# SPDX-License-Identifier: GPL-2.0 # # Parses test results from a kernel dmesg log. # # Copyright (C) 2019, Google LLC. # Author: Felix Guo # Author: Brendan Higgins import re from collections import namedtuple from datetime import datetime from enum import Enum, auto from functools import reduce from typing import List TestResult = namedtuple('TestResult', ['status','suites','log']) class TestSuite(object): def __init__(self): self.status = None self.name = None self.cases = [] def __str__(self): return 'TestSuite(' + self.status + ',' + self.name + ',' + str(self.cases) + ')' def __repr__(self): return str(self) class TestCase(object): def __init__(self): self.status = None self.name = '' self.log = [] def __str__(self): return 'TestCase(' + self.status + ',' + self.name + ',' + str(self.log) + ')' def __repr__(self): return str(self) class TestStatus(Enum): SUCCESS = auto() FAILURE = auto() TEST_CRASHED = auto() NO_TESTS = auto() kunit_start_re = re.compile(r'TAP version [0-9]+$') kunit_end_re = re.compile('(List of all partitions:|' 'Kernel panic - not syncing: VFS:|reboot: System halted)') def isolate_kunit_output(kernel_output): started = False for line in kernel_output: if kunit_start_re.search(line): prefix_len = len(line.split('TAP version')[0]) started = True yield line[prefix_len:] if prefix_len > 0 else line elif kunit_end_re.search(line): break elif started: yield line[prefix_len:] if prefix_len > 0 else line def raw_output(kernel_output): for line in kernel_output: print(line) yield line DIVIDER = '=' * 60 RESET = '\033[0;0m' def red(text): return '\033[1;31m' + text + RESET def yellow(text): return '\033[1;33m' + text + RESET def green(text): return '\033[1;32m' + text + RESET def print_with_timestamp(message): print('[%s] %s' % (datetime.now().strftime('%H:%M:%S'), message)) def format_suite_divider(message): return '======== ' + message + ' ========' def print_suite_divider(message): print_with_timestamp(DIVIDER) print_with_timestamp(format_suite_divider(message)) def print_log(log): for m in log: print_with_timestamp(m) TAP_ENTRIES = re.compile(r'^(TAP|[\s]*ok|[\s]*not ok|[\s]*[0-9]+\.\.[0-9]+|[\s]*#).*$') def consume_non_diagnositic(lines: List[str]) -> None: while lines and not TAP_ENTRIES.match(lines[0]): lines.pop(0) def save_non_diagnositic(lines: List[str], test_case: TestCase) -> None: while lines and not TAP_ENTRIES.match(lines[0]): test_case.log.append(lines[0]) lines.pop(0) OkNotOkResult = namedtuple('OkNotOkResult', ['is_ok','description', 'text']) 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: List[str], test_case: TestCase) -> bool: save_non_diagnositic(lines, test_case) if not lines: test_case.status = TestStatus.TEST_CRASHED return True line = lines[0] match = OK_NOT_OK_SUBTEST.match(line) while not match and lines: line = lines.pop(0) match = OK_NOT_OK_SUBTEST.match(line) if match: test_case.log.append(lines.pop(0)) test_case.name = match.group(2) 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]+# .*?: (.*)$') DIAGNOSTIC_CRASH_MESSAGE = 'kunit test case crashed!' def parse_diagnostic(lines: List[str], test_case: TestCase) -> bool: save_non_diagnositic(lines, test_case) if not lines: return False line = lines[0] match = SUBTEST_DIAGNOSTIC.match(line) if match: test_case.log.append(lines.pop(0)) if match.group(1) == DIAGNOSTIC_CRASH_MESSAGE: test_case.status = TestStatus.TEST_CRASHED return True else: return False def parse_test_case(lines: List[str]) -> TestCase: test_case = TestCase() save_non_diagnositic(lines, test_case) while parse_diagnostic(lines, test_case): pass if parse_ok_not_ok_test_case(lines, test_case): return test_case else: return None SUBTEST_HEADER = re.compile(r'^[\s]+# Subtest: (.*)$') def parse_subtest_header(lines: List[str]) -> str: consume_non_diagnositic(lines) if not lines: return None match = SUBTEST_HEADER.match(lines[0]) if match: lines.pop(0) return match.group(1) else: return None SUBTEST_PLAN = re.compile(r'[\s]+[0-9]+\.\.([0-9]+)') def parse_subtest_plan(lines: List[str]) -> int: consume_non_diagnositic(lines) match = SUBTEST_PLAN.match(lines[0]) if match: lines.pop(0) return int(match.group(1)) else: return None def max_status(left: TestStatus, right: TestStatus) -> TestStatus: if 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.SUCCESS: return left elif right != TestStatus.SUCCESS: return right else: return TestStatus.SUCCESS def parse_ok_not_ok_test_suite(lines: List[str], test_suite: TestSuite) -> bool: consume_non_diagnositic(lines) if not lines: test_suite.status = TestStatus.TEST_CRASHED return False line = lines[0] match = OK_NOT_OK_MODULE.match(line) if match: lines.pop(0) if match.group(1) == 'ok': test_suite.status = TestStatus.SUCCESS else: test_suite.status = TestStatus.FAILURE return True else: return False def bubble_up_errors(to_status, status_container_list) -> TestStatus: status_list = map(to_status, status_container_list) return reduce(max_status, status_list, TestStatus.SUCCESS) def bubble_up_test_case_errors(test_suite: TestSuite) -> TestStatus: max_test_case_status = bubble_up_errors(lambda x: x.status, test_suite.cases) return max_status(max_test_case_status, test_suite.status) def parse_test_suite(lines: List[str]) -> TestSuite: if not lines: return None consume_non_diagnositic(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 not expected_test_case_num: 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): 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('failed to parse end of suite' + lines[0]) return None TAP_HEADER = re.compile(r'^TAP version 14$') def parse_tap_header(lines: List[str]) -> bool: consume_non_diagnositic(lines) if TAP_HEADER.match(lines[0]): lines.pop(0) return True else: return False def bubble_up_suite_errors(test_suite_list: List[TestSuite]) -> TestStatus: return bubble_up_errors(lambda x: x.status, test_suite_list) def parse_test_result(lines: List[str]) -> TestResult: if not lines: return TestResult(TestStatus.NO_TESTS, [], lines) consume_non_diagnositic(lines) if not parse_tap_header(lines): return None test_suites = [] test_suite = parse_test_suite(lines) while test_suite: test_suites.append(test_suite) test_suite = parse_test_suite(lines) return TestResult(bubble_up_suite_errors(test_suites), test_suites, lines) def parse_run_tests(kernel_output) -> TestResult: total_tests = 0 failed_tests = 0 crashed_tests = 0 test_result = parse_test_result(list(isolate_kunit_output(kernel_output))) 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.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: total_tests += 1 if test_case.status == TestStatus.SUCCESS: print_with_timestamp(green('[PASSED] ') + test_case.name) elif test_case.status == TestStatus.TEST_CRASHED: crashed_tests += 1 print_with_timestamp(red('[CRASHED] ' + test_case.name)) print_log(map(yellow, test_case.log)) print_with_timestamp('') else: failed_tests += 1 print_with_timestamp(red('[FAILED] ') + test_case.name) print_log(map(yellow, test_case.log)) print_with_timestamp('') print_with_timestamp(DIVIDER) fmt = green if test_result.status == TestStatus.SUCCESS else red print_with_timestamp( fmt('Testing complete. %d tests run. %d failed. %d crashed.' % (total_tests, failed_tests, crashed_tests))) return test_result