tools/diff_test_trace_processor.py - platform/external/perfetto - Git at Google

 #!/usr/bin/env python3
 # Copyright (C) 2018 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.

 from __future__ import absolute_import
 from __future__ import division
 from __future__ import print_function

 import argparse
 import datetime
 import difflib
 import glob
 import importlib
 import json
 import os
 import re
 import subprocess
 import sys
 import tempfile

 from itertools import chain
 from google.protobuf import reflection, text_format

 from proto_utils import create_message_factory, serialize_textproto_trace, serialize_python_trace

 ROOT_DIR = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
 ENV = {
     'PERFETTO_BINARY_PATH': os.path.join(ROOT_DIR, 'test', 'data'),
 }
 if sys.platform.startswith('linux'):
   ENV['PATH'] = os.path.join(ROOT_DIR, 'buildtools', 'linux64', 'clang', 'bin')
 elif sys.platform.startswith('dawin'):
   # Sadly, on macOS we need to check out the Android deps to get
   # llvm symbolizer.
   ENV['PATH'] = os.path.join(ROOT_DIR, 'buildtools', 'ndk', 'toolchains',
                              'llvm', 'prebuilt', 'darwin-x86_64', 'bin')
 elif sys.platform.startswith('win32'):
   ENV['PATH'] = os.path.join(ROOT_DIR, 'buildtools', 'win', 'clang', 'bin')


 class Test(object):

   def __init__(self, type, trace_path, query_path_or_metric, expected_path):
     self.type = type
     self.trace_path = trace_path
     self.query_path_or_metric = query_path_or_metric
     self.expected_path = expected_path


 class PerfResult(object):

   def __init__(self, test_type, trace_path, query_path_or_metric,
                ingest_time_ns_str, real_time_ns_str):
     self.test_type = test_type
     self.trace_path = trace_path
     self.query_path_or_metric = query_path_or_metric
     self.ingest_time_ns = int(ingest_time_ns_str)
     self.real_time_ns = int(real_time_ns_str)


 class TestResult(object):

   def __init__(self, test_type, input_name, trace, cmd, expected, actual,
                stderr, exit_code):
     self.test_type = test_type
     self.input_name = input_name
     self.trace = trace
     self.cmd = cmd
     self.expected = expected
     self.actual = actual
     self.stderr = stderr
     self.exit_code = exit_code


 def create_metrics_message_factory(metrics_descriptor_paths):
   return create_message_factory(metrics_descriptor_paths,
                                 'perfetto.protos.TraceMetrics')


 def write_diff(expected, actual):
   expected_lines = expected.splitlines(True)
   actual_lines = actual.splitlines(True)
   diff = difflib.unified_diff(
       expected_lines, actual_lines, fromfile='expected', tofile='actual')
   for line in diff:
     sys.stderr.write(line)


 def run_metrics_test(trace_processor_path, gen_trace_path, metric,
                      expected_path, perf_path, metrics_message_factory):
   with open(expected_path, 'r') as expected_file:
     expected = expected_file.read()

   json_output = os.path.basename(expected_path).endswith('.json.out')
   cmd = [
       trace_processor_path,
       '--run-metrics',
       metric,
       '--metrics-output=%s' % ('json' if json_output else 'binary'),
       '--perf-file',
       perf_path,
       gen_trace_path,
   ]
   tp = subprocess.Popen(
       cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=ENV)
   (stdout, stderr) = tp.communicate()

   if json_output:
     expected_text = expected
     actual_text = stdout.decode('utf8')
   else:
     # Expected will be in text proto format and we'll need to parse it to a real
     # proto.
     expected_message = metrics_message_factory()
     text_format.Merge(expected, expected_message)

     # Actual will be the raw bytes of the proto and we'll need to parse it into
     # a message.
     actual_message = metrics_message_factory()
     actual_message.ParseFromString(stdout)

     # Convert both back to text format.
     expected_text = text_format.MessageToString(expected_message)
     actual_text = text_format.MessageToString(actual_message)

   return TestResult('metric', metric, gen_trace_path, cmd, expected_text,
                     actual_text, stderr.decode('utf8'), tp.returncode)


 def run_query_test(trace_processor_path, gen_trace_path, query_path,
                    expected_path, perf_path):
   with open(expected_path, 'r') as expected_file:
     expected = expected_file.read()

   cmd = [
       trace_processor_path,
       '-q',
       query_path,
       '--perf-file',
       perf_path,
       gen_trace_path,
   ]

   tp = subprocess.Popen(
       cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=ENV)
   (stdout, stderr) = tp.communicate()
   return TestResult('query', query_path, gen_trace_path, cmd, expected,
                     stdout.decode('utf8'), stderr.decode('utf8'), tp.returncode)


 def run_all_tests(trace_processor, trace_descriptor_path,
                   extension_descriptor_paths, metrics_message_factory, tests,
                   keep_input, rebase):
   perf_data = []
   test_failure = 0
   rebased = 0
   for test in tests:
     trace_path = test.trace_path
     expected_path = test.expected_path
     if not os.path.exists(trace_path):
       sys.stderr.write('Trace file not found {}\n'.format(trace_path))
       test_failure += 1
       continue
     elif not os.path.exists(expected_path):
       sys.stderr.write('Expected file not found {}\n'.format(expected_path))
       test_failure += 1
       continue

     is_generated_trace = trace_path.endswith('.py') or trace_path.endswith(
         '.textproto')
     if trace_path.endswith('.py'):
       gen_trace_file = tempfile.NamedTemporaryFile(delete=False)
       serialize_python_trace(trace_descriptor_path, trace_path, gen_trace_file)
       gen_trace_path = os.path.realpath(gen_trace_file.name)
     elif trace_path.endswith('.textproto'):
       gen_trace_file = tempfile.NamedTemporaryFile(delete=False)
       serialize_textproto_trace(trace_descriptor_path,
                                 extension_descriptor_paths, trace_path,
                                 gen_trace_file)
       gen_trace_path = os.path.realpath(gen_trace_file.name)
     else:
       gen_trace_file = None
       gen_trace_path = trace_path

     # We can't use delete=True here. When using that on Windwows, the resulting
     # file is opened in exclusive mode (in turn that's a subtle side-effect of
     # the underlying CreateFile(FILE_ATTRIBUTE_TEMPORARY)) and TP fails to open
     # the passed path.
     tmp_perf_file = tempfile.NamedTemporaryFile(delete=False)
     sys.stderr.write('[ RUN      ] {} {}\n'.format(
         os.path.basename(test.query_path_or_metric),
         os.path.basename(trace_path)))

     tmp_perf_path = tmp_perf_file.name
     if test.type == 'queries':
       query_path = test.query_path_or_metric

       if not os.path.exists(test.query_path_or_metric):
         print('Query file not found {}'.format(query_path))
         test_failure += 1
         continue

       result = run_query_test(trace_processor, gen_trace_path, query_path,
                               expected_path, tmp_perf_path)
     elif test.type == 'metrics':
       result = run_metrics_test(trace_processor, gen_trace_path,
                                 test.query_path_or_metric, expected_path,
                                 tmp_perf_path, metrics_message_factory)
     else:
       assert False

     perf_lines = [line.decode('utf8') for line in tmp_perf_file.readlines()]
     tmp_perf_file.close()
     os.remove(tmp_perf_file.name)

     if gen_trace_file:
       if keep_input:
         sys.stderr.write(
             "Saving generated input trace: {}\n".format(gen_trace_path))
       else:
         gen_trace_file.close()
         os.remove(gen_trace_path)

     def write_cmdlines():
       if is_generated_trace:
         sys.stderr.write(
             'Command to generate trace:\n'
             'tools/serialize_test_trace.py --descriptor {} {} > {}\n'.format(
                 os.path.relpath(trace_descriptor_path, ROOT_DIR),
                 os.path.relpath(trace_path, ROOT_DIR),
                 os.path.relpath(gen_trace_path, ROOT_DIR)))
       sys.stderr.write('Command line:\n{}\n'.format(' '.join(result.cmd)))

     contents_equal = (
         result.expected.replace('\r\n',
                                 '\n') == result.actual.replace('\r\n', '\n'))
     if result.exit_code != 0 or not contents_equal:
       sys.stderr.write(result.stderr)

       if result.exit_code == 0:
         sys.stderr.write(
             'Expected did not match actual for trace {} and {} {}\n'.format(
                 trace_path, result.test_type, result.input_name))
         sys.stderr.write('Expected file: {}\n'.format(expected_path))
         write_cmdlines()
         write_diff(result.expected, result.actual)
       else:
         write_cmdlines()

       sys.stderr.write('[     FAIL ] {} {}\n'.format(
           os.path.basename(test.query_path_or_metric),
           os.path.basename(trace_path)))

       if rebase:
         if result.exit_code == 0:
           sys.stderr.write('Rebasing {}\n'.format(expected_path))
           with open(expected_path, 'w') as f:
             f.write(result.actual)
           rebase += 1
         else:
           sys.stderr.write(
               'Rebase failed for {} as query failed\n'.format(expected_path))

       test_failure += 1
     else:
       assert len(perf_lines) == 1
       perf_numbers = perf_lines[0].split(',')

       assert len(perf_numbers) == 2
       perf_result = PerfResult(test.type, trace_path, test.query_path_or_metric,
                                perf_numbers[0], perf_numbers[1])
       perf_data.append(perf_result)

       sys.stderr.write(
           '[       OK ] {} {} (ingest: {} ms, query: {} ms)\n'.format(
               os.path.basename(test.query_path_or_metric),
               os.path.basename(trace_path),
               perf_result.ingest_time_ns / 1000000,
               perf_result.real_time_ns / 1000000))

   return test_failure, perf_data, rebased


 def read_all_tests_from_index(index_path, query_metric_pattern, trace_pattern):
   index_dir = os.path.dirname(index_path)

   with open(index_path, 'r') as index_file:
     index_lines = index_file.readlines()

   tests = []
   for line in index_lines:
     stripped = line.strip()
     if stripped.startswith('#'):
       continue
     elif not stripped:
       continue

     [trace_fname, query_fname_or_metric, expected_fname] = stripped.split(' ')
     if not query_metric_pattern.match(os.path.basename(query_fname_or_metric)):
       continue

     if not trace_pattern.match(os.path.basename(trace_fname)):
       continue

     trace_path = os.path.abspath(os.path.join(index_dir, trace_fname))
     expected_path = os.path.abspath(os.path.join(index_dir, expected_fname))

     if query_fname_or_metric.endswith('.sql'):
       test_type = 'queries'
       query_path_or_metric = os.path.abspath(
           os.path.join(index_dir, query_fname_or_metric))
     else:
       test_type = 'metrics'
       query_path_or_metric = query_fname_or_metric

     tests.append(
         Test(test_type, trace_path, query_path_or_metric, expected_path))
   return tests


 def read_all_tests(query_metric_pattern, trace_pattern):
   include_index_dir = os.path.join(ROOT_DIR, 'test', 'trace_processor')
   include_index = os.path.join(include_index_dir, 'include_index')
   tests = []
   with open(include_index, 'r') as include_file:
     for index_relpath in include_file.readlines():
       index_path = os.path.join(include_index_dir, index_relpath.strip())
       tests.extend(
           read_all_tests_from_index(index_path, query_metric_pattern,
                                     trace_pattern))
   return tests


 def main():
   parser = argparse.ArgumentParser()
   parser.add_argument('--test-type', type=str, default='all')
   parser.add_argument('--trace-descriptor', type=str)
   parser.add_argument('--metrics-descriptor', type=str)
   parser.add_argument('--perf-file', type=str)
   parser.add_argument(
       '--query-metric-filter',
       default='.*',
       type=str,
       help=
       'Filter the name of query files or metrics to diff test (regex syntax)')
   parser.add_argument(
       '--trace-filter',
       default='.*',
       type=str,
       help='Filter the name of trace files to diff test (regex syntax)')
   parser.add_argument(
       '--keep-input',
       action='store_true',
       help='Save the (generated) input pb file for debugging')
   parser.add_argument(
       '--rebase',
       action='store_true',
       help='Update the expected output file with the actual result')
   parser.add_argument(
       'trace_processor', type=str, help='location of trace processor binary')
   args = parser.parse_args()

   query_metric_pattern = re.compile(args.query_metric_filter)
   trace_pattern = re.compile(args.trace_filter)

   tests = read_all_tests(query_metric_pattern, trace_pattern)
   sys.stderr.write('[==========] Running {} tests.\n'.format(len(tests)))

   out_path = os.path.dirname(args.trace_processor)
   if args.trace_descriptor:
     trace_descriptor_path = args.trace_descriptor
   else:
     def find_trace_descriptor(parent):
       trace_protos_path = os.path.join(parent, 'gen', 'protos', 'perfetto',
                                        'trace')
       return os.path.join(trace_protos_path, 'trace.descriptor')

     trace_descriptor_path = find_trace_descriptor(out_path)
     if not os.path.exists(trace_descriptor_path):
       trace_descriptor_path = find_trace_descriptor(
           os.path.join(out_path, 'gcc_like_host'))


   if args.metrics_descriptor:
     metrics_descriptor_paths = [args.metrics_descriptor]
   else:
     metrics_protos_path = os.path.join(out_path, 'gen', 'protos', 'perfetto',
                                        'metrics')
     metrics_descriptor_paths = [
         os.path.join(metrics_protos_path, 'metrics.descriptor'),
         os.path.join(metrics_protos_path, 'chrome',
                      'all_chrome_metrics.descriptor')
     ]

   chrome_extensions = os.path.join(out_path, 'gen', 'protos', 'third_party',
                                    'chromium', 'chrome_track_event.descriptor')
   test_extensions = os.path.join(out_path, 'gen', 'protos', 'perfetto', 'trace',
                                  'test_extensions.descriptor')

   metrics_message_factory = create_metrics_message_factory(
       metrics_descriptor_paths)

   test_run_start = datetime.datetime.now()
   test_failure, perf_data, rebased = run_all_tests(
       args.trace_processor, trace_descriptor_path,
       [chrome_extensions, test_extensions], metrics_message_factory, tests,
       args.keep_input, args.rebase)
   test_run_end = datetime.datetime.now()

   sys.stderr.write('[==========] {} tests ran. ({} ms total)\n'.format(
       len(tests), int((test_run_end - test_run_start).total_seconds() * 1000)))
   sys.stderr.write('[  PASSED  ] {} tests.\n'.format(len(tests) - test_failure))
   if args.rebase:
     sys.stderr.write('{} tests rebased.\n'.format(rebased))

   if test_failure == 0:
     if args.perf_file:
       test_dir = os.path.join(ROOT_DIR, 'test')
       trace_processor_dir = os.path.join(test_dir, 'trace_processor')

       metrics = []
       sorted_data = sorted(
           perf_data,
           key=lambda x: (x.test_type, x.trace_path, x.query_path_or_metric))
       for perf_args in sorted_data:
         trace_short_path = os.path.relpath(perf_args.trace_path, test_dir)

         query_short_path_or_metric = perf_args.query_path_or_metric
         if perf_args.test_type == 'queries':
           query_short_path_or_metric = os.path.relpath(
               perf_args.query_path_or_metric, trace_processor_dir)

         metrics.append({
             'metric': 'tp_perf_test_ingest_time',
             'value': float(perf_args.ingest_time_ns) / 1.0e9,
             'unit': 's',
             'tags': {
                 'test_name':
                     '{}-{}'.format(trace_short_path,
                                    query_short_path_or_metric),
                 'test_type':
                     perf_args.test_type,
             },
             'labels': {},
         })
         metrics.append({
             'metric': 'perf_test_real_time',
             'value': float(perf_args.real_time_ns) / 1.0e9,
             'unit': 's',
             'tags': {
                 'test_name':
                     '{}-{}'.format(
                         os.path.relpath(perf_args.trace_path, test_dir),
                         query_short_path_or_metric),
                 'test_type':
                     perf_args.test_type,
             },
             'labels': {},
         })

       output_data = {'metrics': metrics}
       with open(args.perf_file, 'w+') as perf_file:
         perf_file.write(json.dumps(output_data, indent=2))
     return 0
   else:
     sys.stderr.write('[  FAILED  ] {} tests.\n'.format(test_failure))
     return 1


 if __name__ == '__main__':
   sys.exit(main())
	#!/usr/bin/env python3
	# Copyright (C) 2018 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.

	from __future__ import absolute_import
	from __future__ import division
	from __future__ import print_function

	import argparse
	import datetime
	import difflib
	import glob
	import importlib
	import json
	import os
	import re
	import subprocess
	import sys
	import tempfile

	from itertools import chain
	from google.protobuf import reflection, text_format

	from proto_utils import create_message_factory, serialize_textproto_trace, serialize_python_trace

	ROOT_DIR = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
	ENV = {
	'PERFETTO_BINARY_PATH': os.path.join(ROOT_DIR, 'test', 'data'),
	}
	if sys.platform.startswith('linux'):
	ENV['PATH'] = os.path.join(ROOT_DIR, 'buildtools', 'linux64', 'clang', 'bin')
	elif sys.platform.startswith('dawin'):
	# Sadly, on macOS we need to check out the Android deps to get
	# llvm symbolizer.
	ENV['PATH'] = os.path.join(ROOT_DIR, 'buildtools', 'ndk', 'toolchains',
	'llvm', 'prebuilt', 'darwin-x86_64', 'bin')
	elif sys.platform.startswith('win32'):
	ENV['PATH'] = os.path.join(ROOT_DIR, 'buildtools', 'win', 'clang', 'bin')


	class Test(object):

	def __init__(self, type, trace_path, query_path_or_metric, expected_path):
	self.type = type
	self.trace_path = trace_path
	self.query_path_or_metric = query_path_or_metric
	self.expected_path = expected_path


	class PerfResult(object):

	def __init__(self, test_type, trace_path, query_path_or_metric,
	ingest_time_ns_str, real_time_ns_str):
	self.test_type = test_type
	self.trace_path = trace_path
	self.query_path_or_metric = query_path_or_metric
	self.ingest_time_ns = int(ingest_time_ns_str)
	self.real_time_ns = int(real_time_ns_str)


	class TestResult(object):

	def __init__(self, test_type, input_name, trace, cmd, expected, actual,
	stderr, exit_code):
	self.test_type = test_type
	self.input_name = input_name
	self.trace = trace
	self.cmd = cmd
	self.expected = expected
	self.actual = actual
	self.stderr = stderr
	self.exit_code = exit_code


	def create_metrics_message_factory(metrics_descriptor_paths):
	return create_message_factory(metrics_descriptor_paths,
	'perfetto.protos.TraceMetrics')


	def write_diff(expected, actual):
	expected_lines = expected.splitlines(True)
	actual_lines = actual.splitlines(True)
	diff = difflib.unified_diff(
	expected_lines, actual_lines, fromfile='expected', tofile='actual')
	for line in diff:
	sys.stderr.write(line)


	def run_metrics_test(trace_processor_path, gen_trace_path, metric,
	expected_path, perf_path, metrics_message_factory):
	with open(expected_path, 'r') as expected_file:
	expected = expected_file.read()

	json_output = os.path.basename(expected_path).endswith('.json.out')
	cmd = [
	trace_processor_path,
	'--run-metrics',
	metric,
	'--metrics-output=%s' % ('json' if json_output else 'binary'),
	'--perf-file',
	perf_path,
	gen_trace_path,
	]
	tp = subprocess.Popen(
	cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=ENV)
	(stdout, stderr) = tp.communicate()

	if json_output:
	expected_text = expected
	actual_text = stdout.decode('utf8')
	else:
	# Expected will be in text proto format and we'll need to parse it to a real
	# proto.
	expected_message = metrics_message_factory()
	text_format.Merge(expected, expected_message)

	# Actual will be the raw bytes of the proto and we'll need to parse it into
	# a message.
	actual_message = metrics_message_factory()
	actual_message.ParseFromString(stdout)

	# Convert both back to text format.
	expected_text = text_format.MessageToString(expected_message)
	actual_text = text_format.MessageToString(actual_message)

	return TestResult('metric', metric, gen_trace_path, cmd, expected_text,
	actual_text, stderr.decode('utf8'), tp.returncode)


	def run_query_test(trace_processor_path, gen_trace_path, query_path,
	expected_path, perf_path):
	with open(expected_path, 'r') as expected_file:
	expected = expected_file.read()

	cmd = [
	trace_processor_path,
	'-q',
	query_path,
	'--perf-file',
	perf_path,
	gen_trace_path,
	]

	tp = subprocess.Popen(
	cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=ENV)
	(stdout, stderr) = tp.communicate()
	return TestResult('query', query_path, gen_trace_path, cmd, expected,
	stdout.decode('utf8'), stderr.decode('utf8'), tp.returncode)


	def run_all_tests(trace_processor, trace_descriptor_path,
	extension_descriptor_paths, metrics_message_factory, tests,
	keep_input, rebase):
	perf_data = []
	test_failure = 0
	rebased = 0
	for test in tests:
	trace_path = test.trace_path
	expected_path = test.expected_path
	if not os.path.exists(trace_path):
	sys.stderr.write('Trace file not found {}\n'.format(trace_path))
	test_failure += 1
	continue
	elif not os.path.exists(expected_path):
	sys.stderr.write('Expected file not found {}\n'.format(expected_path))
	test_failure += 1
	continue

	is_generated_trace = trace_path.endswith('.py') or trace_path.endswith(
	'.textproto')
	if trace_path.endswith('.py'):
	gen_trace_file = tempfile.NamedTemporaryFile(delete=False)
	serialize_python_trace(trace_descriptor_path, trace_path, gen_trace_file)
	gen_trace_path = os.path.realpath(gen_trace_file.name)
	elif trace_path.endswith('.textproto'):
	gen_trace_file = tempfile.NamedTemporaryFile(delete=False)
	serialize_textproto_trace(trace_descriptor_path,
	extension_descriptor_paths, trace_path,
	gen_trace_file)
	gen_trace_path = os.path.realpath(gen_trace_file.name)
	else:
	gen_trace_file = None
	gen_trace_path = trace_path

	# We can't use delete=True here. When using that on Windwows, the resulting
	# file is opened in exclusive mode (in turn that's a subtle side-effect of
	# the underlying CreateFile(FILE_ATTRIBUTE_TEMPORARY)) and TP fails to open
	# the passed path.
	tmp_perf_file = tempfile.NamedTemporaryFile(delete=False)
	sys.stderr.write('[ RUN ] {} {}\n'.format(
	os.path.basename(test.query_path_or_metric),
	os.path.basename(trace_path)))

	tmp_perf_path = tmp_perf_file.name
	if test.type == 'queries':
	query_path = test.query_path_or_metric

	if not os.path.exists(test.query_path_or_metric):
	print('Query file not found {}'.format(query_path))
	test_failure += 1
	continue

	result = run_query_test(trace_processor, gen_trace_path, query_path,
	expected_path, tmp_perf_path)
	elif test.type == 'metrics':
	result = run_metrics_test(trace_processor, gen_trace_path,
	test.query_path_or_metric, expected_path,
	tmp_perf_path, metrics_message_factory)
	else:
	assert False

	perf_lines = [line.decode('utf8') for line in tmp_perf_file.readlines()]
	tmp_perf_file.close()
	os.remove(tmp_perf_file.name)

	if gen_trace_file:
	if keep_input:
	sys.stderr.write(
	"Saving generated input trace: {}\n".format(gen_trace_path))
	else:
	gen_trace_file.close()
	os.remove(gen_trace_path)

	def write_cmdlines():
	if is_generated_trace:
	sys.stderr.write(
	'Command to generate trace:\n'
	'tools/serialize_test_trace.py --descriptor {} {} > {}\n'.format(
	os.path.relpath(trace_descriptor_path, ROOT_DIR),
	os.path.relpath(trace_path, ROOT_DIR),
	os.path.relpath(gen_trace_path, ROOT_DIR)))
	sys.stderr.write('Command line:\n{}\n'.format(' '.join(result.cmd)))

	contents_equal = (
	result.expected.replace('\r\n',
	'\n') == result.actual.replace('\r\n', '\n'))
	if result.exit_code != 0 or not contents_equal:
	sys.stderr.write(result.stderr)

	if result.exit_code == 0:
	sys.stderr.write(
	'Expected did not match actual for trace {} and {} {}\n'.format(
	trace_path, result.test_type, result.input_name))
	sys.stderr.write('Expected file: {}\n'.format(expected_path))
	write_cmdlines()
	write_diff(result.expected, result.actual)
	else:
	write_cmdlines()

	sys.stderr.write('[ FAIL ] {} {}\n'.format(
	os.path.basename(test.query_path_or_metric),
	os.path.basename(trace_path)))

	if rebase:
	if result.exit_code == 0:
	sys.stderr.write('Rebasing {}\n'.format(expected_path))
	with open(expected_path, 'w') as f:
	f.write(result.actual)
	rebase += 1
	else:
	sys.stderr.write(
	'Rebase failed for {} as query failed\n'.format(expected_path))

	test_failure += 1
	else:
	assert len(perf_lines) == 1
	perf_numbers = perf_lines[0].split(',')

	assert len(perf_numbers) == 2
	perf_result = PerfResult(test.type, trace_path, test.query_path_or_metric,
	perf_numbers[0], perf_numbers[1])
	perf_data.append(perf_result)

	sys.stderr.write(
	'[ OK ] {} {} (ingest: {} ms, query: {} ms)\n'.format(
	os.path.basename(test.query_path_or_metric),
	os.path.basename(trace_path),
	perf_result.ingest_time_ns / 1000000,
	perf_result.real_time_ns / 1000000))

	return test_failure, perf_data, rebased


	def read_all_tests_from_index(index_path, query_metric_pattern, trace_pattern):
	index_dir = os.path.dirname(index_path)

	with open(index_path, 'r') as index_file:
	index_lines = index_file.readlines()

	tests = []
	for line in index_lines:
	stripped = line.strip()
	if stripped.startswith('#'):
	continue
	elif not stripped:
	continue

	[trace_fname, query_fname_or_metric, expected_fname] = stripped.split(' ')
	if not query_metric_pattern.match(os.path.basename(query_fname_or_metric)):
	continue

	if not trace_pattern.match(os.path.basename(trace_fname)):
	continue

	trace_path = os.path.abspath(os.path.join(index_dir, trace_fname))
	expected_path = os.path.abspath(os.path.join(index_dir, expected_fname))

	if query_fname_or_metric.endswith('.sql'):
	test_type = 'queries'
	query_path_or_metric = os.path.abspath(
	os.path.join(index_dir, query_fname_or_metric))
	else:
	test_type = 'metrics'
	query_path_or_metric = query_fname_or_metric

	tests.append(
	Test(test_type, trace_path, query_path_or_metric, expected_path))
	return tests


	def read_all_tests(query_metric_pattern, trace_pattern):
	include_index_dir = os.path.join(ROOT_DIR, 'test', 'trace_processor')
	include_index = os.path.join(include_index_dir, 'include_index')
	tests = []
	with open(include_index, 'r') as include_file:
	for index_relpath in include_file.readlines():
	index_path = os.path.join(include_index_dir, index_relpath.strip())
	tests.extend(
	read_all_tests_from_index(index_path, query_metric_pattern,
	trace_pattern))
	return tests


	def main():
	parser = argparse.ArgumentParser()
	parser.add_argument('--test-type', type=str, default='all')
	parser.add_argument('--trace-descriptor', type=str)
	parser.add_argument('--metrics-descriptor', type=str)
	parser.add_argument('--perf-file', type=str)
	parser.add_argument(
	'--query-metric-filter',
	default='.*',
	type=str,
	help=
	'Filter the name of query files or metrics to diff test (regex syntax)')
	parser.add_argument(
	'--trace-filter',
	default='.*',
	type=str,
	help='Filter the name of trace files to diff test (regex syntax)')
	parser.add_argument(
	'--keep-input',
	action='store_true',
	help='Save the (generated) input pb file for debugging')
	parser.add_argument(
	'--rebase',
	action='store_true',
	help='Update the expected output file with the actual result')
	parser.add_argument(
	'trace_processor', type=str, help='location of trace processor binary')
	args = parser.parse_args()

	query_metric_pattern = re.compile(args.query_metric_filter)
	trace_pattern = re.compile(args.trace_filter)

	tests = read_all_tests(query_metric_pattern, trace_pattern)
	sys.stderr.write('[==========] Running {} tests.\n'.format(len(tests)))

	out_path = os.path.dirname(args.trace_processor)
	if args.trace_descriptor:
	trace_descriptor_path = args.trace_descriptor
	else:
	def find_trace_descriptor(parent):
	trace_protos_path = os.path.join(parent, 'gen', 'protos', 'perfetto',
	'trace')
	return os.path.join(trace_protos_path, 'trace.descriptor')

	trace_descriptor_path = find_trace_descriptor(out_path)
	if not os.path.exists(trace_descriptor_path):
	trace_descriptor_path = find_trace_descriptor(
	os.path.join(out_path, 'gcc_like_host'))


	if args.metrics_descriptor:
	metrics_descriptor_paths = [args.metrics_descriptor]
	else:
	metrics_protos_path = os.path.join(out_path, 'gen', 'protos', 'perfetto',
	'metrics')
	metrics_descriptor_paths = [
	os.path.join(metrics_protos_path, 'metrics.descriptor'),
	os.path.join(metrics_protos_path, 'chrome',
	'all_chrome_metrics.descriptor')
	]

	chrome_extensions = os.path.join(out_path, 'gen', 'protos', 'third_party',
	'chromium', 'chrome_track_event.descriptor')
	test_extensions = os.path.join(out_path, 'gen', 'protos', 'perfetto', 'trace',
	'test_extensions.descriptor')

	metrics_message_factory = create_metrics_message_factory(
	metrics_descriptor_paths)

	test_run_start = datetime.datetime.now()
	test_failure, perf_data, rebased = run_all_tests(
	args.trace_processor, trace_descriptor_path,
	[chrome_extensions, test_extensions], metrics_message_factory, tests,
	args.keep_input, args.rebase)
	test_run_end = datetime.datetime.now()

	sys.stderr.write('[==========] {} tests ran. ({} ms total)\n'.format(
	len(tests), int((test_run_end - test_run_start).total_seconds() * 1000)))
	sys.stderr.write('[ PASSED ] {} tests.\n'.format(len(tests) - test_failure))
	if args.rebase:
	sys.stderr.write('{} tests rebased.\n'.format(rebased))

	if test_failure == 0:
	if args.perf_file:
	test_dir = os.path.join(ROOT_DIR, 'test')
	trace_processor_dir = os.path.join(test_dir, 'trace_processor')

	metrics = []
	sorted_data = sorted(
	perf_data,
	key=lambda x: (x.test_type, x.trace_path, x.query_path_or_metric))
	for perf_args in sorted_data:
	trace_short_path = os.path.relpath(perf_args.trace_path, test_dir)

	query_short_path_or_metric = perf_args.query_path_or_metric
	if perf_args.test_type == 'queries':
	query_short_path_or_metric = os.path.relpath(
	perf_args.query_path_or_metric, trace_processor_dir)

	metrics.append({
	'metric': 'tp_perf_test_ingest_time',
	'value': float(perf_args.ingest_time_ns) / 1.0e9,
	'unit': 's',
	'tags': {
	'test_name':
	'{}-{}'.format(trace_short_path,
	query_short_path_or_metric),
	'test_type':
	perf_args.test_type,
	},
	'labels': {},
	})
	metrics.append({
	'metric': 'perf_test_real_time',
	'value': float(perf_args.real_time_ns) / 1.0e9,
	'unit': 's',
	'tags': {
	'test_name':
	'{}-{}'.format(
	os.path.relpath(perf_args.trace_path, test_dir),
	query_short_path_or_metric),
	'test_type':
	perf_args.test_type,
	},
	'labels': {},
	})

	output_data = {'metrics': metrics}
	with open(args.perf_file, 'w+') as perf_file:
	perf_file.write(json.dumps(output_data, indent=2))
	return 0
	else:
	sys.stderr.write('[ FAILED ] {} tests.\n'.format(test_failure))
	return 1


	if __name__ == '__main__':
	sys.exit(main())