build/code_coverage/merge_lib.py - platform/external/openscreen - Git at Google

 #!/usr/bin/env/python
 # Copyright 2020 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.
 """Functions for interacting with llvm-profdata

 This script is taken from the chromium build tools and is synced
 manually on an as-needed basis:
 https://source.chromium.org/chromium/chromium/src/+/master:testing/merge_scripts/code_coverage/merge_lib.py
 """

 import logging
 import multiprocessing
 import os
 import re
 import shutil
 import subprocess

 _DIR_SOURCE_ROOT = os.path.normpath(
     os.path.join(os.path.dirname(__file__), '..', '..', '..'))

 _JAVA_PATH = os.path.join(_DIR_SOURCE_ROOT, 'third_party', 'jdk', 'current',
                           'bin', 'java')

 logging.basicConfig(
     format='[%(asctime)s %(levelname)s] %(message)s', level=logging.DEBUG)


 def _call_profdata_tool(profile_input_file_paths,
                         profile_output_file_path,
                         profdata_tool_path,
                         sparse=True):
   """Calls the llvm-profdata tool.

   Args:
     profile_input_file_paths: A list of relative paths to the files that
         are to be merged.
     profile_output_file_path: The path to the merged file to write.
     profdata_tool_path: The path to the llvm-profdata executable.
     sparse (bool): flag to indicate whether to run llvm-profdata with --sparse.
       Doc: https://llvm.org/docs/CommandGuide/llvm-profdata.html#profdata-merge

   Returns:
     A list of paths to profiles that had to be excluded to get the merge to
     succeed, suspected of being corrupted or malformed.

   Raises:
     CalledProcessError: An error occurred merging profiles.
   """
   logging.debug('Profile input paths: %r' % profile_input_file_paths)
   logging.debug('Profile output path: %r' % profile_output_file_path)
   try:
     subprocess_cmd = [
         profdata_tool_path, 'merge', '-o', profile_output_file_path,
     ]
     if sparse:
       subprocess_cmd += ['-sparse=true',]
     subprocess_cmd.extend(profile_input_file_paths)
     logging.info('profdata command: %r', ' '.join(subprocess_cmd))

     # Redirecting stderr is required because when error happens, llvm-profdata
     # writes the error output to stderr and our error handling logic relies on
     # that output.
     output = subprocess.check_output(subprocess_cmd, stderr=subprocess.STDOUT)
     logging.info('Merge succeeded with output: %r', output)
   except subprocess.CalledProcessError as error:
     logging.error('Failed to merge profiles, return code (%d), output: %r' %
                   (error.returncode, error.output))
     raise error

   logging.info('Profile data is created as: "%r".', profile_output_file_path)
   return []


 def _get_profile_paths(input_dir,
                        input_extension,
                        input_filename_pattern='.*'):
   """Finds all the profiles in the given directory (recursively)."""
   paths = []
   for dir_path, _sub_dirs, file_names in os.walk(input_dir):
     paths.extend([
         os.path.join(dir_path, fn)
         for fn in file_names
         if fn.endswith(input_extension) and re.search(input_filename_pattern,fn)
     ])
   return paths


 def _validate_and_convert_profraws(profraw_files,
                                    profdata_tool_path,
                                    sparse=True):
   """Validates and converts profraws to profdatas.

   For each given .profraw file in the input, this method first validates it by
   trying to convert it to an indexed .profdata file, and if the validation and
   conversion succeeds, the generated .profdata file will be included in the
   output, otherwise, won't.

   This method is mainly used to filter out invalid profraw files.

   Args:
     profraw_files: A list of .profraw paths.
     profdata_tool_path: The path to the llvm-profdata executable.
     sparse (bool): flag to indicate whether to run llvm-profdata with --sparse.
       Doc: https://llvm.org/docs/CommandGuide/llvm-profdata.html#profdata-merge

   Returns:
     A tulple:
       A list of converted .profdata files of *valid* profraw files.
       A list of *invalid* profraw files.
       A list of profraw files that have counter overflows.
   """
   for profraw_file in profraw_files:
     if not profraw_file.endswith('.profraw'):
       raise RuntimeError('%r is expected to be a .profraw file.' % profraw_file)

   cpu_count = multiprocessing.cpu_count()
   counts = max(10, cpu_count - 5)  # Use 10+ processes, but leave 5 cpu cores.
   pool = multiprocessing.Pool(counts)
   output_profdata_files = multiprocessing.Manager().list()
   invalid_profraw_files = multiprocessing.Manager().list()
   counter_overflows = multiprocessing.Manager().list()

   for profraw_file in profraw_files:
     logging.info('Converting profraw file: %r', profraw_file)
     pool.apply_async(
         _validate_and_convert_profraw,
         (profraw_file, output_profdata_files, invalid_profraw_files,
          counter_overflows, profdata_tool_path, sparse))

   pool.close()
   pool.join()

   # Remove inputs, as they won't be needed and they can be pretty large.
   for input_file in profraw_files:
     os.remove(input_file)

   return list(output_profdata_files), list(invalid_profraw_files), list(
       counter_overflows)


 def _validate_and_convert_profraw(profraw_file, output_profdata_files,
                                   invalid_profraw_files, counter_overflows,
                                   profdata_tool_path, sparse=True):
   output_profdata_file = profraw_file.replace('.profraw', '.profdata')
   subprocess_cmd = [
       profdata_tool_path,
       'merge',
       '-o',
       output_profdata_file,
   ]
   if sparse:
     subprocess_cmd.append('--sparse')

   subprocess_cmd.append(profraw_file)

   profile_valid = False
   counter_overflow = False
   validation_output = None

   logging.info('profdata command: %r', ' '.join(subprocess_cmd))

   # 1. Determine if the profile is valid.
   try:
     # Redirecting stderr is required because when error happens, llvm-profdata
     # writes the error output to stderr and our error handling logic relies on
     # that output.
     logging.info('Converting %r to %r', profraw_file, output_profdata_file)
     validation_output = subprocess.check_output(
         subprocess_cmd, stderr=subprocess.STDOUT)
     logging.info('Validating and converting %r to %r succeeded with output: %r',
                  profraw_file, output_profdata_file, validation_output)
     if 'Counter overflow' in validation_output:
       counter_overflow = True
     else:
       profile_valid = True
   except subprocess.CalledProcessError as error:
     logging.warning('Validating and converting %r to %r failed with output: %r',
                     profraw_file, output_profdata_file, error.output)
     validation_output = error.output

   # 2. Add the profile to the appropriate list(s).
   if profile_valid:
     output_profdata_files.append(output_profdata_file)
   else:
     invalid_profraw_files.append(profraw_file)
     if counter_overflow:
       counter_overflows.append(profraw_file)

   # 3. Log appropriate message
   if not profile_valid:
     template = 'Bad profile: %r, output: %r'
     if counter_overflow:
       template = 'Counter overflow: %r, output: %r'
     logging.warning(template, profraw_file, validation_output)

     # 4. Delete profdata for invalid profiles if present.
     if os.path.exists(output_profdata_file):
       # The output file may be created before llvm-profdata determines the
       # input is invalid. Delete it so that it does not leak and affect other
       # merge scripts.
       os.remove(output_profdata_file)

 def merge_java_exec_files(input_dir, output_path, jacococli_path):
   """Merges generated .exec files to output_path.

   Args:
     input_dir (str): The path to traverse to find input files.
     output_path (str): Where to write the merged .exec file.
     jacococli_path: The path to jacococli.jar.

   Raises:
     CalledProcessError: merge command failed.
   """
   exec_input_file_paths = _get_profile_paths(input_dir, '.exec')
   if not exec_input_file_paths:
     logging.info('No exec file found under %s', input_dir)
     return

   cmd = [_JAVA_PATH, '-jar', jacococli_path, 'merge']
   cmd.extend(exec_input_file_paths)
   cmd.extend(['--destfile', output_path])
   output = subprocess.check_output(cmd, stderr=subprocess.STDOUT)
   logging.info('Merge succeeded with output: %r', output)


 def merge_profiles(input_dir,
                    output_file,
                    input_extension,
                    profdata_tool_path,
                    input_filename_pattern='.*',
                    sparse=True,
                    skip_validation=False):
   """Merges the profiles produced by the shards using llvm-profdata.

   Args:
     input_dir (str): The path to traverse to find input profiles.
     output_file (str): Where to write the merged profile.
     input_extension (str): File extension to look for in the input_dir.
         e.g. '.profdata' or '.profraw'
     profdata_tool_path: The path to the llvm-profdata executable.
     input_filename_pattern (str): The regex pattern of input filename. Should be
         a valid regex pattern if present.
     sparse (bool): flag to indicate whether to run llvm-profdata with --sparse.
       Doc: https://llvm.org/docs/CommandGuide/llvm-profdata.html#profdata-merge
     skip_validation (bool): flag to skip the _validate_and_convert_profraws
         invocation. only applicable when input_extension is .profraw.

   Returns:
     The list of profiles that had to be excluded to get the merge to
     succeed and a list of profiles that had a counter overflow.
   """
   profile_input_file_paths = _get_profile_paths(input_dir,
                                                 input_extension,
                                                 input_filename_pattern)
   invalid_profraw_files = []
   counter_overflows = []

   if skip_validation:
     logging.warning('--skip-validation has been enabled. Skipping conversion '
                     'to ensure that profiles are valid.')

   if input_extension == '.profraw' and not skip_validation:
     profile_input_file_paths, invalid_profraw_files, counter_overflows = (
         _validate_and_convert_profraws(profile_input_file_paths,
                                        profdata_tool_path,
                                        sparse=sparse))
     logging.info('List of converted .profdata files: %r',
                  profile_input_file_paths)
     logging.info((
         'List of invalid .profraw files that failed to validate and convert: %r'
     ), invalid_profraw_files)

     if counter_overflows:
       logging.warning('There were %d profiles with counter overflows',
                       len(counter_overflows))

   # The list of input files could be empty in the following scenarios:
   # 1. The test target is pure Python scripts test which doesn't execute any
   #    C/C++ binaries, such as devtools_type_check.
   # 2. The test target executes binary and does dumps coverage profile data
   #    files, however, all of them turned out to be invalid.
   if not profile_input_file_paths:
     logging.info('There is no valid profraw/profdata files to merge, skip '
                  'invoking profdata tools.')
     return invalid_profraw_files, counter_overflows

   invalid_profdata_files = _call_profdata_tool(
       profile_input_file_paths=profile_input_file_paths,
       profile_output_file_path=output_file,
       profdata_tool_path=profdata_tool_path,
       sparse=sparse)

   # Remove inputs when merging profraws as they won't be needed and they can be
   # pretty large. If the inputs are profdata files, do not remove them as they
   # might be used again for multiple test types coverage.
   if input_extension == '.profraw':
     for input_file in profile_input_file_paths:
       os.remove(input_file)

   return invalid_profraw_files + invalid_profdata_files, counter_overflows

 # We want to retry shards that contain one or more profiles that cannot be
 # merged (typically due to corruption described in crbug.com/937521).
 def get_shards_to_retry(bad_profiles):
   bad_shard_ids = set()

   def is_task_id(s):
     # Swarming task ids are 16 hex chars. The pythonic way to validate this is
     # to cast to int and catch a value error.
     try:
       assert len(s) == 16, 'Swarming task IDs are expected be of length 16'
       _int_id = int(s, 16)
       return True
     except (AssertionError, ValueError):
       return False

   for profile in bad_profiles:
     # E.g. /b/s/w/ir/tmp/t/tmpSvBRii/44b643576cf39f10/profraw/default-1.profraw
     _base_path, task_id, _profraw, _filename = os.path.normpath(profile).rsplit(
         os.path.sep, 3)
     # Since we are getting a task_id from a file path, which is less than ideal,
     # do some checking to at least verify that the snippet looks like a valid
     # task id.
     assert is_task_id(task_id)
     bad_shard_ids.add(task_id)
   return bad_shard_ids
	#!/usr/bin/env/python
	# Copyright 2020 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.
	"""Functions for interacting with llvm-profdata

	This script is taken from the chromium build tools and is synced
	manually on an as-needed basis:
	https://source.chromium.org/chromium/chromium/src/+/master:testing/merge_scripts/code_coverage/merge_lib.py
	"""

	import logging
	import multiprocessing
	import os
	import re
	import shutil
	import subprocess

	_DIR_SOURCE_ROOT = os.path.normpath(
	os.path.join(os.path.dirname(__file__), '..', '..', '..'))

	_JAVA_PATH = os.path.join(_DIR_SOURCE_ROOT, 'third_party', 'jdk', 'current',
	'bin', 'java')

	logging.basicConfig(
	format='[%(asctime)s %(levelname)s] %(message)s', level=logging.DEBUG)


	def _call_profdata_tool(profile_input_file_paths,
	profile_output_file_path,
	profdata_tool_path,
	sparse=True):
	"""Calls the llvm-profdata tool.

	Args:
	profile_input_file_paths: A list of relative paths to the files that
	are to be merged.
	profile_output_file_path: The path to the merged file to write.
	profdata_tool_path: The path to the llvm-profdata executable.
	sparse (bool): flag to indicate whether to run llvm-profdata with --sparse.
	Doc: https://llvm.org/docs/CommandGuide/llvm-profdata.html#profdata-merge

	Returns:
	A list of paths to profiles that had to be excluded to get the merge to
	succeed, suspected of being corrupted or malformed.

	Raises:
	CalledProcessError: An error occurred merging profiles.
	"""
	logging.debug('Profile input paths: %r' % profile_input_file_paths)
	logging.debug('Profile output path: %r' % profile_output_file_path)
	try:
	subprocess_cmd = [
	profdata_tool_path, 'merge', '-o', profile_output_file_path,
	]
	if sparse:
	subprocess_cmd += ['-sparse=true',]
	subprocess_cmd.extend(profile_input_file_paths)
	logging.info('profdata command: %r', ' '.join(subprocess_cmd))

	# Redirecting stderr is required because when error happens, llvm-profdata
	# writes the error output to stderr and our error handling logic relies on
	# that output.
	output = subprocess.check_output(subprocess_cmd, stderr=subprocess.STDOUT)
	logging.info('Merge succeeded with output: %r', output)
	except subprocess.CalledProcessError as error:
	logging.error('Failed to merge profiles, return code (%d), output: %r' %
	(error.returncode, error.output))
	raise error

	logging.info('Profile data is created as: "%r".', profile_output_file_path)
	return []


	def _get_profile_paths(input_dir,
	input_extension,
	input_filename_pattern='.*'):
	"""Finds all the profiles in the given directory (recursively)."""
	paths = []
	for dir_path, _sub_dirs, file_names in os.walk(input_dir):
	paths.extend([
	os.path.join(dir_path, fn)
	for fn in file_names
	if fn.endswith(input_extension) and re.search(input_filename_pattern,fn)
	])
	return paths


	def _validate_and_convert_profraws(profraw_files,
	profdata_tool_path,
	sparse=True):
	"""Validates and converts profraws to profdatas.

	For each given .profraw file in the input, this method first validates it by
	trying to convert it to an indexed .profdata file, and if the validation and
	conversion succeeds, the generated .profdata file will be included in the
	output, otherwise, won't.

	This method is mainly used to filter out invalid profraw files.

	Args:
	profraw_files: A list of .profraw paths.
	profdata_tool_path: The path to the llvm-profdata executable.
	sparse (bool): flag to indicate whether to run llvm-profdata with --sparse.
	Doc: https://llvm.org/docs/CommandGuide/llvm-profdata.html#profdata-merge

	Returns:
	A tulple:
	A list of converted .profdata files of valid profraw files.
	A list of invalid profraw files.
	A list of profraw files that have counter overflows.
	"""
	for profraw_file in profraw_files:
	if not profraw_file.endswith('.profraw'):
	raise RuntimeError('%r is expected to be a .profraw file.' % profraw_file)

	cpu_count = multiprocessing.cpu_count()
	counts = max(10, cpu_count - 5) # Use 10+ processes, but leave 5 cpu cores.
	pool = multiprocessing.Pool(counts)
	output_profdata_files = multiprocessing.Manager().list()
	invalid_profraw_files = multiprocessing.Manager().list()
	counter_overflows = multiprocessing.Manager().list()

	for profraw_file in profraw_files:
	logging.info('Converting profraw file: %r', profraw_file)
	pool.apply_async(
	_validate_and_convert_profraw,
	(profraw_file, output_profdata_files, invalid_profraw_files,
	counter_overflows, profdata_tool_path, sparse))

	pool.close()
	pool.join()

	# Remove inputs, as they won't be needed and they can be pretty large.
	for input_file in profraw_files:
	os.remove(input_file)

	return list(output_profdata_files), list(invalid_profraw_files), list(
	counter_overflows)


	def _validate_and_convert_profraw(profraw_file, output_profdata_files,
	invalid_profraw_files, counter_overflows,
	profdata_tool_path, sparse=True):
	output_profdata_file = profraw_file.replace('.profraw', '.profdata')
	subprocess_cmd = [
	profdata_tool_path,
	'merge',
	'-o',
	output_profdata_file,
	]
	if sparse:
	subprocess_cmd.append('--sparse')

	subprocess_cmd.append(profraw_file)

	profile_valid = False
	counter_overflow = False
	validation_output = None

	logging.info('profdata command: %r', ' '.join(subprocess_cmd))

	# 1. Determine if the profile is valid.
	try:
	# Redirecting stderr is required because when error happens, llvm-profdata
	# writes the error output to stderr and our error handling logic relies on
	# that output.
	logging.info('Converting %r to %r', profraw_file, output_profdata_file)
	validation_output = subprocess.check_output(
	subprocess_cmd, stderr=subprocess.STDOUT)
	logging.info('Validating and converting %r to %r succeeded with output: %r',
	profraw_file, output_profdata_file, validation_output)
	if 'Counter overflow' in validation_output:
	counter_overflow = True
	else:
	profile_valid = True
	except subprocess.CalledProcessError as error:
	logging.warning('Validating and converting %r to %r failed with output: %r',
	profraw_file, output_profdata_file, error.output)
	validation_output = error.output

	# 2. Add the profile to the appropriate list(s).
	if profile_valid:
	output_profdata_files.append(output_profdata_file)
	else:
	invalid_profraw_files.append(profraw_file)
	if counter_overflow:
	counter_overflows.append(profraw_file)

	# 3. Log appropriate message
	if not profile_valid:
	template = 'Bad profile: %r, output: %r'
	if counter_overflow:
	template = 'Counter overflow: %r, output: %r'
	logging.warning(template, profraw_file, validation_output)

	# 4. Delete profdata for invalid profiles if present.
	if os.path.exists(output_profdata_file):
	# The output file may be created before llvm-profdata determines the
	# input is invalid. Delete it so that it does not leak and affect other
	# merge scripts.
	os.remove(output_profdata_file)

	def merge_java_exec_files(input_dir, output_path, jacococli_path):
	"""Merges generated .exec files to output_path.

	Args:
	input_dir (str): The path to traverse to find input files.
	output_path (str): Where to write the merged .exec file.
	jacococli_path: The path to jacococli.jar.

	Raises:
	CalledProcessError: merge command failed.
	"""
	exec_input_file_paths = _get_profile_paths(input_dir, '.exec')
	if not exec_input_file_paths:
	logging.info('No exec file found under %s', input_dir)
	return

	cmd = [_JAVA_PATH, '-jar', jacococli_path, 'merge']
	cmd.extend(exec_input_file_paths)
	cmd.extend(['--destfile', output_path])
	output = subprocess.check_output(cmd, stderr=subprocess.STDOUT)
	logging.info('Merge succeeded with output: %r', output)


	def merge_profiles(input_dir,
	output_file,
	input_extension,
	profdata_tool_path,
	input_filename_pattern='.*',
	sparse=True,
	skip_validation=False):
	"""Merges the profiles produced by the shards using llvm-profdata.

	Args:
	input_dir (str): The path to traverse to find input profiles.
	output_file (str): Where to write the merged profile.
	input_extension (str): File extension to look for in the input_dir.
	e.g. '.profdata' or '.profraw'
	profdata_tool_path: The path to the llvm-profdata executable.
	input_filename_pattern (str): The regex pattern of input filename. Should be
	a valid regex pattern if present.
	sparse (bool): flag to indicate whether to run llvm-profdata with --sparse.
	Doc: https://llvm.org/docs/CommandGuide/llvm-profdata.html#profdata-merge
	skip_validation (bool): flag to skip the _validate_and_convert_profraws
	invocation. only applicable when input_extension is .profraw.

	Returns:
	The list of profiles that had to be excluded to get the merge to
	succeed and a list of profiles that had a counter overflow.
	"""
	profile_input_file_paths = _get_profile_paths(input_dir,
	input_extension,
	input_filename_pattern)
	invalid_profraw_files = []
	counter_overflows = []

	if skip_validation:
	logging.warning('--skip-validation has been enabled. Skipping conversion '
	'to ensure that profiles are valid.')

	if input_extension == '.profraw' and not skip_validation:
	profile_input_file_paths, invalid_profraw_files, counter_overflows = (
	_validate_and_convert_profraws(profile_input_file_paths,
	profdata_tool_path,
	sparse=sparse))
	logging.info('List of converted .profdata files: %r',
	profile_input_file_paths)
	logging.info((
	'List of invalid .profraw files that failed to validate and convert: %r'
	), invalid_profraw_files)

	if counter_overflows:
	logging.warning('There were %d profiles with counter overflows',
	len(counter_overflows))

	# The list of input files could be empty in the following scenarios:
	# 1. The test target is pure Python scripts test which doesn't execute any
	# C/C++ binaries, such as devtools_type_check.
	# 2. The test target executes binary and does dumps coverage profile data
	# files, however, all of them turned out to be invalid.
	if not profile_input_file_paths:
	logging.info('There is no valid profraw/profdata files to merge, skip '
	'invoking profdata tools.')
	return invalid_profraw_files, counter_overflows

	invalid_profdata_files = _call_profdata_tool(
	profile_input_file_paths=profile_input_file_paths,
	profile_output_file_path=output_file,
	profdata_tool_path=profdata_tool_path,
	sparse=sparse)

	# Remove inputs when merging profraws as they won't be needed and they can be
	# pretty large. If the inputs are profdata files, do not remove them as they
	# might be used again for multiple test types coverage.
	if input_extension == '.profraw':
	for input_file in profile_input_file_paths:
	os.remove(input_file)

	return invalid_profraw_files + invalid_profdata_files, counter_overflows

	# We want to retry shards that contain one or more profiles that cannot be
	# merged (typically due to corruption described in crbug.com/937521).
	def get_shards_to_retry(bad_profiles):
	bad_shard_ids = set()

	def is_task_id(s):
	# Swarming task ids are 16 hex chars. The pythonic way to validate this is
	# to cast to int and catch a value error.
	try:
	assert len(s) == 16, 'Swarming task IDs are expected be of length 16'
	_int_id = int(s, 16)
	return True
	except (AssertionError, ValueError):
	return False

	for profile in bad_profiles:
	# E.g. /b/s/w/ir/tmp/t/tmpSvBRii/44b643576cf39f10/profraw/default-1.profraw
	_base_path, task_id, _profraw, _filename = os.path.normpath(profile).rsplit(
	os.path.sep, 3)
	# Since we are getting a task_id from a file path, which is less than ideal,
	# do some checking to at least verify that the snippet looks like a valid
	# task id.
	assert is_task_id(task_id)
	bad_shard_ids.add(task_id)
	return bad_shard_ids