tools/testing/kunit/kunit_parser.py - linux/kernel/git/bpf/bpf-next - Git at Google

 # SPDX-License-Identifier: GPL-2.0
 #
 # Parses test results from a kernel dmesg log.
 #
 # Copyright (C) 2019, Google LLC.
 # Author: Felix Guo <felixguoxiuping@gmail.com>
 # Author: Brendan Higgins <brendanhiggins@google.com>

 import re

 from collections import namedtuple
 from datetime import datetime
 from enum import Enum, auto
 from functools import reduce
 from typing import Iterable, Iterator, List, Optional, Tuple

 TestResult = namedtuple('TestResult', ['status','suites','log'])

 class TestSuite(object):
 	def __init__(self) -> None:
 		self.status = TestStatus.SUCCESS
 		self.name = ''
 		self.cases = []  # type: List[TestCase]

 	def __str__(self) -> str:
 		return 'TestSuite(' + str(self.status) + ',' + self.name + ',' + str(self.cases) + ')'

 	def __repr__(self) -> str:
 		return str(self)

 class TestCase(object):
 	def __init__(self) -> None:
 		self.status = TestStatus.SUCCESS
 		self.name = ''
 		self.log = []  # type: List[str]

 	def __str__(self) -> str:
 		return 'TestCase(' + str(self.status) + ',' + self.name + ',' + str(self.log) + ')'

 	def __repr__(self) -> str:
 		return str(self)

 class TestStatus(Enum):
 	SUCCESS = auto()
 	FAILURE = auto()
 	SKIPPED = auto()
 	TEST_CRASHED = auto()
 	NO_TESTS = auto()
 	FAILURE_TO_PARSE_TESTS = auto()

 class LineStream:
 	"""Provides a peek()/pop() interface over an iterator of (line#, text)."""
 	_lines: Iterator[Tuple[int, str]]
 	_next: Tuple[int, str]
 	_done: bool

 	def __init__(self, lines: Iterator[Tuple[int, str]]):
 		self._lines = lines
 		self._done = False
 		self._next = (0, '')
 		self._get_next()

 	def _get_next(self) -> None:
 		try:
 			self._next = next(self._lines)
 		except StopIteration:
 			self._done = True

 	def peek(self) -> str:
 		return self._next[1]

 	def pop(self) -> str:
 		n = self._next
 		self._get_next()
 		return n[1]

 	def __bool__(self) -> bool:
 		return not self._done

 	# Only used by kunit_tool_test.py.
 	def __iter__(self) -> Iterator[str]:
 		while bool(self):
 			yield self.pop()

 	def line_number(self) -> int:
 		return self._next[0]

 kunit_start_re = re.compile(r'TAP version [0-9]+$')
 kunit_end_re = re.compile('(List of all partitions:|'
 			  'Kernel panic - not syncing: VFS:|reboot: System halted)')

 def extract_tap_lines(kernel_output: Iterable[str]) -> LineStream:
 	def isolate_kunit_output(kernel_output: Iterable[str]) -> Iterator[Tuple[int, str]]:
 		line_num = 0
 		started = False
 		for line in kernel_output:
 			line_num += 1
 			line = line.rstrip()  # line always has a trailing \n
 			if kunit_start_re.search(line):
 				prefix_len = len(line.split('TAP version')[0])
 				started = True
 				yield line_num, line[prefix_len:]
 			elif kunit_end_re.search(line):
 				break
 			elif started:
 				yield line_num, line[prefix_len:]
 	return LineStream(lines=isolate_kunit_output(kernel_output))

 DIVIDER = '=' * 60

 RESET = '\033[0;0m'

 def red(text) -> str:
 	return '\033[1;31m' + text + RESET

 def yellow(text) -> str:
 	return '\033[1;33m' + text + RESET

 def green(text) -> str:
 	return '\033[1;32m' + text + RESET

 def print_with_timestamp(message) -> None:
 	print('[%s] %s' % (datetime.now().strftime('%H:%M:%S'), message))

 def format_suite_divider(message) -> str:
 	return '======== ' + message + ' ========'

 def print_suite_divider(message) -> None:
 	print_with_timestamp(DIVIDER)
 	print_with_timestamp(format_suite_divider(message))

 def print_log(log) -> None:
 	for m in log:
 		print_with_timestamp(m)

 TAP_ENTRIES = re.compile(r'^(TAP|[\s]*ok|[\s]*not ok|[\s]*[0-9]+\.\.[0-9]+|[\s]*# (Subtest:|.*: kunit test case crashed!)).*$')

 def consume_non_diagnostic(lines: LineStream) -> None:
 	while lines and not TAP_ENTRIES.match(lines.peek()):
 		lines.pop()

 def save_non_diagnostic(lines: LineStream, test_case: TestCase) -> None:
 	while lines and not TAP_ENTRIES.match(lines.peek()):
 		test_case.log.append(lines.peek())
 		lines.pop()

 OkNotOkResult = namedtuple('OkNotOkResult', ['is_ok','description', 'text'])

 OK_NOT_OK_SKIP = re.compile(r'^[\s]*(ok|not ok) [0-9]+ - (.*) # SKIP(.*)$')

 OK_NOT_OK_SUBTEST = re.compile(r'^[\s]+(ok|not ok) [0-9]+ - (.*)$')

 OK_NOT_OK_MODULE = re.compile(r'^(ok|not ok) ([0-9]+) - (.*)$')

 def parse_ok_not_ok_test_case(lines: LineStream, test_case: TestCase) -> bool:
 	save_non_diagnostic(lines, test_case)
 	if not lines:
 		test_case.status = TestStatus.TEST_CRASHED
 		return True
 	line = lines.peek()
 	match = OK_NOT_OK_SUBTEST.match(line)
 	while not match and lines:
 		line = lines.pop()
 		match = OK_NOT_OK_SUBTEST.match(line)
 	if match:
 		test_case.log.append(lines.pop())
 		test_case.name = match.group(2)
 		skip_match = OK_NOT_OK_SKIP.match(line)
 		if skip_match:
 			test_case.status = TestStatus.SKIPPED
 			return True
 		if test_case.status == TestStatus.TEST_CRASHED:
 			return True
 		if match.group(1) == 'ok':
 			test_case.status = TestStatus.SUCCESS
 		else:
 			test_case.status = TestStatus.FAILURE
 		return True
 	else:
 		return False

 SUBTEST_DIAGNOSTIC = re.compile(r'^[\s]+# (.*)$')
 DIAGNOSTIC_CRASH_MESSAGE = re.compile(r'^[\s]+# .*?: kunit test case crashed!$')

 def parse_diagnostic(lines: LineStream, test_case: TestCase) -> bool:
 	save_non_diagnostic(lines, test_case)
 	if not lines:
 		return False
 	line = lines.peek()
 	match = SUBTEST_DIAGNOSTIC.match(line)
 	if match:
 		test_case.log.append(lines.pop())
 		crash_match = DIAGNOSTIC_CRASH_MESSAGE.match(line)
 		if crash_match:
 			test_case.status = TestStatus.TEST_CRASHED
 		return True
 	else:
 		return False

 def parse_test_case(lines: LineStream) -> Optional[TestCase]:
 	test_case = TestCase()
 	save_non_diagnostic(lines, test_case)
 	while parse_diagnostic(lines, test_case):
 		pass
 	if parse_ok_not_ok_test_case(lines, test_case):
 		return test_case
 	else:
 		return None

 SUBTEST_HEADER = re.compile(r'^[\s]+# Subtest: (.*)$')

 def parse_subtest_header(lines: LineStream) -> Optional[str]:
 	consume_non_diagnostic(lines)
 	if not lines:
 		return None
 	match = SUBTEST_HEADER.match(lines.peek())
 	if match:
 		lines.pop()
 		return match.group(1)
 	else:
 		return None

 SUBTEST_PLAN = re.compile(r'[\s]+[0-9]+\.\.([0-9]+)')

 def parse_subtest_plan(lines: LineStream) -> Optional[int]:
 	consume_non_diagnostic(lines)
 	match = SUBTEST_PLAN.match(lines.peek())
 	if match:
 		lines.pop()
 		return int(match.group(1))
 	else:
 		return None

 def max_status(left: TestStatus, right: TestStatus) -> TestStatus:
 	if left == right:
 		return left
 	elif left == TestStatus.TEST_CRASHED or right == TestStatus.TEST_CRASHED:
 		return TestStatus.TEST_CRASHED
 	elif left == TestStatus.FAILURE or right == TestStatus.FAILURE:
 		return TestStatus.FAILURE
 	elif left == TestStatus.SKIPPED:
 		return right
 	else:
 		return left

 def parse_ok_not_ok_test_suite(lines: LineStream,
 			       test_suite: TestSuite,
 			       expected_suite_index: int) -> bool:
 	consume_non_diagnostic(lines)
 	if not lines:
 		test_suite.status = TestStatus.TEST_CRASHED
 		return False
 	line = lines.peek()
 	match = OK_NOT_OK_MODULE.match(line)
 	if match:
 		lines.pop()
 		if match.group(1) == 'ok':
 			test_suite.status = TestStatus.SUCCESS
 		else:
 			test_suite.status = TestStatus.FAILURE
 		skip_match = OK_NOT_OK_SKIP.match(line)
 		if skip_match:
 			test_suite.status = TestStatus.SKIPPED
 		suite_index = int(match.group(2))
 		if suite_index != expected_suite_index:
 			print_with_timestamp(
 				red('[ERROR] ') + 'expected_suite_index ' +
 				str(expected_suite_index) + ', but got ' +
 				str(suite_index))
 		return True
 	else:
 		return False

 def bubble_up_errors(status_list: Iterable[TestStatus]) -> TestStatus:
 	return reduce(max_status, status_list, TestStatus.SKIPPED)

 def bubble_up_test_case_errors(test_suite: TestSuite) -> TestStatus:
 	max_test_case_status = bubble_up_errors(x.status for x in test_suite.cases)
 	return max_status(max_test_case_status, test_suite.status)

 def parse_test_suite(lines: LineStream, expected_suite_index: int) -> Optional[TestSuite]:
 	if not lines:
 		return None
 	consume_non_diagnostic(lines)
 	test_suite = TestSuite()
 	test_suite.status = TestStatus.SUCCESS
 	name = parse_subtest_header(lines)
 	if not name:
 		return None
 	test_suite.name = name
 	expected_test_case_num = parse_subtest_plan(lines)
 	if expected_test_case_num is None:
 		return None
 	while expected_test_case_num > 0:
 		test_case = parse_test_case(lines)
 		if not test_case:
 			break
 		test_suite.cases.append(test_case)
 		expected_test_case_num -= 1
 	if parse_ok_not_ok_test_suite(lines, test_suite, expected_suite_index):
 		test_suite.status = bubble_up_test_case_errors(test_suite)
 		return test_suite
 	elif not lines:
 		print_with_timestamp(red('[ERROR] ') + 'ran out of lines before end token')
 		return test_suite
 	else:
 		print(f'failed to parse end of suite "{name}", at line {lines.line_number()}: {lines.peek()}')
 		return None

 TAP_HEADER = re.compile(r'^TAP version 14$')

 def parse_tap_header(lines: LineStream) -> bool:
 	consume_non_diagnostic(lines)
 	if TAP_HEADER.match(lines.peek()):
 		lines.pop()
 		return True
 	else:
 		return False

 TEST_PLAN = re.compile(r'[0-9]+\.\.([0-9]+)')

 def parse_test_plan(lines: LineStream) -> Optional[int]:
 	consume_non_diagnostic(lines)
 	match = TEST_PLAN.match(lines.peek())
 	if match:
 		lines.pop()
 		return int(match.group(1))
 	else:
 		return None

 def bubble_up_suite_errors(test_suites: Iterable[TestSuite]) -> TestStatus:
 	return bubble_up_errors(x.status for x in test_suites)

 def parse_test_result(lines: LineStream) -> TestResult:
 	consume_non_diagnostic(lines)
 	if not lines or not parse_tap_header(lines):
 		return TestResult(TestStatus.FAILURE_TO_PARSE_TESTS, [], lines)
 	expected_test_suite_num = parse_test_plan(lines)
 	if expected_test_suite_num == 0:
 		return TestResult(TestStatus.NO_TESTS, [], lines)
 	elif expected_test_suite_num is None:
 		return TestResult(TestStatus.FAILURE_TO_PARSE_TESTS, [], lines)
 	test_suites = []
 	for i in range(1, expected_test_suite_num + 1):
 		test_suite = parse_test_suite(lines, i)
 		if test_suite:
 			test_suites.append(test_suite)
 		else:
 			print_with_timestamp(
 				red('[ERROR] ') + ' expected ' +
 				str(expected_test_suite_num) +
 				' test suites, but got ' + str(i - 2))
 			break
 	test_suite = parse_test_suite(lines, -1)
 	if test_suite:
 		print_with_timestamp(red('[ERROR] ') +
 			'got unexpected test suite: ' + test_suite.name)
 	if test_suites:
 		return TestResult(bubble_up_suite_errors(test_suites), test_suites, lines)
 	else:
 		return TestResult(TestStatus.NO_TESTS, [], lines)

 class TestCounts:
 	passed: int
 	failed: int
 	crashed: int
 	skipped: int

 	def __init__(self):
 		self.passed = 0
 		self.failed = 0
 		self.crashed = 0
 		self.skipped = 0

 	def total(self) -> int:
 		return self.passed + self.failed + self.crashed + self.skipped

 def print_and_count_results(test_result: TestResult) -> TestCounts:
 	counts = TestCounts()
 	for test_suite in test_result.suites:
 		if test_suite.status == TestStatus.SUCCESS:
 			print_suite_divider(green('[PASSED] ') + test_suite.name)
 		elif test_suite.status == TestStatus.SKIPPED:
 			print_suite_divider(yellow('[SKIPPED] ') + test_suite.name)
 		elif test_suite.status == TestStatus.TEST_CRASHED:
 			print_suite_divider(red('[CRASHED] ' + test_suite.name))
 		else:
 			print_suite_divider(red('[FAILED] ') + test_suite.name)
 		for test_case in test_suite.cases:
 			if test_case.status == TestStatus.SUCCESS:
 				counts.passed += 1
 				print_with_timestamp(green('[PASSED] ') + test_case.name)
 			elif test_case.status == TestStatus.SKIPPED:
 				counts.skipped += 1
 				print_with_timestamp(yellow('[SKIPPED] ') + test_case.name)
 			elif test_case.status == TestStatus.TEST_CRASHED:
 				counts.crashed += 1
 				print_with_timestamp(red('[CRASHED] ' + test_case.name))
 				print_log(map(yellow, test_case.log))
 				print_with_timestamp('')
 			else:
 				counts.failed += 1
 				print_with_timestamp(red('[FAILED] ') + test_case.name)
 				print_log(map(yellow, test_case.log))
 				print_with_timestamp('')
 	return counts

 def parse_run_tests(kernel_output: Iterable[str]) -> TestResult:
 	counts = TestCounts()
 	lines = extract_tap_lines(kernel_output)
 	test_result = parse_test_result(lines)
 	if test_result.status == TestStatus.NO_TESTS:
 		print(red('[ERROR] ') + yellow('no tests run!'))
 	elif test_result.status == TestStatus.FAILURE_TO_PARSE_TESTS:
 		print(red('[ERROR] ') + yellow('could not parse test results!'))
 	else:
 		counts = print_and_count_results(test_result)
 	print_with_timestamp(DIVIDER)
 	if test_result.status == TestStatus.SUCCESS:
 		fmt = green
 	elif test_result.status == TestStatus.SKIPPED:
 		fmt = yellow
 	else:
 		fmt =red
 	print_with_timestamp(
 		fmt('Testing complete. %d tests run. %d failed. %d crashed. %d skipped.' %
 		    (counts.total(), counts.failed, counts.crashed, counts.skipped)))
 	return test_result
	# SPDX-License-Identifier: GPL-2.0
	#
	# Parses test results from a kernel dmesg log.
	#
	# Copyright (C) 2019, Google LLC.
	# Author: Felix Guo <felixguoxiuping@gmail.com>
	# Author: Brendan Higgins <brendanhiggins@google.com>

	import re

	from collections import namedtuple
	from datetime import datetime
	from enum import Enum, auto
	from functools import reduce
	from typing import Iterable, Iterator, List, Optional, Tuple

	TestResult = namedtuple('TestResult', ['status','suites','log'])

	class TestSuite(object):
	def __init__(self) -> None:
	self.status = TestStatus.SUCCESS
	self.name = ''
	self.cases = [] # type: List[TestCase]

	def __str__(self) -> str:
	return 'TestSuite(' + str(self.status) + ',' + self.name + ',' + str(self.cases) + ')'

	def __repr__(self) -> str:
	return str(self)

	class TestCase(object):
	def __init__(self) -> None:
	self.status = TestStatus.SUCCESS
	self.name = ''
	self.log = [] # type: List[str]

	def __str__(self) -> str:
	return 'TestCase(' + str(self.status) + ',' + self.name + ',' + str(self.log) + ')'

	def __repr__(self) -> str:
	return str(self)

	class TestStatus(Enum):
	SUCCESS = auto()
	FAILURE = auto()
	SKIPPED = auto()
	TEST_CRASHED = auto()
	NO_TESTS = auto()
	FAILURE_TO_PARSE_TESTS = auto()

	class LineStream:
	"""Provides a peek()/pop() interface over an iterator of (line#, text)."""
	_lines: Iterator[Tuple[int, str]]
	_next: Tuple[int, str]
	_done: bool

	def __init__(self, lines: Iterator[Tuple[int, str]]):
	self._lines = lines
	self._done = False
	self._next = (0, '')
	self._get_next()

	def _get_next(self) -> None:
	try:
	self._next = next(self._lines)
	except StopIteration:
	self._done = True

	def peek(self) -> str:
	return self._next[1]

	def pop(self) -> str:
	n = self._next
	self._get_next()
	return n[1]

	def __bool__(self) -> bool:
	return not self._done

	# Only used by kunit_tool_test.py.
	def __iter__(self) -> Iterator[str]:
	while bool(self):
	yield self.pop()

	def line_number(self) -> int:
	return self._next[0]

	kunit_start_re = re.compile(r'TAP version [0-9]+$')
	kunit_end_re = re.compile('(List of all partitions:\|'
	'Kernel panic - not syncing: VFS:\|reboot: System halted)')

	def extract_tap_lines(kernel_output: Iterable[str]) -> LineStream:
	def isolate_kunit_output(kernel_output: Iterable[str]) -> Iterator[Tuple[int, str]]:
	line_num = 0
	started = False
	for line in kernel_output:
	line_num += 1
	line = line.rstrip() # line always has a trailing \n
	if kunit_start_re.search(line):
	prefix_len = len(line.split('TAP version')[0])
	started = True
	yield line_num, line[prefix_len:]
	elif kunit_end_re.search(line):
	break
	elif started:
	yield line_num, line[prefix_len:]
	return LineStream(lines=isolate_kunit_output(kernel_output))

	DIVIDER = '=' * 60

	RESET = '\033[0;0m'

	def red(text) -> str:
	return '\033[1;31m' + text + RESET

	def yellow(text) -> str:
	return '\033[1;33m' + text + RESET

	def green(text) -> str:
	return '\033[1;32m' + text + RESET

	def print_with_timestamp(message) -> None:
	print('[%s] %s' % (datetime.now().strftime('%H:%M:%S'), message))

	def format_suite_divider(message) -> str:
	return '======== ' + message + ' ========'

	def print_suite_divider(message) -> None:
	print_with_timestamp(DIVIDER)
	print_with_timestamp(format_suite_divider(message))

	def print_log(log) -> None:
	for m in log:
	print_with_timestamp(m)

	TAP_ENTRIES = re.compile(r'^(TAP\|[\s]ok\|[\s]not ok\|[\s][0-9]+\.\.[0-9]+\|[\s]# (Subtest:\|.: kunit test case crashed!)).$')

	def consume_non_diagnostic(lines: LineStream) -> None:
	while lines and not TAP_ENTRIES.match(lines.peek()):
	lines.pop()

	def save_non_diagnostic(lines: LineStream, test_case: TestCase) -> None:
	while lines and not TAP_ENTRIES.match(lines.peek()):
	test_case.log.append(lines.peek())
	lines.pop()

	OkNotOkResult = namedtuple('OkNotOkResult', ['is_ok','description', 'text'])

	OK_NOT_OK_SKIP = re.compile(r'^[\s](ok\|not ok) [0-9]+ - (.) # SKIP(.*)$')

	OK_NOT_OK_SUBTEST = re.compile(r'^[\s]+(ok\|not ok) [0-9]+ - (.*)$')

	OK_NOT_OK_MODULE = re.compile(r'^(ok\|not ok) ([0-9]+) - (.*)$')

	def parse_ok_not_ok_test_case(lines: LineStream, test_case: TestCase) -> bool:
	save_non_diagnostic(lines, test_case)
	if not lines:
	test_case.status = TestStatus.TEST_CRASHED
	return True
	line = lines.peek()
	match = OK_NOT_OK_SUBTEST.match(line)
	while not match and lines:
	line = lines.pop()
	match = OK_NOT_OK_SUBTEST.match(line)
	if match:
	test_case.log.append(lines.pop())
	test_case.name = match.group(2)
	skip_match = OK_NOT_OK_SKIP.match(line)
	if skip_match:
	test_case.status = TestStatus.SKIPPED
	return True
	if test_case.status == TestStatus.TEST_CRASHED:
	return True
	if match.group(1) == 'ok':
	test_case.status = TestStatus.SUCCESS
	else:
	test_case.status = TestStatus.FAILURE
	return True
	else:
	return False

	SUBTEST_DIAGNOSTIC = re.compile(r'^[\s]+# (.*)$')
	DIAGNOSTIC_CRASH_MESSAGE = re.compile(r'^[\s]+# .*?: kunit test case crashed!$')

	def parse_diagnostic(lines: LineStream, test_case: TestCase) -> bool:
	save_non_diagnostic(lines, test_case)
	if not lines:
	return False
	line = lines.peek()
	match = SUBTEST_DIAGNOSTIC.match(line)
	if match:
	test_case.log.append(lines.pop())
	crash_match = DIAGNOSTIC_CRASH_MESSAGE.match(line)
	if crash_match:
	test_case.status = TestStatus.TEST_CRASHED
	return True
	else:
	return False

	def parse_test_case(lines: LineStream) -> Optional[TestCase]:
	test_case = TestCase()
	save_non_diagnostic(lines, test_case)
	while parse_diagnostic(lines, test_case):
	pass
	if parse_ok_not_ok_test_case(lines, test_case):
	return test_case
	else:
	return None

	SUBTEST_HEADER = re.compile(r'^[\s]+# Subtest: (.*)$')

	def parse_subtest_header(lines: LineStream) -> Optional[str]:
	consume_non_diagnostic(lines)
	if not lines:
	return None
	match = SUBTEST_HEADER.match(lines.peek())
	if match:
	lines.pop()
	return match.group(1)
	else:
	return None

	SUBTEST_PLAN = re.compile(r'[\s]+[0-9]+\.\.([0-9]+)')

	def parse_subtest_plan(lines: LineStream) -> Optional[int]:
	consume_non_diagnostic(lines)
	match = SUBTEST_PLAN.match(lines.peek())
	if match:
	lines.pop()
	return int(match.group(1))
	else:
	return None

	def max_status(left: TestStatus, right: TestStatus) -> TestStatus:
	if left == right:
	return left
	elif left == TestStatus.TEST_CRASHED or right == TestStatus.TEST_CRASHED:
	return TestStatus.TEST_CRASHED
	elif left == TestStatus.FAILURE or right == TestStatus.FAILURE:
	return TestStatus.FAILURE
	elif left == TestStatus.SKIPPED:
	return right
	else:
	return left

	def parse_ok_not_ok_test_suite(lines: LineStream,
	test_suite: TestSuite,
	expected_suite_index: int) -> bool:
	consume_non_diagnostic(lines)
	if not lines:
	test_suite.status = TestStatus.TEST_CRASHED
	return False
	line = lines.peek()
	match = OK_NOT_OK_MODULE.match(line)
	if match:
	lines.pop()
	if match.group(1) == 'ok':
	test_suite.status = TestStatus.SUCCESS
	else:
	test_suite.status = TestStatus.FAILURE
	skip_match = OK_NOT_OK_SKIP.match(line)
	if skip_match:
	test_suite.status = TestStatus.SKIPPED
	suite_index = int(match.group(2))
	if suite_index != expected_suite_index:
	print_with_timestamp(
	red('[ERROR] ') + 'expected_suite_index ' +
	str(expected_suite_index) + ', but got ' +
	str(suite_index))
	return True
	else:
	return False

	def bubble_up_errors(status_list: Iterable[TestStatus]) -> TestStatus:
	return reduce(max_status, status_list, TestStatus.SKIPPED)

	def bubble_up_test_case_errors(test_suite: TestSuite) -> TestStatus:
	max_test_case_status = bubble_up_errors(x.status for x in test_suite.cases)
	return max_status(max_test_case_status, test_suite.status)

	def parse_test_suite(lines: LineStream, expected_suite_index: int) -> Optional[TestSuite]:
	if not lines:
	return None
	consume_non_diagnostic(lines)
	test_suite = TestSuite()
	test_suite.status = TestStatus.SUCCESS
	name = parse_subtest_header(lines)
	if not name:
	return None
	test_suite.name = name
	expected_test_case_num = parse_subtest_plan(lines)
	if expected_test_case_num is None:
	return None
	while expected_test_case_num > 0:
	test_case = parse_test_case(lines)
	if not test_case:
	break
	test_suite.cases.append(test_case)
	expected_test_case_num -= 1
	if parse_ok_not_ok_test_suite(lines, test_suite, expected_suite_index):
	test_suite.status = bubble_up_test_case_errors(test_suite)
	return test_suite
	elif not lines:
	print_with_timestamp(red('[ERROR] ') + 'ran out of lines before end token')
	return test_suite
	else:
	print(f'failed to parse end of suite "{name}", at line {lines.line_number()}: {lines.peek()}')
	return None

	TAP_HEADER = re.compile(r'^TAP version 14$')

	def parse_tap_header(lines: LineStream) -> bool:
	consume_non_diagnostic(lines)
	if TAP_HEADER.match(lines.peek()):
	lines.pop()
	return True
	else:
	return False

	TEST_PLAN = re.compile(r'[0-9]+\.\.([0-9]+)')

	def parse_test_plan(lines: LineStream) -> Optional[int]:
	consume_non_diagnostic(lines)
	match = TEST_PLAN.match(lines.peek())
	if match:
	lines.pop()
	return int(match.group(1))
	else:
	return None

	def bubble_up_suite_errors(test_suites: Iterable[TestSuite]) -> TestStatus:
	return bubble_up_errors(x.status for x in test_suites)

	def parse_test_result(lines: LineStream) -> TestResult:
	consume_non_diagnostic(lines)
	if not lines or not parse_tap_header(lines):
	return TestResult(TestStatus.FAILURE_TO_PARSE_TESTS, [], lines)
	expected_test_suite_num = parse_test_plan(lines)
	if expected_test_suite_num == 0:
	return TestResult(TestStatus.NO_TESTS, [], lines)
	elif expected_test_suite_num is None:
	return TestResult(TestStatus.FAILURE_TO_PARSE_TESTS, [], lines)
	test_suites = []
	for i in range(1, expected_test_suite_num + 1):
	test_suite = parse_test_suite(lines, i)
	if test_suite:
	test_suites.append(test_suite)
	else:
	print_with_timestamp(
	red('[ERROR] ') + ' expected ' +
	str(expected_test_suite_num) +
	' test suites, but got ' + str(i - 2))
	break
	test_suite = parse_test_suite(lines, -1)
	if test_suite:
	print_with_timestamp(red('[ERROR] ') +
	'got unexpected test suite: ' + test_suite.name)
	if test_suites:
	return TestResult(bubble_up_suite_errors(test_suites), test_suites, lines)
	else:
	return TestResult(TestStatus.NO_TESTS, [], lines)

	class TestCounts:
	passed: int
	failed: int
	crashed: int
	skipped: int

	def __init__(self):
	self.passed = 0
	self.failed = 0
	self.crashed = 0
	self.skipped = 0

	def total(self) -> int:
	return self.passed + self.failed + self.crashed + self.skipped

	def print_and_count_results(test_result: TestResult) -> TestCounts:
	counts = TestCounts()
	for test_suite in test_result.suites:
	if test_suite.status == TestStatus.SUCCESS:
	print_suite_divider(green('[PASSED] ') + test_suite.name)
	elif test_suite.status == TestStatus.SKIPPED:
	print_suite_divider(yellow('[SKIPPED] ') + test_suite.name)
	elif test_suite.status == TestStatus.TEST_CRASHED:
	print_suite_divider(red('[CRASHED] ' + test_suite.name))
	else:
	print_suite_divider(red('[FAILED] ') + test_suite.name)
	for test_case in test_suite.cases:
	if test_case.status == TestStatus.SUCCESS:
	counts.passed += 1
	print_with_timestamp(green('[PASSED] ') + test_case.name)
	elif test_case.status == TestStatus.SKIPPED:
	counts.skipped += 1
	print_with_timestamp(yellow('[SKIPPED] ') + test_case.name)
	elif test_case.status == TestStatus.TEST_CRASHED:
	counts.crashed += 1
	print_with_timestamp(red('[CRASHED] ' + test_case.name))
	print_log(map(yellow, test_case.log))
	print_with_timestamp('')
	else:
	counts.failed += 1
	print_with_timestamp(red('[FAILED] ') + test_case.name)
	print_log(map(yellow, test_case.log))
	print_with_timestamp('')
	return counts

	def parse_run_tests(kernel_output: Iterable[str]) -> TestResult:
	counts = TestCounts()
	lines = extract_tap_lines(kernel_output)
	test_result = parse_test_result(lines)
	if test_result.status == TestStatus.NO_TESTS:
	print(red('[ERROR] ') + yellow('no tests run!'))
	elif test_result.status == TestStatus.FAILURE_TO_PARSE_TESTS:
	print(red('[ERROR] ') + yellow('could not parse test results!'))
	else:
	counts = print_and_count_results(test_result)
	print_with_timestamp(DIVIDER)
	if test_result.status == TestStatus.SUCCESS:
	fmt = green
	elif test_result.status == TestStatus.SKIPPED:
	fmt = yellow
	else:
	fmt =red
	print_with_timestamp(
	fmt('Testing complete. %d tests run. %d failed. %d crashed. %d skipped.' %
	(counts.total(), counts.failed, counts.crashed, counts.skipped)))
	return test_result