| # SPDX-License-Identifier: GPL-2.0 |
| # |
| # Parses KTAP test results from a kernel dmesg log and incrementally prints |
| # results with reader-friendly format. Stores and returns test results in a |
| # Test object. |
| # |
| # Copyright (C) 2019, Google LLC. |
| # Author: Felix Guo <felixguoxiuping@gmail.com> |
| # Author: Brendan Higgins <brendanhiggins@google.com> |
| # Author: Rae Moar <rmoar@google.com> |
| |
| from __future__ import annotations |
| from dataclasses import dataclass |
| import re |
| import sys |
| import textwrap |
| |
| from enum import Enum, auto |
| from typing import Iterable, Iterator, List, Optional, Tuple |
| |
| from kunit_printer import stdout |
| |
| class Test: |
| """ |
| A class to represent a test parsed from KTAP results. All KTAP |
| results within a test log are stored in a main Test object as |
| subtests. |
| |
| Attributes: |
| status : TestStatus - status of the test |
| name : str - name of the test |
| expected_count : int - expected number of subtests (0 if single |
| test case and None if unknown expected number of subtests) |
| subtests : List[Test] - list of subtests |
| log : List[str] - log of KTAP lines that correspond to the test |
| counts : TestCounts - counts of the test statuses and errors of |
| subtests or of the test itself if the test is a single |
| test case. |
| """ |
| def __init__(self) -> None: |
| """Creates Test object with default attributes.""" |
| self.status = TestStatus.TEST_CRASHED |
| self.name = '' |
| self.expected_count = 0 # type: Optional[int] |
| self.subtests = [] # type: List[Test] |
| self.log = [] # type: List[str] |
| self.counts = TestCounts() |
| |
| def __str__(self) -> str: |
| """Returns string representation of a Test class object.""" |
| return (f'Test({self.status}, {self.name}, {self.expected_count}, ' |
| f'{self.subtests}, {self.log}, {self.counts})') |
| |
| def __repr__(self) -> str: |
| """Returns string representation of a Test class object.""" |
| return str(self) |
| |
| def add_error(self, error_message: str) -> None: |
| """Records an error that occurred while parsing this test.""" |
| self.counts.errors += 1 |
| stdout.print_with_timestamp(stdout.red('[ERROR]') + f' Test: {self.name}: {error_message}') |
| |
| def ok_status(self) -> bool: |
| """Returns true if the status was ok, i.e. passed or skipped.""" |
| return self.status in (TestStatus.SUCCESS, TestStatus.SKIPPED) |
| |
| class TestStatus(Enum): |
| """An enumeration class to represent the status of a test.""" |
| SUCCESS = auto() |
| FAILURE = auto() |
| SKIPPED = auto() |
| TEST_CRASHED = auto() |
| NO_TESTS = auto() |
| FAILURE_TO_PARSE_TESTS = auto() |
| |
| @dataclass |
| class TestCounts: |
| """ |
| Tracks the counts of statuses of all test cases and any errors within |
| a Test. |
| """ |
| passed: int = 0 |
| failed: int = 0 |
| crashed: int = 0 |
| skipped: int = 0 |
| errors: int = 0 |
| |
| def __str__(self) -> str: |
| """Returns the string representation of a TestCounts object.""" |
| statuses = [('passed', self.passed), ('failed', self.failed), |
| ('crashed', self.crashed), ('skipped', self.skipped), |
| ('errors', self.errors)] |
| return f'Ran {self.total()} tests: ' + \ |
| ', '.join(f'{s}: {n}' for s, n in statuses if n > 0) |
| |
| def total(self) -> int: |
| """Returns the total number of test cases within a test |
| object, where a test case is a test with no subtests. |
| """ |
| return (self.passed + self.failed + self.crashed + |
| self.skipped) |
| |
| def add_subtest_counts(self, counts: TestCounts) -> None: |
| """ |
| Adds the counts of another TestCounts object to the current |
| TestCounts object. Used to add the counts of a subtest to the |
| parent test. |
| |
| Parameters: |
| counts - a different TestCounts object whose counts |
| will be added to the counts of the TestCounts object |
| """ |
| self.passed += counts.passed |
| self.failed += counts.failed |
| self.crashed += counts.crashed |
| self.skipped += counts.skipped |
| self.errors += counts.errors |
| |
| def get_status(self) -> TestStatus: |
| """Returns the aggregated status of a Test using test |
| counts. |
| """ |
| if self.total() == 0: |
| return TestStatus.NO_TESTS |
| if self.crashed: |
| # Crashes should take priority. |
| return TestStatus.TEST_CRASHED |
| if self.failed: |
| return TestStatus.FAILURE |
| if self.passed: |
| # No failures or crashes, looks good! |
| return TestStatus.SUCCESS |
| # We have only skipped tests. |
| return TestStatus.SKIPPED |
| |
| def add_status(self, status: TestStatus) -> None: |
| """Increments the count for `status`.""" |
| if status == TestStatus.SUCCESS: |
| self.passed += 1 |
| elif status == TestStatus.FAILURE: |
| self.failed += 1 |
| elif status == TestStatus.SKIPPED: |
| self.skipped += 1 |
| elif status != TestStatus.NO_TESTS: |
| self.crashed += 1 |
| |
| class LineStream: |
| """ |
| A class to represent the lines of kernel output. |
| Provides a lazy peek()/pop() interface over an iterator of |
| (line#, text). |
| """ |
| _lines: Iterator[Tuple[int, str]] |
| _next: Tuple[int, str] |
| _need_next: bool |
| _done: bool |
| |
| def __init__(self, lines: Iterator[Tuple[int, str]]): |
| """Creates a new LineStream that wraps the given iterator.""" |
| self._lines = lines |
| self._done = False |
| self._need_next = True |
| self._next = (0, '') |
| |
| def _get_next(self) -> None: |
| """Advances the LineSteam to the next line, if necessary.""" |
| if not self._need_next: |
| return |
| try: |
| self._next = next(self._lines) |
| except StopIteration: |
| self._done = True |
| finally: |
| self._need_next = False |
| |
| def peek(self) -> str: |
| """Returns the current line, without advancing the LineStream. |
| """ |
| self._get_next() |
| return self._next[1] |
| |
| def pop(self) -> str: |
| """Returns the current line and advances the LineStream to |
| the next line. |
| """ |
| s = self.peek() |
| if self._done: |
| raise ValueError(f'LineStream: going past EOF, last line was {s}') |
| self._need_next = True |
| return s |
| |
| def __bool__(self) -> bool: |
| """Returns True if stream has more lines.""" |
| self._get_next() |
| return not self._done |
| |
| # Only used by kunit_tool_test.py. |
| def __iter__(self) -> Iterator[str]: |
| """Empties all lines stored in LineStream object into |
| Iterator object and returns the Iterator object. |
| """ |
| while bool(self): |
| yield self.pop() |
| |
| def line_number(self) -> int: |
| """Returns the line number of the current line.""" |
| self._get_next() |
| return self._next[0] |
| |
| # Parsing helper methods: |
| |
| KTAP_START = re.compile(r'\s*KTAP version ([0-9]+)$') |
| TAP_START = re.compile(r'\s*TAP version ([0-9]+)$') |
| KTAP_END = re.compile(r'\s*(List of all partitions:|' |
| 'Kernel panic - not syncing: VFS:|reboot: System halted)') |
| |
| def extract_tap_lines(kernel_output: Iterable[str]) -> LineStream: |
| """Extracts KTAP lines from the kernel output.""" |
| def isolate_ktap_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() # remove trailing \n |
| if not started and KTAP_START.search(line): |
| # start extracting KTAP lines and set prefix |
| # to number of characters before version line |
| prefix_len = len( |
| line.split('KTAP version')[0]) |
| started = True |
| yield line_num, line[prefix_len:] |
| elif not started and TAP_START.search(line): |
| # start extracting KTAP lines and set prefix |
| # to number of characters before version line |
| prefix_len = len(line.split('TAP version')[0]) |
| started = True |
| yield line_num, line[prefix_len:] |
| elif started and KTAP_END.search(line): |
| # stop extracting KTAP lines |
| break |
| elif started: |
| # remove the prefix, if any. |
| line = line[prefix_len:] |
| yield line_num, line |
| return LineStream(lines=isolate_ktap_output(kernel_output)) |
| |
| KTAP_VERSIONS = [1] |
| TAP_VERSIONS = [13, 14] |
| |
| def check_version(version_num: int, accepted_versions: List[int], |
| version_type: str, test: Test) -> None: |
| """ |
| Adds error to test object if version number is too high or too |
| low. |
| |
| Parameters: |
| version_num - The inputted version number from the parsed KTAP or TAP |
| header line |
| accepted_version - List of accepted KTAP or TAP versions |
| version_type - 'KTAP' or 'TAP' depending on the type of |
| version line. |
| test - Test object for current test being parsed |
| """ |
| if version_num < min(accepted_versions): |
| test.add_error(f'{version_type} version lower than expected!') |
| elif version_num > max(accepted_versions): |
| test.add_error(f'{version_type} version higer than expected!') |
| |
| def parse_ktap_header(lines: LineStream, test: Test) -> bool: |
| """ |
| Parses KTAP/TAP header line and checks version number. |
| Returns False if fails to parse KTAP/TAP header line. |
| |
| Accepted formats: |
| - 'KTAP version [version number]' |
| - 'TAP version [version number]' |
| |
| Parameters: |
| lines - LineStream of KTAP output to parse |
| test - Test object for current test being parsed |
| |
| Return: |
| True if successfully parsed KTAP/TAP header line |
| """ |
| ktap_match = KTAP_START.match(lines.peek()) |
| tap_match = TAP_START.match(lines.peek()) |
| if ktap_match: |
| version_num = int(ktap_match.group(1)) |
| check_version(version_num, KTAP_VERSIONS, 'KTAP', test) |
| elif tap_match: |
| version_num = int(tap_match.group(1)) |
| check_version(version_num, TAP_VERSIONS, 'TAP', test) |
| else: |
| return False |
| lines.pop() |
| return True |
| |
| TEST_HEADER = re.compile(r'^\s*# Subtest: (.*)$') |
| |
| def parse_test_header(lines: LineStream, test: Test) -> bool: |
| """ |
| Parses test header and stores test name in test object. |
| Returns False if fails to parse test header line. |
| |
| Accepted format: |
| - '# Subtest: [test name]' |
| |
| Parameters: |
| lines - LineStream of KTAP output to parse |
| test - Test object for current test being parsed |
| |
| Return: |
| True if successfully parsed test header line |
| """ |
| match = TEST_HEADER.match(lines.peek()) |
| if not match: |
| return False |
| test.name = match.group(1) |
| lines.pop() |
| return True |
| |
| TEST_PLAN = re.compile(r'^\s*1\.\.([0-9]+)') |
| |
| def parse_test_plan(lines: LineStream, test: Test) -> bool: |
| """ |
| Parses test plan line and stores the expected number of subtests in |
| test object. Reports an error if expected count is 0. |
| Returns False and sets expected_count to None if there is no valid test |
| plan. |
| |
| Accepted format: |
| - '1..[number of subtests]' |
| |
| Parameters: |
| lines - LineStream of KTAP output to parse |
| test - Test object for current test being parsed |
| |
| Return: |
| True if successfully parsed test plan line |
| """ |
| match = TEST_PLAN.match(lines.peek()) |
| if not match: |
| test.expected_count = None |
| return False |
| expected_count = int(match.group(1)) |
| test.expected_count = expected_count |
| lines.pop() |
| return True |
| |
| TEST_RESULT = re.compile(r'^\s*(ok|not ok) ([0-9]+) (- )?([^#]*)( # .*)?$') |
| |
| TEST_RESULT_SKIP = re.compile(r'^\s*(ok|not ok) ([0-9]+) (- )?(.*) # SKIP(.*)$') |
| |
| def peek_test_name_match(lines: LineStream, test: Test) -> bool: |
| """ |
| Matches current line with the format of a test result line and checks |
| if the name matches the name of the current test. |
| Returns False if fails to match format or name. |
| |
| Accepted format: |
| - '[ok|not ok] [test number] [-] [test name] [optional skip |
| directive]' |
| |
| Parameters: |
| lines - LineStream of KTAP output to parse |
| test - Test object for current test being parsed |
| |
| Return: |
| True if matched a test result line and the name matching the |
| expected test name |
| """ |
| line = lines.peek() |
| match = TEST_RESULT.match(line) |
| if not match: |
| return False |
| name = match.group(4) |
| return name == test.name |
| |
| def parse_test_result(lines: LineStream, test: Test, |
| expected_num: int) -> bool: |
| """ |
| Parses test result line and stores the status and name in the test |
| object. Reports an error if the test number does not match expected |
| test number. |
| Returns False if fails to parse test result line. |
| |
| Note that the SKIP directive is the only direction that causes a |
| change in status. |
| |
| Accepted format: |
| - '[ok|not ok] [test number] [-] [test name] [optional skip |
| directive]' |
| |
| Parameters: |
| lines - LineStream of KTAP output to parse |
| test - Test object for current test being parsed |
| expected_num - expected test number for current test |
| |
| Return: |
| True if successfully parsed a test result line. |
| """ |
| line = lines.peek() |
| match = TEST_RESULT.match(line) |
| skip_match = TEST_RESULT_SKIP.match(line) |
| |
| # Check if line matches test result line format |
| if not match: |
| return False |
| lines.pop() |
| |
| # Set name of test object |
| if skip_match: |
| test.name = skip_match.group(4) |
| else: |
| test.name = match.group(4) |
| |
| # Check test num |
| num = int(match.group(2)) |
| if num != expected_num: |
| test.add_error(f'Expected test number {expected_num} but found {num}') |
| |
| # Set status of test object |
| status = match.group(1) |
| if skip_match: |
| test.status = TestStatus.SKIPPED |
| elif status == 'ok': |
| test.status = TestStatus.SUCCESS |
| else: |
| test.status = TestStatus.FAILURE |
| return True |
| |
| def parse_diagnostic(lines: LineStream) -> List[str]: |
| """ |
| Parse lines that do not match the format of a test result line or |
| test header line and returns them in list. |
| |
| Line formats that are not parsed: |
| - '# Subtest: [test name]' |
| - '[ok|not ok] [test number] [-] [test name] [optional skip |
| directive]' |
| - 'KTAP version [version number]' |
| |
| Parameters: |
| lines - LineStream of KTAP output to parse |
| |
| Return: |
| Log of diagnostic lines |
| """ |
| log = [] # type: List[str] |
| non_diagnostic_lines = [TEST_RESULT, TEST_HEADER, KTAP_START] |
| while lines and not any(re.match(lines.peek()) |
| for re in non_diagnostic_lines): |
| log.append(lines.pop()) |
| return log |
| |
| |
| # Printing helper methods: |
| |
| DIVIDER = '=' * 60 |
| |
| def format_test_divider(message: str, len_message: int) -> str: |
| """ |
| Returns string with message centered in fixed width divider. |
| |
| Example: |
| '===================== message example =====================' |
| |
| Parameters: |
| message - message to be centered in divider line |
| len_message - length of the message to be printed such that |
| any characters of the color codes are not counted |
| |
| Return: |
| String containing message centered in fixed width divider |
| """ |
| default_count = 3 # default number of dashes |
| len_1 = default_count |
| len_2 = default_count |
| difference = len(DIVIDER) - len_message - 2 # 2 spaces added |
| if difference > 0: |
| # calculate number of dashes for each side of the divider |
| len_1 = int(difference / 2) |
| len_2 = difference - len_1 |
| return ('=' * len_1) + f' {message} ' + ('=' * len_2) |
| |
| def print_test_header(test: Test) -> None: |
| """ |
| Prints test header with test name and optionally the expected number |
| of subtests. |
| |
| Example: |
| '=================== example (2 subtests) ===================' |
| |
| Parameters: |
| test - Test object representing current test being printed |
| """ |
| message = test.name |
| if message != "": |
| # Add a leading space before the subtest counts only if a test name |
| # is provided using a "# Subtest" header line. |
| message += " " |
| if test.expected_count: |
| if test.expected_count == 1: |
| message += '(1 subtest)' |
| else: |
| message += f'({test.expected_count} subtests)' |
| stdout.print_with_timestamp(format_test_divider(message, len(message))) |
| |
| def print_log(log: Iterable[str]) -> None: |
| """Prints all strings in saved log for test in yellow.""" |
| formatted = textwrap.dedent('\n'.join(log)) |
| for line in formatted.splitlines(): |
| stdout.print_with_timestamp(stdout.yellow(line)) |
| |
| def format_test_result(test: Test) -> str: |
| """ |
| Returns string with formatted test result with colored status and test |
| name. |
| |
| Example: |
| '[PASSED] example' |
| |
| Parameters: |
| test - Test object representing current test being printed |
| |
| Return: |
| String containing formatted test result |
| """ |
| if test.status == TestStatus.SUCCESS: |
| return stdout.green('[PASSED] ') + test.name |
| if test.status == TestStatus.SKIPPED: |
| return stdout.yellow('[SKIPPED] ') + test.name |
| if test.status == TestStatus.NO_TESTS: |
| return stdout.yellow('[NO TESTS RUN] ') + test.name |
| if test.status == TestStatus.TEST_CRASHED: |
| print_log(test.log) |
| return stdout.red('[CRASHED] ') + test.name |
| print_log(test.log) |
| return stdout.red('[FAILED] ') + test.name |
| |
| def print_test_result(test: Test) -> None: |
| """ |
| Prints result line with status of test. |
| |
| Example: |
| '[PASSED] example' |
| |
| Parameters: |
| test - Test object representing current test being printed |
| """ |
| stdout.print_with_timestamp(format_test_result(test)) |
| |
| def print_test_footer(test: Test) -> None: |
| """ |
| Prints test footer with status of test. |
| |
| Example: |
| '===================== [PASSED] example =====================' |
| |
| Parameters: |
| test - Test object representing current test being printed |
| """ |
| message = format_test_result(test) |
| stdout.print_with_timestamp(format_test_divider(message, |
| len(message) - stdout.color_len())) |
| |
| |
| |
| def _summarize_failed_tests(test: Test) -> str: |
| """Tries to summarize all the failing subtests in `test`.""" |
| |
| def failed_names(test: Test, parent_name: str) -> List[str]: |
| # Note: we use 'main' internally for the top-level test. |
| if not parent_name or parent_name == 'main': |
| full_name = test.name |
| else: |
| full_name = parent_name + '.' + test.name |
| |
| if not test.subtests: # this is a leaf node |
| return [full_name] |
| |
| # If all the children failed, just say this subtest failed. |
| # Don't summarize it down "the top-level test failed", though. |
| failed_subtests = [sub for sub in test.subtests if not sub.ok_status()] |
| if parent_name and len(failed_subtests) == len(test.subtests): |
| return [full_name] |
| |
| all_failures = [] # type: List[str] |
| for t in failed_subtests: |
| all_failures.extend(failed_names(t, full_name)) |
| return all_failures |
| |
| failures = failed_names(test, '') |
| # If there are too many failures, printing them out will just be noisy. |
| if len(failures) > 10: # this is an arbitrary limit |
| return '' |
| |
| return 'Failures: ' + ', '.join(failures) |
| |
| |
| def print_summary_line(test: Test) -> None: |
| """ |
| Prints summary line of test object. Color of line is dependent on |
| status of test. Color is green if test passes, yellow if test is |
| skipped, and red if the test fails or crashes. Summary line contains |
| counts of the statuses of the tests subtests or the test itself if it |
| has no subtests. |
| |
| Example: |
| "Testing complete. Passed: 2, Failed: 0, Crashed: 0, Skipped: 0, |
| Errors: 0" |
| |
| test - Test object representing current test being printed |
| """ |
| if test.status == TestStatus.SUCCESS: |
| color = stdout.green |
| elif test.status in (TestStatus.SKIPPED, TestStatus.NO_TESTS): |
| color = stdout.yellow |
| else: |
| color = stdout.red |
| stdout.print_with_timestamp(color(f'Testing complete. {test.counts}')) |
| |
| # Summarize failures that might have gone off-screen since we had a lot |
| # of tests (arbitrarily defined as >=100 for now). |
| if test.ok_status() or test.counts.total() < 100: |
| return |
| summarized = _summarize_failed_tests(test) |
| if not summarized: |
| return |
| stdout.print_with_timestamp(color(summarized)) |
| |
| # Other methods: |
| |
| def bubble_up_test_results(test: Test) -> None: |
| """ |
| If the test has subtests, add the test counts of the subtests to the |
| test and check if any of the tests crashed and if so set the test |
| status to crashed. Otherwise if the test has no subtests add the |
| status of the test to the test counts. |
| |
| Parameters: |
| test - Test object for current test being parsed |
| """ |
| subtests = test.subtests |
| counts = test.counts |
| status = test.status |
| for t in subtests: |
| counts.add_subtest_counts(t.counts) |
| if counts.total() == 0: |
| counts.add_status(status) |
| elif test.counts.get_status() == TestStatus.TEST_CRASHED: |
| test.status = TestStatus.TEST_CRASHED |
| |
| def parse_test(lines: LineStream, expected_num: int, log: List[str], is_subtest: bool) -> Test: |
| """ |
| Finds next test to parse in LineStream, creates new Test object, |
| parses any subtests of the test, populates Test object with all |
| information (status, name) about the test and the Test objects for |
| any subtests, and then returns the Test object. The method accepts |
| three formats of tests: |
| |
| Accepted test formats: |
| |
| - Main KTAP/TAP header |
| |
| Example: |
| |
| KTAP version 1 |
| 1..4 |
| [subtests] |
| |
| - Subtest header (must include either the KTAP version line or |
| "# Subtest" header line) |
| |
| Example (preferred format with both KTAP version line and |
| "# Subtest" line): |
| |
| KTAP version 1 |
| # Subtest: name |
| 1..3 |
| [subtests] |
| ok 1 name |
| |
| Example (only "# Subtest" line): |
| |
| # Subtest: name |
| 1..3 |
| [subtests] |
| ok 1 name |
| |
| Example (only KTAP version line, compliant with KTAP v1 spec): |
| |
| KTAP version 1 |
| 1..3 |
| [subtests] |
| ok 1 name |
| |
| - Test result line |
| |
| Example: |
| |
| ok 1 - test |
| |
| Parameters: |
| lines - LineStream of KTAP output to parse |
| expected_num - expected test number for test to be parsed |
| log - list of strings containing any preceding diagnostic lines |
| corresponding to the current test |
| is_subtest - boolean indicating whether test is a subtest |
| |
| Return: |
| Test object populated with characteristics and any subtests |
| """ |
| test = Test() |
| test.log.extend(log) |
| if not is_subtest: |
| # If parsing the main/top-level test, parse KTAP version line and |
| # test plan |
| test.name = "main" |
| ktap_line = parse_ktap_header(lines, test) |
| parse_test_plan(lines, test) |
| parent_test = True |
| else: |
| # If not the main test, attempt to parse a test header containing |
| # the KTAP version line and/or subtest header line |
| ktap_line = parse_ktap_header(lines, test) |
| subtest_line = parse_test_header(lines, test) |
| parent_test = (ktap_line or subtest_line) |
| if parent_test: |
| # If KTAP version line and/or subtest header is found, attempt |
| # to parse test plan and print test header |
| parse_test_plan(lines, test) |
| print_test_header(test) |
| expected_count = test.expected_count |
| subtests = [] |
| test_num = 1 |
| while parent_test and (expected_count is None or test_num <= expected_count): |
| # Loop to parse any subtests. |
| # Break after parsing expected number of tests or |
| # if expected number of tests is unknown break when test |
| # result line with matching name to subtest header is found |
| # or no more lines in stream. |
| sub_log = parse_diagnostic(lines) |
| sub_test = Test() |
| if not lines or (peek_test_name_match(lines, test) and |
| is_subtest): |
| if expected_count and test_num <= expected_count: |
| # If parser reaches end of test before |
| # parsing expected number of subtests, print |
| # crashed subtest and record error |
| test.add_error('missing expected subtest!') |
| sub_test.log.extend(sub_log) |
| test.counts.add_status( |
| TestStatus.TEST_CRASHED) |
| print_test_result(sub_test) |
| else: |
| test.log.extend(sub_log) |
| break |
| else: |
| sub_test = parse_test(lines, test_num, sub_log, True) |
| subtests.append(sub_test) |
| test_num += 1 |
| test.subtests = subtests |
| if is_subtest: |
| # If not main test, look for test result line |
| test.log.extend(parse_diagnostic(lines)) |
| if test.name != "" and not peek_test_name_match(lines, test): |
| test.add_error('missing subtest result line!') |
| else: |
| parse_test_result(lines, test, expected_num) |
| |
| # Check for there being no subtests within parent test |
| if parent_test and len(subtests) == 0: |
| # Don't override a bad status if this test had one reported. |
| # Assumption: no subtests means CRASHED is from Test.__init__() |
| if test.status in (TestStatus.TEST_CRASHED, TestStatus.SUCCESS): |
| test.status = TestStatus.NO_TESTS |
| test.add_error('0 tests run!') |
| |
| # Add statuses to TestCounts attribute in Test object |
| bubble_up_test_results(test) |
| if parent_test and is_subtest: |
| # If test has subtests and is not the main test object, print |
| # footer. |
| print_test_footer(test) |
| elif is_subtest: |
| print_test_result(test) |
| return test |
| |
| def parse_run_tests(kernel_output: Iterable[str]) -> Test: |
| """ |
| Using kernel output, extract KTAP lines, parse the lines for test |
| results and print condensed test results and summary line. |
| |
| Parameters: |
| kernel_output - Iterable object contains lines of kernel output |
| |
| Return: |
| Test - the main test object with all subtests. |
| """ |
| stdout.print_with_timestamp(DIVIDER) |
| lines = extract_tap_lines(kernel_output) |
| test = Test() |
| if not lines: |
| test.name = '<missing>' |
| test.add_error('Could not find any KTAP output. Did any KUnit tests run?') |
| test.status = TestStatus.FAILURE_TO_PARSE_TESTS |
| else: |
| test = parse_test(lines, 0, [], False) |
| if test.status != TestStatus.NO_TESTS: |
| test.status = test.counts.get_status() |
| stdout.print_with_timestamp(DIVIDER) |
| print_summary_line(test) |
| return test |