xref: /linux/tools/testing/kunit/kunit_parser.py (revision ea49432d184a6a09f84461604b7711a4e9f5ec9c)
1# SPDX-License-Identifier: GPL-2.0
2#
3# Parses KTAP test results from a kernel dmesg log and incrementally prints
4# results with reader-friendly format. Stores and returns test results in a
5# Test object.
6#
7# Copyright (C) 2019, Google LLC.
8# Author: Felix Guo <felixguoxiuping@gmail.com>
9# Author: Brendan Higgins <brendanhiggins@google.com>
10# Author: Rae Moar <rmoar@google.com>
11
12from __future__ import annotations
13import re
14
15import datetime
16from enum import Enum, auto
17from functools import reduce
18from typing import Iterable, Iterator, List, Optional, Tuple
19
20class Test(object):
21	"""
22	A class to represent a test parsed from KTAP results. All KTAP
23	results within a test log are stored in a main Test object as
24	subtests.
25
26	Attributes:
27	status : TestStatus - status of the test
28	name : str - name of the test
29	expected_count : int - expected number of subtests (0 if single
30		test case and None if unknown expected number of subtests)
31	subtests : List[Test] - list of subtests
32	log : List[str] - log of KTAP lines that correspond to the test
33	counts : TestCounts - counts of the test statuses and errors of
34		subtests or of the test itself if the test is a single
35		test case.
36	"""
37	def __init__(self) -> None:
38		"""Creates Test object with default attributes."""
39		self.status = TestStatus.TEST_CRASHED
40		self.name = ''
41		self.expected_count = 0  # type: Optional[int]
42		self.subtests = []  # type: List[Test]
43		self.log = []  # type: List[str]
44		self.counts = TestCounts()
45
46	def __str__(self) -> str:
47		"""Returns string representation of a Test class object."""
48		return ('Test(' + str(self.status) + ', ' + self.name +
49			', ' + str(self.expected_count) + ', ' +
50			str(self.subtests) + ', ' + str(self.log) + ', ' +
51			str(self.counts) + ')')
52
53	def __repr__(self) -> str:
54		"""Returns string representation of a Test class object."""
55		return str(self)
56
57	def add_error(self, error_message: str) -> None:
58		"""Records an error that occurred while parsing this test."""
59		self.counts.errors += 1
60		print_error('Test ' + self.name + ': ' + error_message)
61
62class TestStatus(Enum):
63	"""An enumeration class to represent the status of a test."""
64	SUCCESS = auto()
65	FAILURE = auto()
66	SKIPPED = auto()
67	TEST_CRASHED = auto()
68	NO_TESTS = auto()
69	FAILURE_TO_PARSE_TESTS = auto()
70
71class TestCounts:
72	"""
73	Tracks the counts of statuses of all test cases and any errors within
74	a Test.
75
76	Attributes:
77	passed : int - the number of tests that have passed
78	failed : int - the number of tests that have failed
79	crashed : int - the number of tests that have crashed
80	skipped : int - the number of tests that have skipped
81	errors : int - the number of errors in the test and subtests
82	"""
83	def __init__(self):
84		"""Creates TestCounts object with counts of all test
85		statuses and test errors set to 0.
86		"""
87		self.passed = 0
88		self.failed = 0
89		self.crashed = 0
90		self.skipped = 0
91		self.errors = 0
92
93	def __str__(self) -> str:
94		"""Returns the string representation of a TestCounts object.
95		"""
96		return ('Passed: ' + str(self.passed) +
97			', Failed: ' + str(self.failed) +
98			', Crashed: ' + str(self.crashed) +
99			', Skipped: ' + str(self.skipped) +
100			', Errors: ' + str(self.errors))
101
102	def total(self) -> int:
103		"""Returns the total number of test cases within a test
104		object, where a test case is a test with no subtests.
105		"""
106		return (self.passed + self.failed + self.crashed +
107			self.skipped)
108
109	def add_subtest_counts(self, counts: TestCounts) -> None:
110		"""
111		Adds the counts of another TestCounts object to the current
112		TestCounts object. Used to add the counts of a subtest to the
113		parent test.
114
115		Parameters:
116		counts - a different TestCounts object whose counts
117			will be added to the counts of the TestCounts object
118		"""
119		self.passed += counts.passed
120		self.failed += counts.failed
121		self.crashed += counts.crashed
122		self.skipped += counts.skipped
123		self.errors += counts.errors
124
125	def get_status(self) -> TestStatus:
126		"""Returns the aggregated status of a Test using test
127		counts.
128		"""
129		if self.total() == 0:
130			return TestStatus.NO_TESTS
131		elif self.crashed:
132			# If one of the subtests crash, the expected status
133			# of the Test is crashed.
134			return TestStatus.TEST_CRASHED
135		elif self.failed:
136			# Otherwise if one of the subtests fail, the
137			# expected status of the Test is failed.
138			return TestStatus.FAILURE
139		elif self.passed:
140			# Otherwise if one of the subtests pass, the
141			# expected status of the Test is passed.
142			return TestStatus.SUCCESS
143		else:
144			# Finally, if none of the subtests have failed,
145			# crashed, or passed, the expected status of the
146			# Test is skipped.
147			return TestStatus.SKIPPED
148
149	def add_status(self, status: TestStatus) -> None:
150		"""
151		Increments count of inputted status.
152
153		Parameters:
154		status - status to be added to the TestCounts object
155		"""
156		if status == TestStatus.SUCCESS:
157			self.passed += 1
158		elif status == TestStatus.FAILURE:
159			self.failed += 1
160		elif status == TestStatus.SKIPPED:
161			self.skipped += 1
162		elif status != TestStatus.NO_TESTS:
163			self.crashed += 1
164
165class LineStream:
166	"""
167	A class to represent the lines of kernel output.
168	Provides a lazy peek()/pop() interface over an iterator of
169	(line#, text).
170	"""
171	_lines: Iterator[Tuple[int, str]]
172	_next: Tuple[int, str]
173	_need_next: bool
174	_done: bool
175
176	def __init__(self, lines: Iterator[Tuple[int, str]]):
177		"""Creates a new LineStream that wraps the given iterator."""
178		self._lines = lines
179		self._done = False
180		self._need_next = True
181		self._next = (0, '')
182
183	def _get_next(self) -> None:
184		"""Advances the LineSteam to the next line, if necessary."""
185		if not self._need_next:
186			return
187		try:
188			self._next = next(self._lines)
189		except StopIteration:
190			self._done = True
191		finally:
192			self._need_next = False
193
194	def peek(self) -> str:
195		"""Returns the current line, without advancing the LineStream.
196		"""
197		self._get_next()
198		return self._next[1]
199
200	def pop(self) -> str:
201		"""Returns the current line and advances the LineStream to
202		the next line.
203		"""
204		s = self.peek()
205		if self._done:
206			raise ValueError(f'LineStream: going past EOF, last line was {s}')
207		self._need_next = True
208		return s
209
210	def __bool__(self) -> bool:
211		"""Returns True if stream has more lines."""
212		self._get_next()
213		return not self._done
214
215	# Only used by kunit_tool_test.py.
216	def __iter__(self) -> Iterator[str]:
217		"""Empties all lines stored in LineStream object into
218		Iterator object and returns the Iterator object.
219		"""
220		while bool(self):
221			yield self.pop()
222
223	def line_number(self) -> int:
224		"""Returns the line number of the current line."""
225		self._get_next()
226		return self._next[0]
227
228# Parsing helper methods:
229
230KTAP_START = re.compile(r'KTAP version ([0-9]+)$')
231TAP_START = re.compile(r'TAP version ([0-9]+)$')
232KTAP_END = re.compile('(List of all partitions:|'
233	'Kernel panic - not syncing: VFS:|reboot: System halted)')
234
235def extract_tap_lines(kernel_output: Iterable[str]) -> LineStream:
236	"""Extracts KTAP lines from the kernel output."""
237	def isolate_ktap_output(kernel_output: Iterable[str]) \
238			-> Iterator[Tuple[int, str]]:
239		line_num = 0
240		started = False
241		for line in kernel_output:
242			line_num += 1
243			line = line.rstrip()  # remove trailing \n
244			if not started and KTAP_START.search(line):
245				# start extracting KTAP lines and set prefix
246				# to number of characters before version line
247				prefix_len = len(
248					line.split('KTAP version')[0])
249				started = True
250				yield line_num, line[prefix_len:]
251			elif not started and TAP_START.search(line):
252				# start extracting KTAP lines and set prefix
253				# to number of characters before version line
254				prefix_len = len(line.split('TAP version')[0])
255				started = True
256				yield line_num, line[prefix_len:]
257			elif started and KTAP_END.search(line):
258				# stop extracting KTAP lines
259				break
260			elif started:
261				# remove prefix and any indention and yield
262				# line with line number
263				line = line[prefix_len:].lstrip()
264				yield line_num, line
265	return LineStream(lines=isolate_ktap_output(kernel_output))
266
267KTAP_VERSIONS = [1]
268TAP_VERSIONS = [13, 14]
269
270def check_version(version_num: int, accepted_versions: List[int],
271			version_type: str, test: Test) -> None:
272	"""
273	Adds error to test object if version number is too high or too
274	low.
275
276	Parameters:
277	version_num - The inputted version number from the parsed KTAP or TAP
278		header line
279	accepted_version - List of accepted KTAP or TAP versions
280	version_type - 'KTAP' or 'TAP' depending on the type of
281		version line.
282	test - Test object for current test being parsed
283	"""
284	if version_num < min(accepted_versions):
285		test.add_error(version_type +
286			' version lower than expected!')
287	elif version_num > max(accepted_versions):
288		test.add_error(
289			version_type + ' version higher than expected!')
290
291def parse_ktap_header(lines: LineStream, test: Test) -> bool:
292	"""
293	Parses KTAP/TAP header line and checks version number.
294	Returns False if fails to parse KTAP/TAP header line.
295
296	Accepted formats:
297	- 'KTAP version [version number]'
298	- 'TAP version [version number]'
299
300	Parameters:
301	lines - LineStream of KTAP output to parse
302	test - Test object for current test being parsed
303
304	Return:
305	True if successfully parsed KTAP/TAP header line
306	"""
307	ktap_match = KTAP_START.match(lines.peek())
308	tap_match = TAP_START.match(lines.peek())
309	if ktap_match:
310		version_num = int(ktap_match.group(1))
311		check_version(version_num, KTAP_VERSIONS, 'KTAP', test)
312	elif tap_match:
313		version_num = int(tap_match.group(1))
314		check_version(version_num, TAP_VERSIONS, 'TAP', test)
315	else:
316		return False
317	test.log.append(lines.pop())
318	return True
319
320TEST_HEADER = re.compile(r'^# Subtest: (.*)$')
321
322def parse_test_header(lines: LineStream, test: Test) -> bool:
323	"""
324	Parses test header and stores test name in test object.
325	Returns False if fails to parse test header line.
326
327	Accepted format:
328	- '# Subtest: [test name]'
329
330	Parameters:
331	lines - LineStream of KTAP output to parse
332	test - Test object for current test being parsed
333
334	Return:
335	True if successfully parsed test header line
336	"""
337	match = TEST_HEADER.match(lines.peek())
338	if not match:
339		return False
340	test.log.append(lines.pop())
341	test.name = match.group(1)
342	return True
343
344TEST_PLAN = re.compile(r'1\.\.([0-9]+)')
345
346def parse_test_plan(lines: LineStream, test: Test) -> bool:
347	"""
348	Parses test plan line and stores the expected number of subtests in
349	test object. Reports an error if expected count is 0.
350	Returns False and sets expected_count to None if there is no valid test
351	plan.
352
353	Accepted format:
354	- '1..[number of subtests]'
355
356	Parameters:
357	lines - LineStream of KTAP output to parse
358	test - Test object for current test being parsed
359
360	Return:
361	True if successfully parsed test plan line
362	"""
363	match = TEST_PLAN.match(lines.peek())
364	if not match:
365		test.expected_count = None
366		return False
367	test.log.append(lines.pop())
368	expected_count = int(match.group(1))
369	test.expected_count = expected_count
370	return True
371
372TEST_RESULT = re.compile(r'^(ok|not ok) ([0-9]+) (- )?([^#]*)( # .*)?$')
373
374TEST_RESULT_SKIP = re.compile(r'^(ok|not ok) ([0-9]+) (- )?(.*) # SKIP(.*)$')
375
376def peek_test_name_match(lines: LineStream, test: Test) -> bool:
377	"""
378	Matches current line with the format of a test result line and checks
379	if the name matches the name of the current test.
380	Returns False if fails to match format or name.
381
382	Accepted format:
383	- '[ok|not ok] [test number] [-] [test name] [optional skip
384		directive]'
385
386	Parameters:
387	lines - LineStream of KTAP output to parse
388	test - Test object for current test being parsed
389
390	Return:
391	True if matched a test result line and the name matching the
392		expected test name
393	"""
394	line = lines.peek()
395	match = TEST_RESULT.match(line)
396	if not match:
397		return False
398	name = match.group(4)
399	return (name == test.name)
400
401def parse_test_result(lines: LineStream, test: Test,
402			expected_num: int) -> bool:
403	"""
404	Parses test result line and stores the status and name in the test
405	object. Reports an error if the test number does not match expected
406	test number.
407	Returns False if fails to parse test result line.
408
409	Note that the SKIP directive is the only direction that causes a
410	change in status.
411
412	Accepted format:
413	- '[ok|not ok] [test number] [-] [test name] [optional skip
414		directive]'
415
416	Parameters:
417	lines - LineStream of KTAP output to parse
418	test - Test object for current test being parsed
419	expected_num - expected test number for current test
420
421	Return:
422	True if successfully parsed a test result line.
423	"""
424	line = lines.peek()
425	match = TEST_RESULT.match(line)
426	skip_match = TEST_RESULT_SKIP.match(line)
427
428	# Check if line matches test result line format
429	if not match:
430		return False
431	test.log.append(lines.pop())
432
433	# Set name of test object
434	if skip_match:
435		test.name = skip_match.group(4)
436	else:
437		test.name = match.group(4)
438
439	# Check test num
440	num = int(match.group(2))
441	if num != expected_num:
442		test.add_error('Expected test number ' +
443			str(expected_num) + ' but found ' + str(num))
444
445	# Set status of test object
446	status = match.group(1)
447	if skip_match:
448		test.status = TestStatus.SKIPPED
449	elif status == 'ok':
450		test.status = TestStatus.SUCCESS
451	else:
452		test.status = TestStatus.FAILURE
453	return True
454
455def parse_diagnostic(lines: LineStream) -> List[str]:
456	"""
457	Parse lines that do not match the format of a test result line or
458	test header line and returns them in list.
459
460	Line formats that are not parsed:
461	- '# Subtest: [test name]'
462	- '[ok|not ok] [test number] [-] [test name] [optional skip
463		directive]'
464
465	Parameters:
466	lines - LineStream of KTAP output to parse
467
468	Return:
469	Log of diagnostic lines
470	"""
471	log = []  # type: List[str]
472	while lines and not TEST_RESULT.match(lines.peek()) and not \
473			TEST_HEADER.match(lines.peek()):
474		log.append(lines.pop())
475	return log
476
477DIAGNOSTIC_CRASH_MESSAGE = re.compile(r'^# .*?: kunit test case crashed!$')
478
479def parse_crash_in_log(test: Test) -> bool:
480	"""
481	Iterate through the lines of the log to parse for crash message.
482	If crash message found, set status to crashed and return True.
483	Otherwise return False.
484
485	Parameters:
486	test - Test object for current test being parsed
487
488	Return:
489	True if crash message found in log
490	"""
491	for line in test.log:
492		if DIAGNOSTIC_CRASH_MESSAGE.match(line):
493			test.status = TestStatus.TEST_CRASHED
494			return True
495	return False
496
497
498# Printing helper methods:
499
500DIVIDER = '=' * 60
501
502RESET = '\033[0;0m'
503
504def red(text: str) -> str:
505	"""Returns inputted string with red color code."""
506	return '\033[1;31m' + text + RESET
507
508def yellow(text: str) -> str:
509	"""Returns inputted string with yellow color code."""
510	return '\033[1;33m' + text + RESET
511
512def green(text: str) -> str:
513	"""Returns inputted string with green color code."""
514	return '\033[1;32m' + text + RESET
515
516ANSI_LEN = len(red(''))
517
518def print_with_timestamp(message: str) -> None:
519	"""Prints message with timestamp at beginning."""
520	print('[%s] %s' % (datetime.datetime.now().strftime('%H:%M:%S'), message))
521
522def format_test_divider(message: str, len_message: int) -> str:
523	"""
524	Returns string with message centered in fixed width divider.
525
526	Example:
527	'===================== message example ====================='
528
529	Parameters:
530	message - message to be centered in divider line
531	len_message - length of the message to be printed such that
532		any characters of the color codes are not counted
533
534	Return:
535	String containing message centered in fixed width divider
536	"""
537	default_count = 3  # default number of dashes
538	len_1 = default_count
539	len_2 = default_count
540	difference = len(DIVIDER) - len_message - 2  # 2 spaces added
541	if difference > 0:
542		# calculate number of dashes for each side of the divider
543		len_1 = int(difference / 2)
544		len_2 = difference - len_1
545	return ('=' * len_1) + ' ' + message + ' ' + ('=' * len_2)
546
547def print_test_header(test: Test) -> None:
548	"""
549	Prints test header with test name and optionally the expected number
550	of subtests.
551
552	Example:
553	'=================== example (2 subtests) ==================='
554
555	Parameters:
556	test - Test object representing current test being printed
557	"""
558	message = test.name
559	if test.expected_count:
560		if test.expected_count == 1:
561			message += (' (' + str(test.expected_count) +
562				' subtest)')
563		else:
564			message += (' (' + str(test.expected_count) +
565				' subtests)')
566	print_with_timestamp(format_test_divider(message, len(message)))
567
568def print_log(log: Iterable[str]) -> None:
569	"""
570	Prints all strings in saved log for test in yellow.
571
572	Parameters:
573	log - Iterable object with all strings saved in log for test
574	"""
575	for m in log:
576		print_with_timestamp(yellow(m))
577
578def format_test_result(test: Test) -> str:
579	"""
580	Returns string with formatted test result with colored status and test
581	name.
582
583	Example:
584	'[PASSED] example'
585
586	Parameters:
587	test - Test object representing current test being printed
588
589	Return:
590	String containing formatted test result
591	"""
592	if test.status == TestStatus.SUCCESS:
593		return (green('[PASSED] ') + test.name)
594	elif test.status == TestStatus.SKIPPED:
595		return (yellow('[SKIPPED] ') + test.name)
596	elif test.status == TestStatus.NO_TESTS:
597		return (yellow('[NO TESTS RUN] ') + test.name)
598	elif test.status == TestStatus.TEST_CRASHED:
599		print_log(test.log)
600		return (red('[CRASHED] ') + test.name)
601	else:
602		print_log(test.log)
603		return (red('[FAILED] ') + test.name)
604
605def print_test_result(test: Test) -> None:
606	"""
607	Prints result line with status of test.
608
609	Example:
610	'[PASSED] example'
611
612	Parameters:
613	test - Test object representing current test being printed
614	"""
615	print_with_timestamp(format_test_result(test))
616
617def print_test_footer(test: Test) -> None:
618	"""
619	Prints test footer with status of test.
620
621	Example:
622	'===================== [PASSED] example ====================='
623
624	Parameters:
625	test - Test object representing current test being printed
626	"""
627	message = format_test_result(test)
628	print_with_timestamp(format_test_divider(message,
629		len(message) - ANSI_LEN))
630
631def print_summary_line(test: Test) -> None:
632	"""
633	Prints summary line of test object. Color of line is dependent on
634	status of test. Color is green if test passes, yellow if test is
635	skipped, and red if the test fails or crashes. Summary line contains
636	counts of the statuses of the tests subtests or the test itself if it
637	has no subtests.
638
639	Example:
640	"Testing complete. Passed: 2, Failed: 0, Crashed: 0, Skipped: 0,
641	Errors: 0"
642
643	test - Test object representing current test being printed
644	"""
645	if test.status == TestStatus.SUCCESS:
646		color = green
647	elif test.status == TestStatus.SKIPPED or test.status == TestStatus.NO_TESTS:
648		color = yellow
649	else:
650		color = red
651	counts = test.counts
652	print_with_timestamp(color('Testing complete. ' + str(counts)))
653
654def print_error(error_message: str) -> None:
655	"""
656	Prints error message with error format.
657
658	Example:
659	"[ERROR] Test example: missing test plan!"
660
661	Parameters:
662	error_message - message describing error
663	"""
664	print_with_timestamp(red('[ERROR] ') + error_message)
665
666# Other methods:
667
668def bubble_up_test_results(test: Test) -> None:
669	"""
670	If the test has subtests, add the test counts of the subtests to the
671	test and check if any of the tests crashed and if so set the test
672	status to crashed. Otherwise if the test has no subtests add the
673	status of the test to the test counts.
674
675	Parameters:
676	test - Test object for current test being parsed
677	"""
678	parse_crash_in_log(test)
679	subtests = test.subtests
680	counts = test.counts
681	status = test.status
682	for t in subtests:
683		counts.add_subtest_counts(t.counts)
684	if counts.total() == 0:
685		counts.add_status(status)
686	elif test.counts.get_status() == TestStatus.TEST_CRASHED:
687		test.status = TestStatus.TEST_CRASHED
688
689def parse_test(lines: LineStream, expected_num: int, log: List[str]) -> Test:
690	"""
691	Finds next test to parse in LineStream, creates new Test object,
692	parses any subtests of the test, populates Test object with all
693	information (status, name) about the test and the Test objects for
694	any subtests, and then returns the Test object. The method accepts
695	three formats of tests:
696
697	Accepted test formats:
698
699	- Main KTAP/TAP header
700
701	Example:
702
703	KTAP version 1
704	1..4
705	[subtests]
706
707	- Subtest header line
708
709	Example:
710
711	# Subtest: name
712	1..3
713	[subtests]
714	ok 1 name
715
716	- Test result line
717
718	Example:
719
720	ok 1 - test
721
722	Parameters:
723	lines - LineStream of KTAP output to parse
724	expected_num - expected test number for test to be parsed
725	log - list of strings containing any preceding diagnostic lines
726		corresponding to the current test
727
728	Return:
729	Test object populated with characteristics and any subtests
730	"""
731	test = Test()
732	test.log.extend(log)
733	parent_test = False
734	main = parse_ktap_header(lines, test)
735	if main:
736		# If KTAP/TAP header is found, attempt to parse
737		# test plan
738		test.name = "main"
739		parse_test_plan(lines, test)
740		parent_test = True
741	else:
742		# If KTAP/TAP header is not found, test must be subtest
743		# header or test result line so parse attempt to parser
744		# subtest header
745		parent_test = parse_test_header(lines, test)
746		if parent_test:
747			# If subtest header is found, attempt to parse
748			# test plan and print header
749			parse_test_plan(lines, test)
750			print_test_header(test)
751	expected_count = test.expected_count
752	subtests = []
753	test_num = 1
754	while parent_test and (expected_count is None or test_num <= expected_count):
755		# Loop to parse any subtests.
756		# Break after parsing expected number of tests or
757		# if expected number of tests is unknown break when test
758		# result line with matching name to subtest header is found
759		# or no more lines in stream.
760		sub_log = parse_diagnostic(lines)
761		sub_test = Test()
762		if not lines or (peek_test_name_match(lines, test) and
763				not main):
764			if expected_count and test_num <= expected_count:
765				# If parser reaches end of test before
766				# parsing expected number of subtests, print
767				# crashed subtest and record error
768				test.add_error('missing expected subtest!')
769				sub_test.log.extend(sub_log)
770				test.counts.add_status(
771					TestStatus.TEST_CRASHED)
772				print_test_result(sub_test)
773			else:
774				test.log.extend(sub_log)
775				break
776		else:
777			sub_test = parse_test(lines, test_num, sub_log)
778		subtests.append(sub_test)
779		test_num += 1
780	test.subtests = subtests
781	if not main:
782		# If not main test, look for test result line
783		test.log.extend(parse_diagnostic(lines))
784		if (parent_test and peek_test_name_match(lines, test)) or \
785				not parent_test:
786			parse_test_result(lines, test, expected_num)
787		else:
788			test.add_error('missing subtest result line!')
789
790	# Check for there being no tests
791	if parent_test and len(subtests) == 0:
792		test.status = TestStatus.NO_TESTS
793		test.add_error('0 tests run!')
794
795	# Add statuses to TestCounts attribute in Test object
796	bubble_up_test_results(test)
797	if parent_test and not main:
798		# If test has subtests and is not the main test object, print
799		# footer.
800		print_test_footer(test)
801	elif not main:
802		print_test_result(test)
803	return test
804
805def parse_run_tests(kernel_output: Iterable[str]) -> Test:
806	"""
807	Using kernel output, extract KTAP lines, parse the lines for test
808	results and print condensed test results and summary line .
809
810	Parameters:
811	kernel_output - Iterable object contains lines of kernel output
812
813	Return:
814	Test - the main test object with all subtests.
815	"""
816	print_with_timestamp(DIVIDER)
817	lines = extract_tap_lines(kernel_output)
818	test = Test()
819	if not lines:
820		test.add_error('invalid KTAP input!')
821		test.status = TestStatus.FAILURE_TO_PARSE_TESTS
822	else:
823		test = parse_test(lines, 0, [])
824		if test.status != TestStatus.NO_TESTS:
825			test.status = test.counts.get_status()
826	print_with_timestamp(DIVIDER)
827	print_summary_line(test)
828	return test
829