#!/usr/bin/env python import logging from time import sleep from conf import LisaLogging LisaLogging.setup() import json import os import devlib from env import TestEnv from android import Screen, Workload, System from trace import Trace import trappy import pandas as pd import sqlite3 import argparse import shutil # THIS IS A TEMPORARY SCRIPT ONLY USED FOR ACTIVE DEBUGGING # THE REAL scripts is in experiments/ # # Description: This experiments tests suspend/resume by turning off # the screen and cutting off USB # REQUIRES DEVICE TO BE CONNECTED THROUGH MONSOON SO THAT PASSTHROUGH # CAN BE TURNED OFF. By default energy will be measured in this test. parser = argparse.ArgumentParser(description='SuspendResume tests') parser.add_argument('--out_prefix', dest='out_prefix', action='store', default='default', help='prefix for out directory') parser.add_argument('--collect', dest='collect', action='store', default='systrace', help='what to collect (default systrace)') parser.add_argument('--duration', dest='duration_s', action='store', default=15, type=int, help='Duration of test (default 15s)') parser.add_argument('--serial', dest='serial', action='store', help='Serial number of device to test') args = parser.parse_args() def experiment(): # Get workload wload = Workload.getInstance(te, 'SuspendResume') outdir=te.res_dir + '_' + args.out_prefix try: shutil.rmtree(outdir) except: print "coulnd't remove " + outdir pass os.makedirs(outdir) # Run SuspendResume wload.run(outdir, duration_s=args.duration_s, collect=args.collect) # Dump platform descriptor te.platform_dump(te.res_dir) te._log.info('RESULTS are in out directory: {}'.format(outdir)) # Setup target configuration my_conf = { # Target platform and board "platform" : 'android', # Useful for reading names of little/big cluster # and energy model info, its device specific and use # only if needed for analysis # "board" : 'pixel', # Device # By default the device connected is detected, but if more than 1 # device, override the following to get a specific device. # "device" : "HT6880200489", # Folder where all the results will be collected "results_dir" : "SuspendResume", # Define devlib modules to load "modules" : [ 'cpufreq', # enable CPUFreq support 'cpuidle', # enable cpuidle support # 'cgroups' # Enable for cgroup support ], "emeter" : { 'instrument': 'monsoon', 'conf': { } }, # Tools required by the experiments "tools" : [ 'taskset', 'busywait' ], "systrace": { 'extra_categories': ['power', 'irq'], 'extra_events': ['sched_migrate_task', 'sched_cpu_hotplug', 'suspend_resume', 'sched_stat_runtime'], # 'event_triggers': { 'sched_waking': 'stacktrace' } } } if args.serial: my_conf["device"] = args.serial # Initialize a test environment using: te = TestEnv(my_conf, wipe=False) target = te.target busywait_cmd = '{}/busywait'.format(target.executables_directory) target.background(busywait_cmd, as_root=True) sleep(1) results = experiment()