tests/scripts/analyze_outcomes.py - third_party/github/ARMmbed/mbedtls - Git at Google

 #!/usr/bin/env python3

 """Analyze the test outcomes from a full CI run.

 This script can also run on outcomes from a partial run, but the results are
 less likely to be useful.
 """

 import argparse
 import sys
 import traceback
 import re

 import check_test_cases

 class Results:
     """Process analysis results."""

     def __init__(self):
         self.error_count = 0
         self.warning_count = 0

     @staticmethod
     def log(fmt, *args, **kwargs):
         sys.stderr.write((fmt + '\n').format(*args, **kwargs))

     def error(self, fmt, *args, **kwargs):
         self.log('Error: ' + fmt, *args, **kwargs)
         self.error_count += 1

     def warning(self, fmt, *args, **kwargs):
         self.log('Warning: ' + fmt, *args, **kwargs)
         self.warning_count += 1

 class TestCaseOutcomes:
     """The outcomes of one test case across many configurations."""
     # pylint: disable=too-few-public-methods

     def __init__(self):
         # Collect a list of witnesses of the test case succeeding or failing.
         # Currently we don't do anything with witnesses except count them.
         # The format of a witness is determined by the read_outcome_file
         # function; it's the platform and configuration joined by ';'.
         self.successes = []
         self.failures = []

     def hits(self):
         """Return the number of times a test case has been run.

         This includes passes and failures, but not skips.
         """
         return len(self.successes) + len(self.failures)

 def analyze_coverage(results, outcomes):
     """Check that all available test cases are executed at least once."""
     available = check_test_cases.collect_available_test_cases()
     for key in available:
         hits = outcomes[key].hits() if key in outcomes else 0
         if hits == 0:
             # Make this a warning, not an error, as long as we haven't
             # fixed this branch to have full coverage of test cases.
             results.warning('Test case not executed: {}', key)

 def analyze_driver_vs_reference(outcomes, component_ref, component_driver, ignored_tests):
     """Check that all tests executed in the reference component are also
     executed in the corresponding driver component.
     Skip test suites provided in ignored_tests list.
     """
     available = check_test_cases.collect_available_test_cases()
     result = True

     for key in available:
         # Skip ignored test suites
         test_suite = key.split(';')[0] # retrieve test suit name
         test_suite = test_suite.split('.')[0] # retrieve main part of test suit name
         if test_suite in ignored_tests:
             continue
         # Continue if test was not executed by any component
         hits = outcomes[key].hits() if key in outcomes else 0
         if hits == 0:
             continue
         # Search for tests that run in reference component and not in driver component
         driver_test_passed = False
         reference_test_passed = False
         for entry in outcomes[key].successes:
             if component_driver in entry:
                 driver_test_passed = True
             if component_ref in entry:
                 reference_test_passed = True
         if(driver_test_passed is False and reference_test_passed is True):
             print('{}: driver: skipped/failed; reference: passed'.format(key))
             result = False
     return result

 def analyze_outcomes(outcomes):
     """Run all analyses on the given outcome collection."""
     results = Results()
     analyze_coverage(results, outcomes)
     return results

 def read_outcome_file(outcome_file):
     """Parse an outcome file and return an outcome collection.

 An outcome collection is a dictionary mapping keys to TestCaseOutcomes objects.
 The keys are the test suite name and the test case description, separated
 by a semicolon.
 """
     outcomes = {}
     with open(outcome_file, 'r', encoding='utf-8') as input_file:
         for line in input_file:
             (platform, config, suite, case, result, _cause) = line.split(';')
             key = ';'.join([suite, case])
             setup = ';'.join([platform, config])
             if key not in outcomes:
                 outcomes[key] = TestCaseOutcomes()
             if result == 'PASS':
                 outcomes[key].successes.append(setup)
             elif result == 'FAIL':
                 outcomes[key].failures.append(setup)
     return outcomes

 def do_analyze_coverage(outcome_file, args):
     """Perform coverage analysis."""
     del args # unused
     outcomes = read_outcome_file(outcome_file)
     results = analyze_outcomes(outcomes)
     return results.error_count == 0

 def do_analyze_driver_vs_reference(outcome_file, args):
     """Perform driver vs reference analyze."""
     ignored_tests = ['test_suite_' + x for x in args['ignored_suites']]

     outcomes = read_outcome_file(outcome_file)
     return analyze_driver_vs_reference(outcomes, args['component_ref'],
                                        args['component_driver'], ignored_tests)

 # List of tasks with a function that can handle this task and additional arguments if required
 TASKS = {
     'analyze_coverage':                 {
         'test_function': do_analyze_coverage,
         'args': {}},
     'analyze_driver_vs_reference_hash': {
         'test_function': do_analyze_driver_vs_reference,
         'args': {
             'component_ref': 'test_psa_crypto_config_reference_hash_use_psa',
             'component_driver': 'test_psa_crypto_config_accel_hash_use_psa',
             'ignored_suites': ['shax', 'mdx', # the software implementations that are being excluded
                                'md',  # the legacy abstraction layer that's being excluded
                               ]}}
 }

 def main():
     try:
         parser = argparse.ArgumentParser(description=__doc__)
         parser.add_argument('outcomes', metavar='OUTCOMES.CSV',
                             help='Outcome file to analyze')
         parser.add_argument('task', default='all', nargs='?',
                             help='Analysis to be done. By default, run all tasks. '
                                  'With one or more TASK, run only those. '
                                  'TASK can be the name of a single task or '
                                  'comma/space-separated list of tasks. ')
         parser.add_argument('--list', action='store_true',
                             help='List all available tasks and exit.')
         options = parser.parse_args()

         if options.list:
             for task in TASKS:
                 print(task)
             sys.exit(0)

         result = True

         if options.task == 'all':
             tasks = TASKS.keys()
         else:
             tasks = re.split(r'[, ]+', options.task)

             for task in tasks:
                 if task not in TASKS:
                     print('Error: invalid task: {}'.format(task))
                     sys.exit(1)

         for task in TASKS:
             if task in tasks:
                 if not TASKS[task]['test_function'](options.outcomes, TASKS[task]['args']):
                     result = False

         if result is False:
             sys.exit(1)
         print("SUCCESS :-)")
     except Exception: # pylint: disable=broad-except
         # Print the backtrace and exit explicitly with our chosen status.
         traceback.print_exc()
         sys.exit(120)

 if __name__ == '__main__':
     main()
	#!/usr/bin/env python3

	"""Analyze the test outcomes from a full CI run.

	This script can also run on outcomes from a partial run, but the results are
	less likely to be useful.
	"""

	import argparse
	import sys
	import traceback
	import re

	import check_test_cases

	class Results:
	"""Process analysis results."""

	def __init__(self):
	self.error_count = 0
	self.warning_count = 0

	@staticmethod
	def log(fmt, args, *kwargs):
	sys.stderr.write((fmt + '\n').format(args, *kwargs))

	def error(self, fmt, args, *kwargs):
	self.log('Error: ' + fmt, args, *kwargs)
	self.error_count += 1

	def warning(self, fmt, args, *kwargs):
	self.log('Warning: ' + fmt, args, *kwargs)
	self.warning_count += 1

	class TestCaseOutcomes:
	"""The outcomes of one test case across many configurations."""
	# pylint: disable=too-few-public-methods

	def __init__(self):
	# Collect a list of witnesses of the test case succeeding or failing.
	# Currently we don't do anything with witnesses except count them.
	# The format of a witness is determined by the read_outcome_file
	# function; it's the platform and configuration joined by ';'.
	self.successes = []
	self.failures = []

	def hits(self):
	"""Return the number of times a test case has been run.

	This includes passes and failures, but not skips.
	"""
	return len(self.successes) + len(self.failures)

	def analyze_coverage(results, outcomes):
	"""Check that all available test cases are executed at least once."""
	available = check_test_cases.collect_available_test_cases()
	for key in available:
	hits = outcomes[key].hits() if key in outcomes else 0
	if hits == 0:
	# Make this a warning, not an error, as long as we haven't
	# fixed this branch to have full coverage of test cases.
	results.warning('Test case not executed: {}', key)

	def analyze_driver_vs_reference(outcomes, component_ref, component_driver, ignored_tests):
	"""Check that all tests executed in the reference component are also
	executed in the corresponding driver component.
	Skip test suites provided in ignored_tests list.
	"""
	available = check_test_cases.collect_available_test_cases()
	result = True

	for key in available:
	# Skip ignored test suites
	test_suite = key.split(';')[0] # retrieve test suit name
	test_suite = test_suite.split('.')[0] # retrieve main part of test suit name
	if test_suite in ignored_tests:
	continue
	# Continue if test was not executed by any component
	hits = outcomes[key].hits() if key in outcomes else 0
	if hits == 0:
	continue
	# Search for tests that run in reference component and not in driver component
	driver_test_passed = False
	reference_test_passed = False
	for entry in outcomes[key].successes:
	if component_driver in entry:
	driver_test_passed = True
	if component_ref in entry:
	reference_test_passed = True
	if(driver_test_passed is False and reference_test_passed is True):
	print('{}: driver: skipped/failed; reference: passed'.format(key))
	result = False
	return result

	def analyze_outcomes(outcomes):
	"""Run all analyses on the given outcome collection."""
	results = Results()
	analyze_coverage(results, outcomes)
	return results

	def read_outcome_file(outcome_file):
	"""Parse an outcome file and return an outcome collection.

	An outcome collection is a dictionary mapping keys to TestCaseOutcomes objects.
	The keys are the test suite name and the test case description, separated
	by a semicolon.
	"""
	outcomes = {}
	with open(outcome_file, 'r', encoding='utf-8') as input_file:
	for line in input_file:
	(platform, config, suite, case, result, _cause) = line.split(';')
	key = ';'.join([suite, case])
	setup = ';'.join([platform, config])
	if key not in outcomes:
	outcomes[key] = TestCaseOutcomes()
	if result == 'PASS':
	outcomes[key].successes.append(setup)
	elif result == 'FAIL':
	outcomes[key].failures.append(setup)
	return outcomes

	def do_analyze_coverage(outcome_file, args):
	"""Perform coverage analysis."""
	del args # unused
	outcomes = read_outcome_file(outcome_file)
	results = analyze_outcomes(outcomes)
	return results.error_count == 0

	def do_analyze_driver_vs_reference(outcome_file, args):
	"""Perform driver vs reference analyze."""
	ignored_tests = ['test_suite_' + x for x in args['ignored_suites']]

	outcomes = read_outcome_file(outcome_file)
	return analyze_driver_vs_reference(outcomes, args['component_ref'],
	args['component_driver'], ignored_tests)

	# List of tasks with a function that can handle this task and additional arguments if required
	TASKS = {
	'analyze_coverage': {
	'test_function': do_analyze_coverage,
	'args': {}},
	'analyze_driver_vs_reference_hash': {
	'test_function': do_analyze_driver_vs_reference,
	'args': {
	'component_ref': 'test_psa_crypto_config_reference_hash_use_psa',
	'component_driver': 'test_psa_crypto_config_accel_hash_use_psa',
	'ignored_suites': ['shax', 'mdx', # the software implementations that are being excluded
	'md', # the legacy abstraction layer that's being excluded
	]}}
	}

	def main():
	try:
	parser = argparse.ArgumentParser(description=__doc__)
	parser.add_argument('outcomes', metavar='OUTCOMES.CSV',
	help='Outcome file to analyze')
	parser.add_argument('task', default='all', nargs='?',
	help='Analysis to be done. By default, run all tasks. '
	'With one or more TASK, run only those. '
	'TASK can be the name of a single task or '
	'comma/space-separated list of tasks. ')
	parser.add_argument('--list', action='store_true',
	help='List all available tasks and exit.')
	options = parser.parse_args()

	if options.list:
	for task in TASKS:
	print(task)
	sys.exit(0)

	result = True

	if options.task == 'all':
	tasks = TASKS.keys()
	else:
	tasks = re.split(r'[, ]+', options.task)

	for task in tasks:
	if task not in TASKS:
	print('Error: invalid task: {}'.format(task))
	sys.exit(1)

	for task in TASKS:
	if task in tasks:
	if not TASKS[task]['test_function'](options.outcomes, TASKS[task]['args']):
	result = False

	if result is False:
	sys.exit(1)
	print("SUCCESS :-)")
	except Exception: # pylint: disable=broad-except
	# Print the backtrace and exit explicitly with our chosen status.
	traceback.print_exc()
	sys.exit(120)

	if __name__ == '__main__':
	main()