# Copyright (c) 2012 The Chromium OS Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. import hashlib, logging, multiprocessing, os, re, time from autotest_lib.client.bin import test, utils from autotest_lib.client.common_lib import error from autotest_lib.client.cros import sys_power SUSPEND_BURN_SECONDS = 10 RESUME_BURN_SECONDS = 5 MIN_CPU_USAGE = .95 PROC_STAT_CPU_FIELDS = ['user', 'nice', 'system', 'idle', 'iowait', 'irq', 'softirq', 'steal', 'guest', 'guest_nice'] PROC_STAT_CPU_IDLE_FIELDS = ['idle', 'iowait'] SYSFS_CPUQUIET_ENABLE = '/sys/devices/system/cpu/cpuquiet/tegra_cpuquiet/enable' def cpu_stress(): sha512_hash = open('/dev/urandom', 'r').read(64) while True: sha512_hash = hashlib.sha512(sha512_hash).digest() def get_system_times(): proc_stat = utils.read_file('/proc/stat') for line in proc_stat.split('\n'): if line.startswith('cpu '): times = line[4:].strip().split(' ') times = [int(jiffies) for jiffies in times] return dict(zip(PROC_STAT_CPU_FIELDS, times)) def get_avg_cpu_usage(pre_times, post_times): diff_times = {} for field in PROC_STAT_CPU_FIELDS: diff_times[field] = post_times[field] - pre_times[field] idle_time = sum(diff_times[field] for field in PROC_STAT_CPU_IDLE_FIELDS) total_time = sum(diff_times[field] for field in PROC_STAT_CPU_FIELDS) return float(total_time - idle_time) / total_time def sleep_and_measure_cpu(sleep_seconds): pre_times = get_system_times() time.sleep(sleep_seconds) post_times = get_system_times() avg_cpu_usage = get_avg_cpu_usage(pre_times, post_times) logging.info('average CPU utilization, last %ds: %s%%', sleep_seconds, avg_cpu_usage * 100.) return avg_cpu_usage class power_HotCPUSuspend(test.test): """Suspend the system with 100% CPU usage.""" version = 1 def initialize(self): # Store the setting if the system has CPUQuiet feature if os.path.exists(SYSFS_CPUQUIET_ENABLE): self.is_cpuquiet_enabled = utils.read_file(SYSFS_CPUQUIET_ENABLE) utils.write_one_line(SYSFS_CPUQUIET_ENABLE, '0') def run_once(self): # create processs pool with enough workers to spin all CPUs cpus = multiprocessing.cpu_count() logging.info('found %d cpus', cpus) workers = max(16, cpus * 2) pool = multiprocessing.Pool(workers) try: # fill all CPUs with a spinning task logging.info('starting %d workers', workers) results = [pool.apply_async(cpu_stress) for _ in xrange(workers)] # wait for things to settle logging.info('spinning for %d seconds', SUSPEND_BURN_SECONDS) if sleep_and_measure_cpu(SUSPEND_BURN_SECONDS) < MIN_CPU_USAGE: # There should be no idle time accounted while we're spinning. raise error.TestError('unexpected CPU idle time while spinning') # go to suspend sys_power.kernel_suspend(10) # keep spinning after userland resumes logging.info('spinning for %d more seconds', RESUME_BURN_SECONDS) if sleep_and_measure_cpu(RESUME_BURN_SECONDS) < MIN_CPU_USAGE: # There should be no idle time accounted while we're spinning. raise error.TestError('unexpected CPU idle time after resume') # check workers: if computation completed, something is wrong for result in results: if result.ready(): logging.error('worker finished: %s', result.get()) raise error.TestError('worker terminated!') finally: # kill off the workers logging.info('killing %d workers', workers) pool.terminate() def cleanup(self): # Restore the original setting if system has CPUQuiet feature if os.path.exists(SYSFS_CPUQUIET_ENABLE): utils.open_write_close( SYSFS_CPUQUIET_ENABLE, self.is_cpuquiet_enabled)