#!/usr/bin/python
# Copyright (C) 2016 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
"""Tool to analyze logcat and dmesg logs.
bootanalyze read logcat and dmesg loga and determines key points for boot.
"""
import argparse
import collections
import datetime
import math
import operator
import os
import re
import select
import subprocess
import sys
import time
import threading
import yaml
from datetime import datetime, date
TIME_DMESG = "\[\s*(\d+\.\d+)\]"
TIME_LOGCAT = "[0-9]+\.?[0-9]*"
KERNEL_TIME_KEY = "kernel"
BOOT_ANIM_END_TIME_KEY = "BootAnimEnd"
KERNEL_BOOT_COMPLETE = "BootComplete_kernel"
LOGCAT_BOOT_COMPLETE = "BootComplete"
LAUNCHER_START = "LauncherStart"
BOOT_TIME_TOO_BIG = 200.0
MAX_RETRIES = 5
DEBUG = False
ADB_CMD = "adb"
TIMING_THRESHOLD = 5.0
BOOT_PROP = "\[ro\.boottime\.([^\]]+)\]:\s+\[(\d+)\]"
BOOTLOADER_TIME_PROP = "\[ro\.boot\.boottime\]:\s+\[([^\]]+)\]"
max_wait_time = BOOT_TIME_TOO_BIG
def main():
global ADB_CMD
args = init_arguments()
if args.iterate < 1:
raise Exception('Number of iteration must be >=1');
if args.iterate > 1 and not args.reboot:
print "Forcing reboot flag"
args.reboot = True
if args.serial:
ADB_CMD = "%s %s" % ("adb -s", args.serial)
error_time = BOOT_TIME_TOO_BIG * 10
if args.errortime:
error_time = float(args.errortime)
if args.maxwaittime:
global max_wait_time
max_wait_time = float(args.maxwaittime)
components_to_monitor = {}
if args.componentmonitor:
items = args.componentmonitor.split(",")
for item in items:
kv = item.split("=")
key = kv[0]
value = float(kv[1])
components_to_monitor[key] = value
cfg = yaml.load(args.config)
if args.stressfs:
if run_adb_cmd('install -r -g ' + args.stressfs) != 0:
raise Exception('StressFS APK not installed');
if args.iterate > 1 and args.bootchart:
run_adb_shell_cmd_as_root('touch /data/bootchart/enabled')
search_events_pattern = {key: re.compile(pattern)
for key, pattern in cfg['events'].iteritems()}
timing_events_pattern = {key: re.compile(pattern)
for key, pattern in cfg['timings'].iteritems()}
shutdown_events_pattern = {key: re.compile(pattern)
for key, pattern in cfg['shutdown_events'].iteritems()}
data_points = {}
kernel_timing_points = collections.OrderedDict()
logcat_timing_points = collections.OrderedDict()
boottime_points = collections.OrderedDict()
boot_chart_file_name_prefix = "bootchart-" + datetime.now().strftime("%Y-%m-%d-%H-%M-%S")
systrace_file_name_prefix = "systrace-" + datetime.now().strftime("%Y-%m-%d-%H-%M-%S")
shutdown_event_all = collections.OrderedDict()
shutdown_timing_event_all = collections.OrderedDict()
for it in range(0, args.iterate):
if args.iterate > 1:
print "Run: {0}".format(it)
attempt = 1
processing_data = None
timings = None
boottime_events = None
while attempt <= MAX_RETRIES and processing_data is None:
attempt += 1
processing_data, kernel_timings, logcat_timings, boottime_events, shutdown_events,\
shutdown_timing_events = iterate(\
args, search_events_pattern, timing_events_pattern, shutdown_events_pattern, cfg,\
error_time, components_to_monitor)
if shutdown_events:
for k, v in shutdown_events.iteritems():
events = shutdown_event_all.get(k)
if not events:
events = []
shutdown_event_all[k] = events
events.append(v)
if shutdown_timing_events:
for k, v in shutdown_timing_events.iteritems():
events = shutdown_timing_event_all.get(k)
if not events:
events = []
shutdown_timing_event_all[k] = events
events.append(v)
if not processing_data or not boottime_events:
# Processing error
print "Failed to collect valid samples for run {0}".format(it)
continue
if args.bootchart:
grab_bootchart(boot_chart_file_name_prefix + "_run_" + str(it))
if args.systrace:
grab_systrace(systrace_file_name_prefix + "_run_" + str(it))
for k, v in processing_data.iteritems():
if k not in data_points:
data_points[k] = []
data_points[k].append(v['value'])
if kernel_timings is not None:
for k, v in kernel_timings.iteritems():
if k not in kernel_timing_points:
kernel_timing_points[k] = []
kernel_timing_points[k].append(v)
if logcat_timings is not None:
for k, v in logcat_timings.iteritems():
if k not in logcat_timing_points:
logcat_timing_points[k] = []
logcat_timing_points[k].append(v)
for k, v in boottime_events.iteritems():
if not k in boottime_points:
boottime_points[k] = []
boottime_points[k].append(v)
if args.stressfs:
run_adb_cmd('uninstall com.android.car.test.stressfs')
run_adb_shell_cmd('"rm -rf /storage/emulated/0/stressfs_data*"')
if args.iterate > 1:
print "-----------------"
print "\nshutdown events after {0} runs".format(args.iterate)
print '{0:30}: {1:<7} {2:<7} {3}'.format("Event", "Mean", "stddev", "#runs")
for item in shutdown_event_all.items():
num_runs = len(item[1])
print '{0:30}: {1:<7.5} {2:<7.5} {3} {4}'.format(
item[0], sum(item[1])/num_runs, stddev(item[1]),\
"*time taken" if item[0].startswith("init.") else "",\
num_runs if num_runs != args.iterate else "")
print "\nshutdown timing events after {0} runs".format(args.iterate)
print '{0:30}: {1:<7} {2:<7} {3}'.format("Event", "Mean", "stddev", "#runs")
for item in shutdown_timing_event_all.items():
num_runs = len(item[1])
print '{0:30}: {1:<7.5} {2:<7.5} {3} {4}'.format(
item[0], sum(item[1])/num_runs, stddev(item[1]),\
"*time taken" if item[0].startswith("init.") else "",\
num_runs if num_runs != args.iterate else "")
print "-----------------"
print "ro.boottime.* after {0} runs".format(args.iterate)
print '{0:30}: {1:<7} {2:<7} {3}'.format("Event", "Mean", "stddev", "#runs")
for item in boottime_points.items():
num_runs = len(item[1])
print '{0:30}: {1:<7.5} {2:<7.5} {3} {4}'.format(
item[0], sum(item[1])/num_runs, stddev(item[1]),\
"*time taken" if item[0].startswith("init.") else "",\
num_runs if num_runs != args.iterate else "")
if args.timings:
dump_timings_points_summary("Kernel", kernel_timing_points, args)
dump_timings_points_summary("Logcat", logcat_timing_points, args)
print "-----------------"
print "Avg values after {0} runs".format(args.iterate)
print '{0:30}: {1:<7} {2:<7} {3}'.format("Event", "Mean", "stddev", "#runs")
average_with_stddev = []
for item in data_points.items():
average_with_stddev.append((item[0], sum(item[1])/len(item[1]), stddev(item[1]),\
len(item[1])))
for item in sorted(average_with_stddev, key=lambda entry: entry[1]):
print '{0:30}: {1:<7.5} {2:<7.5} {3}'.format(
item[0], item[1], item[2], item[3] if item[3] != args.iterate else "")
run_adb_shell_cmd_as_root('rm /data/bootchart/enabled')
def dump_timings_points_summary(msg_header, timing_points, args):
averaged_timing_points = []
for item in timing_points.items():
average = sum(item[1])/len(item[1])
std_dev = stddev(item[1])
averaged_timing_points.append((item[0], average, std_dev, len(item[1])))
print "-----------------"
print msg_header + " timing in order, Avg time values after {0} runs".format(args.iterate)
print '{0:30}: {1:<7} {2:<7} {3}'.format("Event", "Mean", "stddev", "#runs")
for item in averaged_timing_points:
print '{0:30}: {1:<7.5} {2:<7.5} {3}'.format(
item[0], item[1], item[2], item[3] if item[3] != args.iterate else "")
print "-----------------"
print msg_header + " timing top items, Avg time values after {0} runs".format(args.iterate)
print '{0:30}: {1:<7} {2:<7} {3}'.format("Event", "Mean", "stddev", "#runs")
for item in sorted(averaged_timing_points, key=lambda entry: entry[1], reverse=True):
if item[1] < TIMING_THRESHOLD:
break
print '{0:30}: {1:<7.5} {2:<7.5} {3}'.format(
item[0], item[1], item[2], item[3] if item[3] != args.iterate else "")
def capture_bugreport(bugreport_hint, boot_complete_time):
now = datetime.now()
bugreport_file = ("bugreport-%s-" + bugreport_hint + "-%s.zip") \
% (now.strftime("%Y-%m-%d-%H-%M-%S"), str(boot_complete_time))
print "Boot up time too big, will capture bugreport %s" % (bugreport_file)
os.system(ADB_CMD + " bugreport " + bugreport_file)
def generate_timing_points(timing_events, timings):
timing_points = collections.OrderedDict()
for k, l in timing_events.iteritems():
for v in l:
name, time_v = extract_timing(v, timings)
if name and time_v:
if v.find("SystemServerTimingAsync") > 0:
name = "(" + name + ")"
new_name = name
name_index = 0
while timing_points.get(new_name): # if the name is already taken, append #digit
name_index += 1
new_name = name + "#" + str(name_index)
name = new_name
if k.endswith("_secs"):
timing_points[name] = time_v * 1000.0
else:
timing_points[name] = time_v
return timing_points
def dump_timing_points(msg_header, timing_points):
print msg_header + " event timing in time order, key: time"
for item in timing_points.items():
print '{0:30}: {1:<7.5}'.format(item[0], item[1])
print "-----------------"
print msg_header + " event timing top items"
for item in sorted(timing_points.items(), key=operator.itemgetter(1), reverse = True):
if item[1] < TIMING_THRESHOLD:
break
print '{0:30}: {1:<7.5}'.format(
item[0], item[1])
print "-----------------"
def handle_reboot_log(capture_log_on_error, shutdown_events_pattern, components_to_monitor):
shutdown_events, shutdown_timing_events = collect_logcat_for_shutdown(capture_log_on_error,\
shutdown_events_pattern, components_to_monitor)
print "\nshutdown events: time"
for item in shutdown_events.items():
print '{0:30}: {1:<7.5}'.format(item[0], item[1])
print "\nshutdown timing events: time"
for item in shutdown_timing_events.items():
print '{0:30}: {1:<7.5}'.format(item[0], item[1])
return shutdown_events, shutdown_timing_events
def iterate(args, search_events_pattern, timings_pattern, shutdown_events_pattern, cfg, error_time,\
components_to_monitor):
shutdown_events = None
shutdown_timing_events = None
if args.reboot:
# sleep to make sure that logcat reader is reading before adb is gone by reboot. ugly but make
# impl simple.
t = threading.Thread(target = lambda : (time.sleep(2), reboot(args.serial, args.stressfs != '',\
args.permissive, args.adb_reboot)))
t.start()
shutdown_events, shutdown_timing_events = handle_reboot_log(True, shutdown_events_pattern,\
components_to_monitor)
t.join()
dmesg_events, kernel_timing_events = collect_events(search_events_pattern, ADB_CMD +\
' shell su root dmesg -w', timings_pattern,\
[ KERNEL_BOOT_COMPLETE ], True)
logcat_stop_events = [ LOGCAT_BOOT_COMPLETE, KERNEL_BOOT_COMPLETE, LAUNCHER_START]
if args.fs_check:
logcat_stop_events.append("FsStat")
logcat_events, logcat_timing_events = collect_events(
search_events_pattern, ADB_CMD + ' logcat -b all -v epoch', timings_pattern,\
logcat_stop_events, False)
logcat_event_time = extract_time(
logcat_events, TIME_LOGCAT, float);
logcat_original_time = extract_time(
logcat_events, TIME_LOGCAT, str);
dmesg_event_time = extract_time(
dmesg_events, TIME_DMESG, float);
boottime_events = fetch_boottime_property()
events = {}
diff_time = 0
max_time = 0
events_to_correct = []
replaced_from_dmesg = set()
time_correction_delta = 0
time_correction_time = 0
if ('time_correction_key' in cfg
and cfg['time_correction_key'] in logcat_events):
match = search_events[cfg['time_correction_key']].search(
logcat_events[cfg['time_correction_key']])
if match and logcat_event_time[cfg['time_correction_key']]:
time_correction_delta = float(match.group(1))
time_correction_time = logcat_event_time[cfg['time_correction_key']]
debug("time_correction_delta = {0}, time_correction_time = {1}".format(
time_correction_delta, time_correction_time))
for k, v in logcat_event_time.iteritems():
if v <= time_correction_time:
logcat_event_time[k] += time_correction_delta
v = v + time_correction_delta
debug("correcting event to event[{0}, {1}]".format(k, v))
if not logcat_event_time.get(KERNEL_TIME_KEY):
print "kernel time not captured in logcat, cannot get time diff"
return None, None, None, None
diffs = []
diffs.append((logcat_event_time[KERNEL_TIME_KEY], logcat_event_time[KERNEL_TIME_KEY]))
if logcat_event_time.get(BOOT_ANIM_END_TIME_KEY) and dmesg_event_time.get(BOOT_ANIM_END_TIME_KEY):
diffs.append((logcat_event_time[BOOT_ANIM_END_TIME_KEY],\
logcat_event_time[BOOT_ANIM_END_TIME_KEY] -\
dmesg_event_time[BOOT_ANIM_END_TIME_KEY]))
if not dmesg_event_time.get(KERNEL_BOOT_COMPLETE):
print "BootAnimEnd time or BootComplete-kernel not captured in both log" +\
", cannot get time diff"
return None, None, None, None
diffs.append((logcat_event_time[KERNEL_BOOT_COMPLETE],\
logcat_event_time[KERNEL_BOOT_COMPLETE] - dmesg_event_time[KERNEL_BOOT_COMPLETE]))
for k, v in logcat_event_time.iteritems():
debug("event[{0}, {1}]".format(k, v))
events[k] = v
if k in dmesg_event_time:
debug("{0} is in dmesg".format(k))
events[k] = dmesg_event_time[k]
replaced_from_dmesg.add(k)
else:
events_to_correct.append(k)
diff_prev = diffs[0]
for k in events_to_correct:
diff = diffs[0]
while diff[0] < events[k] and len(diffs) > 1:
diffs.pop(0)
diff_prev = diff
diff = diffs[0]
events[k] = events[k] - diff[1]
if events[k] < 0.0:
if events[k] < -0.1: # maybe previous one is better fit
events[k] = events[k] + diff[1] - diff_prev[1]
else:
events[k] = 0.0
data_points = collections.OrderedDict()
print "-----------------"
print "ro.boottime.*: time"
for item in boottime_events.items():
print '{0:30}: {1:<7.5} {2}'.format(item[0], item[1],\
"*time taken" if item[0].startswith("init.") else "")
print "-----------------"
if args.timings:
kernel_timing_points = generate_timing_points(kernel_timing_events, timings_pattern)
logcat_timing_points = generate_timing_points(logcat_timing_events, timings_pattern)
dump_timing_points("Kernel", kernel_timing_points)
dump_timing_points("Logcat", logcat_timing_points)
for item in sorted(events.items(), key=operator.itemgetter(1)):
data_points[item[0]] = {
'value': item[1],
'from_dmesg': item[0] in replaced_from_dmesg,
'logcat_value': logcat_original_time[item[0]]
}
# add times with bootloader
if events.get("BootComplete") and boottime_events.get("bootloader"):
total = events["BootComplete"] + boottime_events["bootloader"]
data_points["*BootComplete+Bootloader"] = {
'value': total,
'from_dmesg': False,
'logcat_value': 0.0
}
if events.get("LauncherStart") and boottime_events.get("bootloader"):
total = events["LauncherStart"] + boottime_events["bootloader"]
data_points["*LauncherStart+Bootloader"] = {
'value': total,
'from_dmesg': False,
'logcat_value': 0.0
}
for k, v in data_points.iteritems():
print '{0:30}: {1:<7.5} {2:1} ({3})'.format(
k, v['value'], '*' if v['from_dmesg'] else '', v['logcat_value'])
print '\n* - event time was obtained from dmesg log\n'
if events[LOGCAT_BOOT_COMPLETE] > error_time and not args.ignore:
capture_bugreport("bootuptoolong", events[LOGCAT_BOOT_COMPLETE])
for k, v in components_to_monitor.iteritems():
logcat_value_measured = logcat_timing_points.get(k)
kernel_value_measured = kernel_timing_points.get(k)
data_from_data_points = data_points.get(k)
if logcat_value_measured and logcat_value_measured > v:
capture_bugreport(k + "-" + str(logcat_value_measured), events[LOGCAT_BOOT_COMPLETE])
break
elif kernel_value_measured and kernel_value_measured > v:
capture_bugreport(k + "-" + str(kernel_value_measured), events[LOGCAT_BOOT_COMPLETE])
break
elif data_from_data_points and data_from_data_points['value'] * 1000.0 > v:
capture_bugreport(k + "-" + str(data_from_data_points['value']), events[LOGCAT_BOOT_COMPLETE])
break
if args.fs_check:
fs_stat = None
if logcat_events.get("FsStat"):
fs_stat_pattern = cfg["events"]["FsStat"]
m = re.search(fs_stat_pattern, logcat_events.get("FsStat"))
if m:
fs_stat = m.group(1)
print 'fs_stat:', fs_stat
if fs_stat:
fs_stat_val = int(fs_stat, 0)
if (fs_stat_val & ~0x17) != 0:
capture_bugreport("fs_stat_" + fs_stat, events[LOGCAT_BOOT_COMPLETE])
return data_points, kernel_timing_points, logcat_timing_points, boottime_events, shutdown_events,\
shutdown_timing_events
def debug(string):
if DEBUG:
print string
def extract_timing(s, patterns):
for k, p in patterns.iteritems():
m = p.search(s)
if m:
g_dict = m.groupdict()
return g_dict['name'], float(g_dict['time'])
return None, None
def init_arguments():
parser = argparse.ArgumentParser(description='Measures boot time.')
parser.add_argument('-r', '--reboot', dest='reboot',
action='store_true',
help='reboot device for measurement', )
parser.add_argument('-c', '--config', dest='config',
default='config.yaml', type=argparse.FileType('r'),
help='config file for the tool', )
parser.add_argument('-s', '--stressfs', dest='stressfs',
default='', type=str,
help='APK file for the stressfs tool used to write to the data partition ' +\
'during shutdown')
parser.add_argument('-n', '--iterate', dest='iterate', type=int, default=1,
help='number of time to repeat the measurement', )
parser.add_argument('-g', '--ignore', dest='ignore', action='store_true',
help='ignore too big values error', )
parser.add_argument('-t', '--timings', dest='timings', action='store_true',
help='print individual component times', default=True, )
parser.add_argument('-p', '--serial', dest='serial', action='store',
help='android device serial number')
parser.add_argument('-e', '--errortime', dest='errortime', action='store',
help='handle bootup time bigger than this as error')
parser.add_argument('-w', '--maxwaittime', dest='maxwaittime', action='store',
help='wait for up to this time to collect logs. Retry after this time.' +\
' Default is 200 sec.')
parser.add_argument('-f', '--fs_check', dest='fs_check',
action='store_true',
help='check fs_stat after reboot', )
parser.add_argument('-a', '--adb_reboot', dest='adb_reboot',
action='store_true',
help='reboot with adb reboot', )
parser.add_argument('-v', '--permissive', dest='permissive',
action='store_true',
help='set selinux into permissive before reboot', )
parser.add_argument('-m', '--componentmonitor', dest='componentmonitor', action='store',
help='capture bugreport if specified timing component is taking more than ' +\
'certain time. Unlike errortime, the result will not be rejected in' +\
'averaging. Format is key1=time1,key2=time2...')
parser.add_argument('-b', '--bootchart', dest='bootchart',
action='store_true',
help='collect bootchart from the device.', )
parser.add_argument('-y', '--systrace', dest='systrace',
action='store_true',
help='collect systrace from the device. kernel trace should be already enabled', )
return parser.parse_args()
def handle_zygote_event(zygote_pids, events, event, line):
words = line.split()
if len(words) > 1:
pid = int(words[1])
if len(zygote_pids) == 2:
if pid == zygote_pids[1]: # secondary
event = event + "-secondary"
elif len(zygote_pids) == 1:
if zygote_pids[0] != pid: # new pid, need to decide if old ones were secondary
primary_pid = min(pid, zygote_pids[0])
secondary_pid = max(pid, zygote_pids[0])
zygote_pids.pop()
zygote_pids.append(primary_pid)
zygote_pids.append(secondary_pid)
if pid == primary_pid: # old one was secondary:
move_to_secondary = []
for k, l in events.iteritems():
if k.startswith("zygote"):
move_to_secondary.append((k, l))
for item in move_to_secondary:
del events[item[0]]
if item[0].endswith("-secondary"):
print "Secondary already exists for event %s while found new pid %d, primary %d "\
% (item[0], secondary_pid, primary_pid)
else:
events[item[0] + "-secondary"] = item[1]
else:
event = event + "-secondary"
else:
zygote_pids.append(pid)
events[event] = line
def update_name_if_already_exist(events, name):
existing_event = events.get(name)
i = 0
new_name = name
while existing_event:
i += 1
new_name = name + "_" + str(i)
existing_event = events.get(new_name)
return new_name
def collect_logcat_for_shutdown(capture_log_on_error, shutdown_events_pattern,\
log_capture_conditions):
events = collections.OrderedDict()
# shutdown does not have timing_events but calculated from checking Xyz - XyzDone / XyzTimeout
timing_events = collections.OrderedDict()
process = subprocess.Popen(ADB_CMD + ' logcat -b all -v epoch', shell=True,
stdout=subprocess.PIPE);
lines = []
capture_log = False
shutdown_start_time = 0
while (True):
line = process.stdout.readline().lstrip().rstrip()
if not line:
break
lines.append(line)
event = get_boot_event(line, shutdown_events_pattern);
if not event:
continue
time = extract_a_time(line, TIME_LOGCAT, float)
if not time:
print "cannot get time from: " + line
continue
if shutdown_start_time == 0:
shutdown_start_time = time
time = time - shutdown_start_time
events[event] = time
time_limit1 = log_capture_conditions.get(event)
if time_limit1 and time_limit1 <= time:
capture_log = True
pair_event = None
if event.endswith('Done'):
pair_event = event[:-4]
elif event.endswith('Timeout'):
pair_event = event[:-7]
if capture_log_on_error:
capture_log = True
if not pair_event:
continue
start_time = events.get(pair_event)
if not start_time:
print "No start event for " + event
continue
time_spent = time - start_time
timing_event_name = pair_event + "Duration"
timing_events[timing_event_name] = time_spent
time_limit2 = log_capture_conditions.get(timing_event_name)
if time_limit2 and time_limit2 <= time_spent:
capture_log = True
if capture_log:
now = datetime.now()
log_file = ("shutdownlog-error-%s.txt") % (now.strftime("%Y-%m-%d-%H-%M-%S"))
print "Shutdown error, capture log to %s" % (log_file)
with open(log_file, 'w') as f:
f.write('\n'.join(lines))
return events, timing_events
def collect_events(search_events, command, timings, stop_events, disable_timing_after_zygote):
events = collections.OrderedDict()
timing_events = {}
process = subprocess.Popen(command, shell=True,
stdout=subprocess.PIPE);
data_available = stop_events is None
zygote_pids = []
start_time = time.time()
zygote_found = False
line = None
read_poll = select.poll()
read_poll.register(process.stdout, select.POLLIN)
while True:
time_left = start_time + max_wait_time - time.time()
if time_left <= 0:
print "timeout waiting for event, continue", time_left
break
read_r = read_poll.poll(time_left * 1000.0)
if len(read_r) > 0 and read_r[0][1] == select.POLLIN:
line = process.stdout.readline()
else:
print "poll timeout waiting for event, continue", time_left
break
if not data_available:
print "Collecting data samples from '%s'. Please wait...\n" % command
data_available = True
event = get_boot_event(line, search_events);
if event:
debug("event[{0}] captured: {1}".format(event, line))
if event == "starting_zygote":
events[event] = line
zygote_found = True
elif event.startswith("zygote"):
handle_zygote_event(zygote_pids, events, event, line)
else:
new_event = update_name_if_already_exist(events, event)
events[new_event] = line
if event in stop_events:
stop_events.remove(event)
print "remaining stop_events:", stop_events
if len(stop_events) == 0:
break;
timing_event = get_boot_event(line, timings);
if timing_event and (not disable_timing_after_zygote or not zygote_found):
if timing_event not in timing_events:
timing_events[timing_event] = []
timing_events[timing_event].append(line)
debug("timing_event[{0}] captured: {1}".format(timing_event, line))
process.terminate()
return events, timing_events
def fetch_boottime_property():
cmd = ADB_CMD + ' shell su root getprop'
events = {}
process = subprocess.Popen(cmd, shell=True,
stdout=subprocess.PIPE);
out = process.stdout
pattern = re.compile(BOOT_PROP)
pattern_bootloader = re.compile(BOOTLOADER_TIME_PROP)
bootloader_time = 0.0
for line in out:
match = pattern.match(line)
if match:
if match.group(1).startswith("init."):
events[match.group(1)] = float(match.group(2)) / 1000.0 #ms to s
else:
events[match.group(1)] = float(match.group(2)) / 1000000000.0 #ns to s
match = pattern_bootloader.match(line)
if match:
items = match.group(1).split(",")
for item in items:
entry_pair = item.split(":")
entry_name = entry_pair[0]
time_spent = float(entry_pair[1]) / 1000 #ms to s
if entry_name != "SW":
bootloader_time = bootloader_time + time_spent
ordered_event = collections.OrderedDict()
if bootloader_time != 0.0:
ordered_event["bootloader"] = bootloader_time;
for item in sorted(events.items(), key=operator.itemgetter(1)):
ordered_event[item[0]] = item[1]
return ordered_event
def get_boot_event(line, events):
for event_key, event_pattern in events.iteritems():
if event_pattern.search(line):
return event_key
return None
def extract_a_time(line, pattern, date_transform_function):
found = re.findall(pattern, line)
if len(found) > 0:
return date_transform_function(found[0])
else:
return None
def extract_time(events, pattern, date_transform_function):
result = collections.OrderedDict()
for event, data in events.iteritems():
time = extract_a_time(data, pattern, date_transform_function)
if time:
result[event] = time
else:
print "Failed to find time for event: ", event, data
return result
def do_reboot(serial, use_adb_reboot):
original_devices = subprocess.check_output("adb devices", shell=True)
if use_adb_reboot:
print 'Rebooting the device using adb reboot'
run_adb_cmd('reboot')
else:
print 'Rebooting the device using svc power reboot'
run_adb_shell_cmd_as_root('svc power reboot')
# Wait for the device to go away
retry = 0
while retry < 20:
current_devices = subprocess.check_output("adb devices", shell=True)
if original_devices != current_devices:
if not serial or (serial and current_devices.find(serial) < 0):
return True
time.sleep(1)
retry += 1
return False
def reboot(serial, use_stressfs, permissive, use_adb_reboot):
if use_stressfs:
print 'Starting write to data partition'
run_adb_shell_cmd('am start' +\
' -n com.android.car.test.stressfs/.WritingActivity' +\
' -a com.android.car.test.stressfs.START')
# Give this app some time to start.
time.sleep(1)
if permissive:
run_adb_shell_cmd_as_root('setenforce 0')
retry = 0
while retry < 5:
if do_reboot(serial, use_adb_reboot):
break
retry += 1
print 'Waiting the device'
run_adb_cmd('wait-for-device')
def run_adb_cmd(cmd):
return subprocess.call(ADB_CMD + ' ' + cmd, shell=True)
def run_adb_shell_cmd(cmd):
return subprocess.call(ADB_CMD + ' shell ' + cmd, shell=True)
def run_adb_shell_cmd_as_root(cmd):
return subprocess.call(ADB_CMD + ' shell su root ' + cmd, shell=True)
def logcat_time_func(offset_year):
def f(date_str):
ndate = datetime.datetime.strptime(str(offset_year) + '-' +
date_str, '%Y-%m-%d %H:%M:%S.%f')
return datetime_to_unix_time(ndate)
return f
def datetime_to_unix_time(ndate):
return time.mktime(ndate.timetuple()) + ndate.microsecond/1000000.0
def stddev(data):
items_count = len(data)
avg = sum(data) / items_count
sq_diffs_sum = sum([(v - avg) ** 2 for v in data])
variance = sq_diffs_sum / items_count
return math.sqrt(variance)
def grab_bootchart(boot_chart_file_name):
subprocess.call("./system/core/init/grab-bootchart.sh", shell=True)
print "Saving boot chart as " + boot_chart_file_name + ".tgz"
subprocess.call('cp /tmp/android-bootchart/bootchart.tgz ./' + boot_chart_file_name + '.tgz',\
shell=True)
subprocess.call('cp ./bootchart.png ./' + boot_chart_file_name + '.png', shell=True)
def grab_systrace(systrace_file_name):
trace_file = systrace_file_name + "_trace.txt"
with open(trace_file, 'w') as f:
f.write("TRACE:\n")
run_adb_shell_cmd_as_root("cat /d/tracing/trace >> " + trace_file)
html_file = systrace_file_name + ".html"
subprocess.call("./external/chromium-trace/systrace.py --from-file=" + trace_file + " -o " +\
html_file, shell=True)
if __name__ == '__main__':
main()