init/compare-bootcharts.py - android-core - Git at Google

 #!/usr/bin/env python

 # Copyright (C) 2015 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.

 """Compare two bootcharts and list start/end timestamps on key processes.

 This script extracts two bootchart.tgz files and compares the timestamps
 in proc_ps.log for selected processes. The proc_ps.log file consists of
 repetitive blocks of the following format:

 timestamp1 (jiffies)
 dumps of /proc/<pid>/stat

 timestamp2
 dumps of /proc/<pid>/stat

 The timestamps are 200ms apart, and the creation time of selected processes
 are listed. The termination time of the boot animation process is also listed
 as a coarse indication about when the boot process is complete as perceived by
 the user.
 """

 import sys
 import tarfile

 # The bootchart timestamps are 200ms apart, but the USER_HZ value is not
 # reported in the bootchart, so we use the first two timestamps to calculate
 # the wall clock time of a jiffy.
 jiffy_to_wallclock = {
    '1st_timestamp': -1,
    '2nd_timestamp': -1,
    'jiffy_to_wallclock': -1
 }

 def analyze_process_maps(process_map1, process_map2, jiffy_record):
     # List interesting processes here
     processes_of_interest = [
         '/init',
         '/system/bin/surfaceflinger',
         '/system/bin/bootanimation',
         'zygote64',
         'zygote',
         'system_server'
     ]

     jw = jiffy_record['jiffy_to_wallclock']
     print "process: baseline experiment (delta)"
     print " - Unit is ms (a jiffy is %d ms on the system)" % jw
     print "------------------------------------"
     for p in processes_of_interest:
         # e.g., 32-bit system doesn't have zygote64
         if p in process_map1 and p in process_map2:
             print "%s: %d %d (%+d)" % (
                 p, process_map1[p]['start_time'] * jw,
                 process_map2[p]['start_time'] * jw,
                 (process_map2[p]['start_time'] -
                  process_map1[p]['start_time']) * jw)

     # Print the last tick for the bootanimation process
     print "bootanimation ends at: %d %d (%+d)" % (
         process_map1['/system/bin/bootanimation']['last_tick'] * jw,
         process_map2['/system/bin/bootanimation']['last_tick'] * jw,
         (process_map2['/system/bin/bootanimation']['last_tick'] -
             process_map1['/system/bin/bootanimation']['last_tick']) * jw)

 def parse_proc_file(pathname, process_map, jiffy_record=None):
     # Uncompress bootchart.tgz
     with tarfile.open(pathname + '/bootchart.tgz', 'r:*') as tf:
         try:
             # Read proc_ps.log
             f = tf.extractfile('proc_ps.log')

             # Break proc_ps into chunks based on timestamps
             blocks = f.read().split('\n\n')
             for b in blocks:
                 lines = b.split('\n')
                 if not lines[0]:
                     break

                 # 200ms apart in jiffies
                 timestamp = int(lines[0]);

                 # Figure out the wall clock time of a jiffy
                 if jiffy_record is not None:
                     if jiffy_record['1st_timestamp'] == -1:
                         jiffy_record['1st_timestamp'] = timestamp
                     elif jiffy_record['jiffy_to_wallclock'] == -1:
                         # Not really needed but for debugging purposes
                         jiffy_record['2nd_timestamp'] = timestamp
                         value = 200 / (timestamp -
                                        jiffy_record['1st_timestamp'])
                         # Fix the rounding error
                         # e.g., 201 jiffies in 200ms when USER_HZ is 1000
                         if value == 0:
                             value = 1
                         # e.g., 21 jiffies in 200ms when USER_HZ is 100
                         elif value == 9:
                             value = 10
                         jiffy_record['jiffy_to_wallclock'] = value

                 # Populate the process_map table
                 for line in lines[1:]:
                     segs = line.split(' ')

                     #  0: pid
                     #  1: process name
                     # 17: priority
                     # 18: nice
                     # 21: creation time

                     proc_name = segs[1].strip('()')
                     if proc_name in process_map:
                         process = process_map[proc_name]
                     else:
                         process = {'start_time': int(segs[21])}
                         process_map[proc_name] = process

                     process['last_tick'] = timestamp
         finally:
             f.close()

 def main():
     if len(sys.argv) != 3:
         print "Usage: %s base_bootchart_dir exp_bootchart_dir" % sys.argv[0]
         sys.exit(1)

     process_map1 = {}
     process_map2 = {}
     parse_proc_file(sys.argv[1], process_map1, jiffy_to_wallclock)
     parse_proc_file(sys.argv[2], process_map2)
     analyze_process_maps(process_map1, process_map2, jiffy_to_wallclock)

 if __name__ == "__main__":
     main()
	#!/usr/bin/env python

	# Copyright (C) 2015 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.

	"""Compare two bootcharts and list start/end timestamps on key processes.

	This script extracts two bootchart.tgz files and compares the timestamps
	in proc_ps.log for selected processes. The proc_ps.log file consists of
	repetitive blocks of the following format:

	timestamp1 (jiffies)
	dumps of /proc/<pid>/stat

	timestamp2
	dumps of /proc/<pid>/stat

	The timestamps are 200ms apart, and the creation time of selected processes
	are listed. The termination time of the boot animation process is also listed
	as a coarse indication about when the boot process is complete as perceived by
	the user.
	"""

	import sys
	import tarfile

	# The bootchart timestamps are 200ms apart, but the USER_HZ value is not
	# reported in the bootchart, so we use the first two timestamps to calculate
	# the wall clock time of a jiffy.
	jiffy_to_wallclock = {
	'1st_timestamp': -1,
	'2nd_timestamp': -1,
	'jiffy_to_wallclock': -1
	}

	def analyze_process_maps(process_map1, process_map2, jiffy_record):
	# List interesting processes here
	processes_of_interest = [
	'/init',
	'/system/bin/surfaceflinger',
	'/system/bin/bootanimation',
	'zygote64',
	'zygote',
	'system_server'
	]

	jw = jiffy_record['jiffy_to_wallclock']
	print "process: baseline experiment (delta)"
	print " - Unit is ms (a jiffy is %d ms on the system)" % jw
	print "------------------------------------"
	for p in processes_of_interest:
	# e.g., 32-bit system doesn't have zygote64
	if p in process_map1 and p in process_map2:
	print "%s: %d %d (%+d)" % (
	p, process_map1[p]['start_time'] * jw,
	process_map2[p]['start_time'] * jw,
	(process_map2[p]['start_time'] -
	process_map1[p]['start_time']) * jw)

	# Print the last tick for the bootanimation process
	print "bootanimation ends at: %d %d (%+d)" % (
	process_map1['/system/bin/bootanimation']['last_tick'] * jw,
	process_map2['/system/bin/bootanimation']['last_tick'] * jw,
	(process_map2['/system/bin/bootanimation']['last_tick'] -
	process_map1['/system/bin/bootanimation']['last_tick']) * jw)

	def parse_proc_file(pathname, process_map, jiffy_record=None):
	# Uncompress bootchart.tgz
	with tarfile.open(pathname + '/bootchart.tgz', 'r:*') as tf:
	try:
	# Read proc_ps.log
	f = tf.extractfile('proc_ps.log')

	# Break proc_ps into chunks based on timestamps
	blocks = f.read().split('\n\n')
	for b in blocks:
	lines = b.split('\n')
	if not lines[0]:
	break

	# 200ms apart in jiffies
	timestamp = int(lines[0]);

	# Figure out the wall clock time of a jiffy
	if jiffy_record is not None:
	if jiffy_record['1st_timestamp'] == -1:
	jiffy_record['1st_timestamp'] = timestamp
	elif jiffy_record['jiffy_to_wallclock'] == -1:
	# Not really needed but for debugging purposes
	jiffy_record['2nd_timestamp'] = timestamp
	value = 200 / (timestamp -
	jiffy_record['1st_timestamp'])
	# Fix the rounding error
	# e.g., 201 jiffies in 200ms when USER_HZ is 1000
	if value == 0:
	value = 1
	# e.g., 21 jiffies in 200ms when USER_HZ is 100
	elif value == 9:
	value = 10
	jiffy_record['jiffy_to_wallclock'] = value

	# Populate the process_map table
	for line in lines[1:]:
	segs = line.split(' ')

	# 0: pid
	# 1: process name
	# 17: priority
	# 18: nice
	# 21: creation time

	proc_name = segs[1].strip('()')
	if proc_name in process_map:
	process = process_map[proc_name]
	else:
	process = {'start_time': int(segs[21])}
	process_map[proc_name] = process

	process['last_tick'] = timestamp
	finally:
	f.close()

	def main():
	if len(sys.argv) != 3:
	print "Usage: %s base_bootchart_dir exp_bootchart_dir" % sys.argv[0]
	sys.exit(1)

	process_map1 = {}
	process_map2 = {}
	parse_proc_file(sys.argv[1], process_map1, jiffy_to_wallclock)
	parse_proc_file(sys.argv[2], process_map2)
	analyze_process_maps(process_map1, process_map2, jiffy_to_wallclock)

	if __name__ == "__main__":
	main()