 'device_affinity': v['device_affinity']} for k, v in all_steps['steps'].iteritems()] with file(json_output, 'w') as o: o.write(json.dumps(step_values)) return 0 def PrintTestOutput(test_name, json_file_name=None): """Helper method to print the output of previously executed test_name. Args: test_name: name of the test that has been previously executed. json_file_name: name of the file to output chartjson data to. Returns: exit code generated by the test step. """ file_name = os.path.join(constants.PERF_OUTPUT_DIR, test_name) if not os.path.exists(file_name): logging.error('File not found %s', file_name) return 1 with file(file_name, 'r') as f: persisted_result = pickle.loads(f.read()) logging.info('*' * 80) logging.info('Output from:') logging.info(persisted_result['cmd']) logging.info('*' * 80) print persisted_result['output'] if json_file_name: with file(json_file_name, 'w') as f: f.write(persisted_result['chartjson']) return persisted_result['exit_code'] def PrintSummary(test_names): logging.info('*' * 80) logging.info('Sharding summary') device_total_time = collections.defaultdict(int) for test_name in test_names: file_name = os.path.join(constants.PERF_OUTPUT_DIR, test_name) if not os.path.exists(file_name): logging.info('%s : No status file found', test_name) continue with file(file_name, 'r') as f: result = pickle.loads(f.read()) logging.info('%s : exit_code=%d in %d secs at %s', result['name'], result['exit_code'], result['total_time'], result['device']) device_total_time[result['device']] += result['total_time'] for device, device_time in device_total_time.iteritems(): logging.info('Total for device %s : %d secs', device, device_time) logging.info('Total steps time: %d secs', sum(device_total_time.values())) class _HeartBeatLogger(object): # How often to print the heartbeat on flush(). _PRINT_INTERVAL = 30.0 def __init__(self): """A file-like class for keeping the buildbot alive.""" self._len = 0 self._tick = time.time() self._stopped = threading.Event() self._timer = threading.Thread(target=self._runner) self._timer.start() def _runner(self): while not self._stopped.is_set(): self.flush() self._stopped.wait(_HeartBeatLogger._PRINT_INTERVAL) def write(self, data): self._len += len(data) def flush(self): now = time.time() if now - self._tick >= _HeartBeatLogger._PRINT_INTERVAL: self._tick = now print '--single-step output length %d' % self._len sys.stdout.flush() def stop(self): self._stopped.set() class TestRunner(base_test_runner.BaseTestRunner): def __init__(self, test_options, device, shard_index, max_shard, tests, flaky_tests): """A TestRunner instance runs a perf test on a single device. Args: test_options: A PerfOptions object. device: Device to run the tests. shard_index: the index of this device. max_shards: the maximum shard index. tests: a dict mapping test_name to command. flaky_tests: a list of flaky test_name. """ super(TestRunner, self).__init__(device, None) self._options = test_options self._shard_index = shard_index self._max_shard = max_shard self._tests = tests self._flaky_tests = flaky_tests self._output_dir = None @staticmethod def _IsBetter(result): if result['actual_exit_code'] == 0: return True pickled = os.path.join(constants.PERF_OUTPUT_DIR, result['name']) if not os.path.exists(pickled): return True with file(pickled, 'r') as f: previous = pickle.loads(f.read()) return result['actual_exit_code'] < previous['actual_exit_code'] @staticmethod def _SaveResult(result): if TestRunner._IsBetter(result): with file(os.path.join(constants.PERF_OUTPUT_DIR, result['name']), 'w') as f: f.write(pickle.dumps(result)) def _CheckDeviceAffinity(self, test_name): """Returns True if test_name has affinity for this shard.""" affinity = (self._tests['steps'][test_name]['device_affinity'] % self._max_shard) if self._shard_index == affinity: return True logging.info('Skipping %s on %s (affinity is %s, device is %s)', test_name, self.device_serial, affinity, self._shard_index) return False def _CleanupOutputDirectory(self): if self._output_dir: shutil.rmtree(self._output_dir, ignore_errors=True) self._output_dir = None def _ReadChartjsonOutput(self): if not self._output_dir: return '' json_output_path = os.path.join(self._output_dir, 'results-chart.json') with open(json_output_path) as f: return f.read() def _LaunchPerfTest(self, test_name): """Runs a perf test. Args: test_name: the name of the test to be executed. Returns: A tuple containing (Output, base_test_result.ResultType) """ if not self._CheckDeviceAffinity(test_name): return '', base_test_result.ResultType.PASS try: logging.warning('Unmapping device ports') forwarder.Forwarder.UnmapAllDevicePorts(self.device) self.device.old_interface.RestartAdbdOnDevice() except Exception as e: logging.error('Exception when tearing down device %s', e) cmd = ('%s --device %s' % (self._tests['steps'][test_name]['cmd'], self.device_serial)) if self._options.collect_chartjson_data: self._output_dir = tempfile.mkdtemp() cmd = cmd + ' --output-dir=%s' % self._output_dir logging.info('%s : %s', test_name, cmd) start_time = datetime.datetime.now() timeout = self._tests['steps'][test_name].get('timeout', 5400) if self._options.no_timeout: timeout = None logging.info('Timeout for %s test: %s', test_name, timeout) full_cmd = cmd if self._options.dry_run: full_cmd = 'echo %s' % cmd logfile = sys.stdout if self._options.single_step: # Just print a heart-beat so that the outer buildbot scripts won't timeout # without response. logfile = _HeartBeatLogger() cwd = os.path.abspath(constants.DIR_SOURCE_ROOT) if full_cmd.startswith('src/'): cwd = os.path.abspath(os.path.join(constants.DIR_SOURCE_ROOT, os.pardir)) try: exit_code, output = cmd_helper.GetCmdStatusAndOutputWithTimeout( full_cmd, timeout, cwd=cwd, shell=True, logfile=logfile) json_output = self._ReadChartjsonOutput() except cmd_helper.TimeoutError as e: exit_code = -1 output = str(e) json_output = '' finally: self._CleanupOutputDirectory() if self._options.single_step: logfile.stop() end_time = datetime.datetime.now() if exit_code is None: exit_code = -1 logging.info('%s : exit_code=%d in %d secs at %s', test_name, exit_code, (end_time - start_time).seconds, self.device_serial) if exit_code == 0: result_type = base_test_result.ResultType.PASS else: result_type = base_test_result.ResultType.FAIL # Since perf tests use device affinity, give the device a chance to # recover if it is offline after a failure. Otherwise, the master sharder # will remove it from the pool and future tests on this device will fail. try: self.device.WaitUntilFullyBooted(timeout=120) except device_errors.CommandTimeoutError as e: logging.error('Device failed to return after %s: %s' % (test_name, e)) actual_exit_code = exit_code if test_name in self._flaky_tests: # The exit_code is used at the second stage when printing the # test output. If the test is flaky, force to "0" to get that step green # whilst still gathering data to the perf dashboards. # The result_type is used by the test_dispatcher to retry the test. exit_code = 0 persisted_result = { 'name': test_name, 'output': output, 'chartjson': json_output, 'exit_code': exit_code, 'actual_exit_code': actual_exit_code, 'result_type': result_type, 'total_time': (end_time - start_time).seconds, 'device': self.device_serial, 'cmd': cmd, } self._SaveResult(persisted_result) return (output, result_type) def RunTest(self, test_name): """Run a perf test on the device. Args: test_name: String to use for logging the test result. Returns: A tuple of (TestRunResults, retry). """ _, result_type = self._LaunchPerfTest(test_name) results = base_test_result.TestRunResults() results.AddResult(base_test_result.BaseTestResult(test_name, result_type)) retry = None if not results.DidRunPass(): retry = test_name return results, retry