tools/load_tool - platform/external/perfetto - Gitiles

 #!/usr/bin/env python
 # Copyright (C) 2019 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.

 import argparse
 import logging
 import os
 import sys
 import subprocess
 import tempfile

 ROOT_DIR = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
 ADB_PATH = os.path.join(ROOT_DIR, 'buildtools/android_sdk/platform-tools/adb')

 TEMPLATED_PERFETTO_CFG = '''
 buffers {{
   size_kb: 65536
   fill_policy: RING_BUFFER
 }}
 data_sources {{
   config {{
     name: "linux.ftrace"
     target_buffer: 0
     ftrace_config {{
       ftrace_events: "sched_switch"
       buffer_size_kb: {buffer_size_kb}
       drain_period_ms: {drain_period_ms}
     }}
   }}
 }}
 duration_ms: 15000
 '''

 PERFETTO_PER_CPU_BUFFER_SIZE_KB_PARAMS = [
   128,
   256,
   512,
   1 * 1024, # 1 MB
   2 * 1024, # 2 MB
   4 * 1024, # 4 MB
 ]

 PERFETTO_DRAIN_RATE_MS_PARAMS = [
   100,
   240,
   500,
   1 * 1000, # 1s
   2 * 1000, # 2s
   5 * 1000, # 5s
 ]

 BUSY_THREADS_NUM_THREADS_PARAMS = [
   8,
   32,
   128,
 ]

 BUSY_THREADS_DUTY_CYCLE_PARAMS = [
   10,
   100,
 ]

 BUSY_THREADS_PERIOD_US_PARAMS = [
   500,
   1 * 1000,  # 1 ms
   10 * 1000, # 10 ms
 ]

 TRACE_PROCESSOR_QUERY = """
 SELECT
   a.value as num_sched,
   b.value as num_overrun
 FROM (
   SELECT COUNT(*) as value
   FROM sched
 ) as a, (
   SELECT SUM(value) as value
   FROM stats
   WHERE name = 'ftrace_cpu_overrun_end'
 ) as b
 """

 def AdbArgs(*args):
   cmd = [ADB_PATH] + list([str(x) for x in args])
   logging.debug('> adb ' + ' '.join([str(x) for x in args]))
   return cmd

 def AdbCall(*args):
   return subprocess.check_output(AdbArgs(*args)).decode('utf-8').rstrip()

 def SingleTraceRun(out_dir,
                    prio_name,
                    buffer_size_kb,
                    drain_rate_ms,
                    num_threads,
                    duty_cycle,
                    period_us):
   busy_threads_args = AdbArgs(
     'shell',
     '/data/local/tmp/busy_threads',
     '--threads={}'.format(num_threads),
     '--duty_cycle={}'.format(duty_cycle),
     '--period_us={}'.format(period_us)
   )
   perfetto_args = AdbArgs(
     'shell',
     'perfetto',
     '--txt',
     '-c',
     '-',
     '-o',
     '-'
   )

   # Create a file object to read the trace into.
   with tempfile.NamedTemporaryFile() as trace_file:
     logging.info("Starting trace with parameters ({}, {}, {}, {}, {}, {})"
       .format(prio_name,
               buffer_size_kb,
               drain_rate_ms,
               num_threads,
               duty_cycle,
               period_us))

     # Start the busy threads running.
     busy_threads_handle = subprocess.Popen(busy_threads_args)

     # Start the Perfetto trace.
     perfetto_handle = subprocess.Popen(
       perfetto_args, stdin=subprocess.PIPE, stdout=trace_file)

     # Create the config with the parameters
     config = TEMPLATED_PERFETTO_CFG.format(
       buffer_size_kb=buffer_size_kb, drain_period_ms=drain_rate_ms)

     # Send the config to the Perfetto binary and wait for response.
     perfetto_handle.stdin.write(config.encode())
     perfetto_handle.stdin.close()
     perfetto_ret = perfetto_handle.wait()

     # Stop busy threads from running.
     busy_threads_handle.terminate()

     # Return any errors from Perfetto.
     if perfetto_ret:
       raise subprocess.CalledProcessError(
         cmd=perfetto_args, returncode=perfetto_ret)

     # TODO(lalitm): allow trace processor to take the query file from stdin
     # to prevent this hack from being required.
     with tempfile.NamedTemporaryFile() as trace_query_file:
       trace_query_file.file.write(TRACE_PROCESSOR_QUERY.encode())
       trace_query_file.file.flush()

       # Run the trace processor on the config.
       tp_path = os.path.join(out_dir, 'trace_processor_shell')
       tp_out = subprocess.check_output(
         [tp_path, '-q', trace_query_file.name, trace_file.name])

       # Get the CSV output from trace processor (stripping the header).
       [num_sched, num_overrun] = str(tp_out).split('\n')[1].split(',')

     # Print the row to stdout.
     sys.stdout.write('"{}",{},{},{},{},{},{},{}\n'
       .format(prio_name,
               buffer_size_kb,
               drain_rate_ms,
               num_threads,
               duty_cycle,
               period_us,
               num_sched,
               num_overrun))

 def SinglePriorityRun(out_dir, prio_name):
   for buffer_size_kb in PERFETTO_PER_CPU_BUFFER_SIZE_KB_PARAMS:
     for drain_rate_ms in PERFETTO_DRAIN_RATE_MS_PARAMS:
       for num_threads in BUSY_THREADS_NUM_THREADS_PARAMS:
         for duty_cycle in BUSY_THREADS_DUTY_CYCLE_PARAMS:
           for period_us in BUSY_THREADS_PERIOD_US_PARAMS:
             SingleTraceRun(
               out_dir,
               prio_name,
               buffer_size_kb,
               drain_rate_ms,
               num_threads,
               duty_cycle,
               period_us
             )

 def CycleTracedAndProbes():
   AdbCall('shell', 'stop', 'traced')
   AdbCall('shell', 'stop', 'traced_probes')
   AdbCall('shell', 'start', 'traced')
   AdbCall('shell', 'start', 'traced_probes')
   AdbCall('shell', 'sleep', '5')
   traced_pid = AdbCall('shell', 'pidof', 'traced')
   probes_pid = AdbCall('shell', 'pidof', 'traced_probes')
   assert(traced_pid is not None and probes_pid is not None)
   return (traced_pid, probes_pid)

 def Main():
   parser = argparse.ArgumentParser()
   parser.add_argument('linux_out_dir', help='out/android/')
   parser.add_argument('android_out_dir', help='out/android/')
   args = parser.parse_args()

   # Root ourselves on the device.
   logging.info('Waiting for device and rooting ...')
   AdbCall('wait-for-device')
   AdbCall('root')
   AdbCall('wait-for-device')

   # Push busy threads to device
   busy_threads_path = os.path.join(args.android_out_dir, 'busy_threads')
   AdbCall('shell', 'rm', '-rf', '/data/local/tmp/perfetto_load_test')
   AdbCall('shell', 'mkdir', '/data/local/tmp/perfetto_load_test')
   AdbCall('push', busy_threads_path, '/data/local/tmp/perfetto_load_test/')

   # Stop and start traced and traced_probes
   (traced_pid, probes_pid) = CycleTracedAndProbes()

   # Print the header for csv.
   sys.stdout.write('"{}","{}","{}","{}","{}","{}","{}","{}"\n'
       .format('prio_name',
               'buffer_size_kb',
               'drain_rate_ms',
               'num_threads',
               'duty_cycle',
               'period_us',
               'num_sched',
               'num_overrun'))

   # First, do a single run in all configurations without changing prio.
   SinglePriorityRun(args.linux_out_dir, 'Default')

   # Stop and start traced and traced_probes
   (traced_pid, probes_pid) = CycleTracedAndProbes()

   # Setup the nice values and check them.
   AdbCall('shell', 'renice', '-n', '-19', '-p', traced_pid)
   AdbCall('shell', 'renice', '-n', '-19', '-p', probes_pid)
   logging.debug(AdbCall('shell', 'cat', '/proc/{}/stat'.format(traced_pid)))
   logging.debug(AdbCall('shell', 'cat', '/proc/{}/stat'.format(probes_pid)))

   # Do the run.
   SinglePriorityRun(args.linux_out_dir, '-19 Nice')

   # Stop and start traced and traced_probes
   (traced_pid, probes_pid) = CycleTracedAndProbes()

   # Then do a run with FIFO scheduling for traced and traced_probes.
   AdbCall('shell', 'chrt', '-f', '-p', traced_pid, '99')
   AdbCall('shell', 'chrt', '-f', '-p', probes_pid, '99')
   logging.debug(AdbCall('shell', 'chrt', '-p', traced_pid))
   logging.debug(AdbCall('shell', 'chrt', '-p', probes_pid))

   # Do the run.
   SinglePriorityRun(args.linux_out_dir, 'FIFO')

   # Stop and start traced and traced_probes
   (traced_pid, probes_pid) = CycleTracedAndProbes()

   # Cleanup any pushed files, priorities etc.
   logging.info("Cleaning up test")
   AdbCall('shell', 'rm', '-rf', '/data/local/tmp/perfetto_load_test')
   logging.debug(AdbCall('shell', 'cat', '/proc/{}/stat'.format(traced_pid)))
   logging.debug(AdbCall('shell', 'cat', '/proc/{}/stat'.format(probes_pid)))
   AdbCall('unroot')

   return 0

 if __name__ == '__main__':
   logging.basicConfig(level=logging.INFO)
   sys.exit(Main())
	#!/usr/bin/env python
	# Copyright (C) 2019 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.

	import argparse
	import logging
	import os
	import sys
	import subprocess
	import tempfile

	ROOT_DIR = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
	ADB_PATH = os.path.join(ROOT_DIR, 'buildtools/android_sdk/platform-tools/adb')

	TEMPLATED_PERFETTO_CFG = '''
	buffers {{
	size_kb: 65536
	fill_policy: RING_BUFFER
	}}
	data_sources {{
	config {{
	name: "linux.ftrace"
	target_buffer: 0
	ftrace_config {{
	ftrace_events: "sched_switch"
	buffer_size_kb: {buffer_size_kb}
	drain_period_ms: {drain_period_ms}
	}}
	}}
	}}
	duration_ms: 15000
	'''

	PERFETTO_PER_CPU_BUFFER_SIZE_KB_PARAMS = [
	128,
	256,
	512,
	1 * 1024, # 1 MB
	2 * 1024, # 2 MB
	4 * 1024, # 4 MB
	]

	PERFETTO_DRAIN_RATE_MS_PARAMS = [
	100,
	240,
	500,
	1 * 1000, # 1s
	2 * 1000, # 2s
	5 * 1000, # 5s
	]

	BUSY_THREADS_NUM_THREADS_PARAMS = [
	8,
	32,
	128,
	]

	BUSY_THREADS_DUTY_CYCLE_PARAMS = [
	10,
	100,
	]

	BUSY_THREADS_PERIOD_US_PARAMS = [
	500,
	1 * 1000, # 1 ms
	10 * 1000, # 10 ms
	]

	TRACE_PROCESSOR_QUERY = """
	SELECT
	a.value as num_sched,
	b.value as num_overrun
	FROM (
	SELECT COUNT(*) as value
	FROM sched
	) as a, (
	SELECT SUM(value) as value
	FROM stats
	WHERE name = 'ftrace_cpu_overrun_end'
	) as b
	"""

	def AdbArgs(*args):
	cmd = [ADB_PATH] + list([str(x) for x in args])
	logging.debug('> adb ' + ' '.join([str(x) for x in args]))
	return cmd

	def AdbCall(*args):
	return subprocess.check_output(AdbArgs(*args)).decode('utf-8').rstrip()

	def SingleTraceRun(out_dir,
	prio_name,
	buffer_size_kb,
	drain_rate_ms,
	num_threads,
	duty_cycle,
	period_us):
	busy_threads_args = AdbArgs(
	'shell',
	'/data/local/tmp/busy_threads',
	'--threads={}'.format(num_threads),
	'--duty_cycle={}'.format(duty_cycle),
	'--period_us={}'.format(period_us)
	)
	perfetto_args = AdbArgs(
	'shell',
	'perfetto',
	'--txt',
	'-c',
	'-',
	'-o',
	'-'
	)

	# Create a file object to read the trace into.
	with tempfile.NamedTemporaryFile() as trace_file:
	logging.info("Starting trace with parameters ({}, {}, {}, {}, {}, {})"
	.format(prio_name,
	buffer_size_kb,
	drain_rate_ms,
	num_threads,
	duty_cycle,
	period_us))

	# Start the busy threads running.
	busy_threads_handle = subprocess.Popen(busy_threads_args)

	# Start the Perfetto trace.
	perfetto_handle = subprocess.Popen(
	perfetto_args, stdin=subprocess.PIPE, stdout=trace_file)

	# Create the config with the parameters
	config = TEMPLATED_PERFETTO_CFG.format(
	buffer_size_kb=buffer_size_kb, drain_period_ms=drain_rate_ms)

	# Send the config to the Perfetto binary and wait for response.
	perfetto_handle.stdin.write(config.encode())
	perfetto_handle.stdin.close()
	perfetto_ret = perfetto_handle.wait()

	# Stop busy threads from running.
	busy_threads_handle.terminate()

	# Return any errors from Perfetto.
	if perfetto_ret:
	raise subprocess.CalledProcessError(
	cmd=perfetto_args, returncode=perfetto_ret)

	# TODO(lalitm): allow trace processor to take the query file from stdin
	# to prevent this hack from being required.
	with tempfile.NamedTemporaryFile() as trace_query_file:
	trace_query_file.file.write(TRACE_PROCESSOR_QUERY.encode())
	trace_query_file.file.flush()

	# Run the trace processor on the config.
	tp_path = os.path.join(out_dir, 'trace_processor_shell')
	tp_out = subprocess.check_output(
	[tp_path, '-q', trace_query_file.name, trace_file.name])

	# Get the CSV output from trace processor (stripping the header).
	[num_sched, num_overrun] = str(tp_out).split('\n')[1].split(',')

	# Print the row to stdout.
	sys.stdout.write('"{}",{},{},{},{},{},{},{}\n'
	.format(prio_name,
	buffer_size_kb,
	drain_rate_ms,
	num_threads,
	duty_cycle,
	period_us,
	num_sched,
	num_overrun))

	def SinglePriorityRun(out_dir, prio_name):
	for buffer_size_kb in PERFETTO_PER_CPU_BUFFER_SIZE_KB_PARAMS:
	for drain_rate_ms in PERFETTO_DRAIN_RATE_MS_PARAMS:
	for num_threads in BUSY_THREADS_NUM_THREADS_PARAMS:
	for duty_cycle in BUSY_THREADS_DUTY_CYCLE_PARAMS:
	for period_us in BUSY_THREADS_PERIOD_US_PARAMS:
	SingleTraceRun(
	out_dir,
	prio_name,
	buffer_size_kb,
	drain_rate_ms,
	num_threads,
	duty_cycle,
	period_us
	)

	def CycleTracedAndProbes():
	AdbCall('shell', 'stop', 'traced')
	AdbCall('shell', 'stop', 'traced_probes')
	AdbCall('shell', 'start', 'traced')
	AdbCall('shell', 'start', 'traced_probes')
	AdbCall('shell', 'sleep', '5')
	traced_pid = AdbCall('shell', 'pidof', 'traced')
	probes_pid = AdbCall('shell', 'pidof', 'traced_probes')
	assert(traced_pid is not None and probes_pid is not None)
	return (traced_pid, probes_pid)

	def Main():
	parser = argparse.ArgumentParser()
	parser.add_argument('linux_out_dir', help='out/android/')
	parser.add_argument('android_out_dir', help='out/android/')
	args = parser.parse_args()

	# Root ourselves on the device.
	logging.info('Waiting for device and rooting ...')
	AdbCall('wait-for-device')
	AdbCall('root')
	AdbCall('wait-for-device')

	# Push busy threads to device
	busy_threads_path = os.path.join(args.android_out_dir, 'busy_threads')
	AdbCall('shell', 'rm', '-rf', '/data/local/tmp/perfetto_load_test')
	AdbCall('shell', 'mkdir', '/data/local/tmp/perfetto_load_test')
	AdbCall('push', busy_threads_path, '/data/local/tmp/perfetto_load_test/')

	# Stop and start traced and traced_probes
	(traced_pid, probes_pid) = CycleTracedAndProbes()

	# Print the header for csv.
	sys.stdout.write('"{}","{}","{}","{}","{}","{}","{}","{}"\n'
	.format('prio_name',
	'buffer_size_kb',
	'drain_rate_ms',
	'num_threads',
	'duty_cycle',
	'period_us',
	'num_sched',
	'num_overrun'))

	# First, do a single run in all configurations without changing prio.
	SinglePriorityRun(args.linux_out_dir, 'Default')

	# Stop and start traced and traced_probes
	(traced_pid, probes_pid) = CycleTracedAndProbes()

	# Setup the nice values and check them.
	AdbCall('shell', 'renice', '-n', '-19', '-p', traced_pid)
	AdbCall('shell', 'renice', '-n', '-19', '-p', probes_pid)
	logging.debug(AdbCall('shell', 'cat', '/proc/{}/stat'.format(traced_pid)))
	logging.debug(AdbCall('shell', 'cat', '/proc/{}/stat'.format(probes_pid)))

	# Do the run.
	SinglePriorityRun(args.linux_out_dir, '-19 Nice')

	# Stop and start traced and traced_probes
	(traced_pid, probes_pid) = CycleTracedAndProbes()

	# Then do a run with FIFO scheduling for traced and traced_probes.
	AdbCall('shell', 'chrt', '-f', '-p', traced_pid, '99')
	AdbCall('shell', 'chrt', '-f', '-p', probes_pid, '99')
	logging.debug(AdbCall('shell', 'chrt', '-p', traced_pid))
	logging.debug(AdbCall('shell', 'chrt', '-p', probes_pid))

	# Do the run.
	SinglePriorityRun(args.linux_out_dir, 'FIFO')

	# Stop and start traced and traced_probes
	(traced_pid, probes_pid) = CycleTracedAndProbes()

	# Cleanup any pushed files, priorities etc.
	logging.info("Cleaning up test")
	AdbCall('shell', 'rm', '-rf', '/data/local/tmp/perfetto_load_test')
	logging.debug(AdbCall('shell', 'cat', '/proc/{}/stat'.format(traced_pid)))
	logging.debug(AdbCall('shell', 'cat', '/proc/{}/stat'.format(probes_pid)))
	AdbCall('unroot')

	return 0

	if __name__ == '__main__':
	logging.basicConfig(level=logging.INFO)
	sys.exit(Main())