# SPDX-License-Identifier: Apache-2.0 from __future__ import annotations import json import logging import os import platform import re import shlex import shutil import subprocess import sys import threading import time import xml.etree.ElementTree as ET from collections import OrderedDict from enum import Enum from pytest import ExitCode from twisterlib.constants import SUPPORTED_SIMS_IN_PYTEST from twisterlib.environment import PYTEST_PLUGIN_INSTALLED, ZEPHYR_BASE from twisterlib.error import ConfigurationError, StatusAttributeError from twisterlib.handlers import Handler, terminate_process from twisterlib.reports import ReportStatus from twisterlib.statuses import TwisterStatus from twisterlib.testinstance import TestInstance logger = logging.getLogger('twister') logger.setLevel(logging.DEBUG) _WINDOWS = platform.system() == 'Windows' class Harness: GCOV_START = "GCOV_COVERAGE_DUMP_START" GCOV_END = "GCOV_COVERAGE_DUMP_END" FAULT = "ZEPHYR FATAL ERROR" RUN_PASSED = "PROJECT EXECUTION SUCCESSFUL" RUN_FAILED = "PROJECT EXECUTION FAILED" run_id_pattern = r"RunID: (?P.*)" def __init__(self): self._status = TwisterStatus.NONE self.reason = None self.type = None self.regex = [] self.matches = OrderedDict() self.ordered = True self.id = None self.fail_on_fault = True self.fault = False self.capture_coverage = False self.next_pattern = 0 self.record = None self.record_pattern = None self.record_as_json = None self.recording = [] self.ztest = False self.detected_suite_names = [] self.run_id = None self.started_suites = {} self.started_cases = {} self.matched_run_id = False self.run_id_exists = False self.instance: TestInstance | None = None self.testcase_output = "" self._match = False @property def trace(self) -> bool: return self.instance.handler.options.verbose > 2 @property def status(self) -> TwisterStatus: return self._status @status.setter def status(self, value : TwisterStatus) -> None: # Check for illegal assignments by value try: key = value.name if isinstance(value, Enum) else value self._status = TwisterStatus[key] except KeyError as err: raise StatusAttributeError(self.__class__, value) from err def configure(self, instance): self.instance = instance config = instance.testsuite.harness_config self.id = instance.testsuite.id self.run_id = instance.run_id if instance.testsuite.ignore_faults: self.fail_on_fault = False if config: self.type = config.get('type', None) self.regex = config.get('regex', []) self.ordered = config.get('ordered', True) self.record = config.get('record', {}) if self.record: self.record_pattern = re.compile(self.record.get("regex", "")) self.record_as_json = self.record.get("as_json") def build(self): pass def get_testcase_name(self): """ Get current TestCase name. """ return self.id def translate_record(self, record: dict) -> dict: if self.record_as_json: for k in self.record_as_json: if k not in record: continue try: record[k] = json.loads(record[k]) if record[k] else {} except json.JSONDecodeError as parse_error: logger.warning(f"HARNESS:{self.__class__.__name__}: recording JSON failed:" f" {parse_error} for '{k}':'{record[k]}'") # Don't set the Harness state to failed for recordings. record[k] = { 'ERROR': { 'msg': str(parse_error), 'doc': record[k] } } return record def parse_record(self, line) -> re.Match: match = None if self.record_pattern: match = self.record_pattern.search(line) if match: rec = self.translate_record( { k:v.strip() for k,v in match.groupdict(default="").items() } ) self.recording.append(rec) return match # def process_test(self, line): self.parse_record(line) runid_match = re.search(self.run_id_pattern, line) if runid_match: run_id = runid_match.group("run_id") self.run_id_exists = True if run_id == str(self.run_id): self.matched_run_id = True if self.RUN_PASSED in line: if self.fault: self.status = TwisterStatus.FAIL self.reason = "Fault detected while running test" else: self.status = TwisterStatus.PASS if self.RUN_FAILED in line: self.status = TwisterStatus.FAIL self.reason = "Testsuite failed" if self.fail_on_fault and line == self.FAULT: self.fault = True if self.GCOV_START in line: self.capture_coverage = True elif self.GCOV_END in line: self.capture_coverage = False class Robot(Harness): is_robot_test = True def configure(self, instance): super().configure(instance) self.instance = instance config = instance.testsuite.harness_config if config: self.path = config.get('robot_testsuite', None) self.option = config.get('robot_option', None) def handle(self, line): ''' Test cases that make use of this harness care about results given by Robot Framework which is called in run_robot_test(), so works of this handle is trying to give a PASS or FAIL to avoid timeout, nothing is writen into handler.log ''' self.instance.status = TwisterStatus.PASS tc = self.instance.get_case_or_create(self.id) tc.status = TwisterStatus.PASS def run_robot_test(self, command, handler): start_time = time.time() env = os.environ.copy() if self.option: if isinstance(self.option, list): for option in self.option: for v in str(option).split(): command.append(f'{v}') else: for v in str(self.option).split(): command.append(f'{v}') if self.path is None: raise PytestHarnessException('The parameter robot_testsuite is mandatory') if isinstance(self.path, list): for suite in self.path: command.append(os.path.join(handler.sourcedir, suite)) else: command.append(os.path.join(handler.sourcedir, self.path)) with subprocess.Popen(command, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, cwd=self.instance.build_dir, env=env) as renode_test_proc: out, _ = renode_test_proc.communicate() self.instance.execution_time = time.time() - start_time if renode_test_proc.returncode == 0: self.instance.status = TwisterStatus.PASS # all tests in one Robot file are treated as a single test case, # so its status should be set accordingly to the instance status # please note that there should be only one testcase in testcases list self.instance.testcases[0].status = TwisterStatus.PASS else: logger.error( f"Robot test failure: {handler.sourcedir} for {self.instance.platform.name}" ) self.instance.status = TwisterStatus.FAIL self.instance.testcases[0].status = TwisterStatus.FAIL if out: with open(os.path.join(self.instance.build_dir, handler.log), 'w') as log: log_msg = out.decode(sys.getdefaultencoding()) log.write(log_msg) class Console(Harness): def get_testcase_name(self): ''' Get current TestCase name. Console Harness id has only TestSuite id without TestCase name suffix. Only the first TestCase name might be taken if available when a Ztest with a single test case is configured to use this harness type for simplified output parsing instead of the Ztest harness as Ztest suite should do. ''' if self.instance and len(self.instance.testcases) == 1: return self.instance.testcases[0].name return super().get_testcase_name() def configure(self, instance): super().configure(instance) if self.regex is None or len(self.regex) == 0: self.status = TwisterStatus.FAIL tc = self.instance.set_case_status_by_name( self.get_testcase_name(), TwisterStatus.FAIL, f"HARNESS:{self.__class__.__name__}:no regex patterns configured." ) raise ConfigurationError(self.instance.name, tc.reason) if self.type == "one_line": self.pattern = re.compile(self.regex[0]) self.patterns_expected = 1 elif self.type == "multi_line": self.patterns = [] for r in self.regex: self.patterns.append(re.compile(r)) self.patterns_expected = len(self.patterns) else: self.status = TwisterStatus.FAIL tc = self.instance.set_case_status_by_name( self.get_testcase_name(), TwisterStatus.FAIL, f"HARNESS:{self.__class__.__name__}:incorrect type={self.type}" ) raise ConfigurationError(self.instance.name, tc.reason) # def handle(self, line): if self.type == "one_line": if self.pattern.search(line): logger.debug(f"HARNESS:{self.__class__.__name__}:EXPECTED:" f"'{self.pattern.pattern}'") self.next_pattern += 1 self.status = TwisterStatus.PASS elif self.type == "multi_line" and self.ordered: if (self.next_pattern < len(self.patterns) and self.patterns[self.next_pattern].search(line)): logger.debug(f"HARNESS:{self.__class__.__name__}:EXPECTED(" f"{self.next_pattern + 1}/{self.patterns_expected}):" f"'{self.patterns[self.next_pattern].pattern}'") self.next_pattern += 1 if self.next_pattern >= len(self.patterns): self.status = TwisterStatus.PASS elif self.type == "multi_line" and not self.ordered: for i, pattern in enumerate(self.patterns): r = self.regex[i] if pattern.search(line) and r not in self.matches: self.matches[r] = line logger.debug(f"HARNESS:{self.__class__.__name__}:EXPECTED(" f"{len(self.matches)}/{self.patterns_expected}):" f"'{pattern.pattern}'") if len(self.matches) == len(self.regex): self.status = TwisterStatus.PASS else: logger.error("Unknown harness_config type") if self.fail_on_fault and self.FAULT in line: self.fault = True if self.GCOV_START in line: self.capture_coverage = True elif self.GCOV_END in line: self.capture_coverage = False self.process_test(line) # Reset the resulting test state to FAIL when not all of the patterns were # found in the output, but just ztest's 'PROJECT EXECUTION SUCCESSFUL'. # It might happen because of the pattern sequence diverged from the # test code, the test platform has console issues, or even some other # test image was executed. # TODO: Introduce explicit match policy type to reject # unexpected console output, allow missing patterns, deny duplicates. if self.status == TwisterStatus.PASS and \ self.ordered and \ self.next_pattern < self.patterns_expected: logger.error(f"HARNESS:{self.__class__.__name__}: failed with" f" {self.next_pattern} of {self.patterns_expected}" f" expected ordered patterns.") self.status = TwisterStatus.FAIL self.reason = "patterns did not match (ordered)" if self.status == TwisterStatus.PASS and \ not self.ordered and \ len(self.matches) < self.patterns_expected: logger.error(f"HARNESS:{self.__class__.__name__}: failed with" f" {len(self.matches)} of {self.patterns_expected}" f" expected unordered patterns.") self.status = TwisterStatus.FAIL self.reason = "patterns did not match (unordered)" tc = self.instance.get_case_or_create(self.get_testcase_name()) if self.status == TwisterStatus.PASS: tc.status = TwisterStatus.PASS else: tc.status = TwisterStatus.FAIL class PytestHarnessException(Exception): """General exception for pytest.""" class Pytest(Harness): def configure(self, instance: TestInstance): super().configure(instance) self.running_dir = instance.build_dir self.source_dir = instance.testsuite.source_dir self.report_file = os.path.join(self.running_dir, 'report.xml') self.pytest_log_file_path = os.path.join(self.running_dir, 'twister_harness.log') self.reserved_dut = None self._output = [] def pytest_run(self, timeout): try: cmd = self.generate_command() self.run_command(cmd, timeout) except PytestHarnessException as pytest_exception: logger.error(str(pytest_exception)) self.status = TwisterStatus.FAIL self.instance.reason = str(pytest_exception) finally: self.instance.record(self.recording) self._update_test_status() if self.reserved_dut: self.instance.handler.make_dut_available(self.reserved_dut) def generate_command(self): config = self.instance.testsuite.harness_config handler: Handler = self.instance.handler pytest_root = config.get('pytest_root', ['pytest']) if config else ['pytest'] pytest_args_yaml = config.get('pytest_args', []) if config else [] pytest_dut_scope = config.get('pytest_dut_scope', None) if config else None command = [ 'pytest', '--twister-harness', '-s', '-v', f'--build-dir={self.running_dir}', f'--junit-xml={self.report_file}', '--log-file-level=DEBUG', '--log-file-format=%(asctime)s.%(msecs)03d:%(levelname)s:%(name)s: %(message)s', f'--log-file={self.pytest_log_file_path}', f'--platform={self.instance.platform.name}' ] command.extend([os.path.normpath(os.path.join( self.source_dir, os.path.expanduser(os.path.expandvars(src)))) for src in pytest_root]) if pytest_dut_scope: command.append(f'--dut-scope={pytest_dut_scope}') # Always pass output from the pytest test and the test image up to Twister log. command.extend([ '--log-cli-level=DEBUG', '--log-cli-format=%(levelname)s: %(message)s' ]) # Use the test timeout as the base timeout for pytest base_timeout = handler.get_test_timeout() command.append(f'--base-timeout={base_timeout}') if handler.type_str == 'device': command.extend( self._generate_parameters_for_hardware(handler) ) elif handler.type_str in SUPPORTED_SIMS_IN_PYTEST: command.append(f'--device-type={handler.type_str}') elif handler.type_str == 'build': command.append('--device-type=custom') else: raise PytestHarnessException( f'Support for handler {handler.type_str} not implemented yet' ) if handler.type_str != 'device': for fixture in handler.options.fixture: command.append(f'--twister-fixture={fixture}') if handler.options.extra_test_args and handler.type_str == 'native': command.append(f'--extra-test-args={shlex.join(handler.options.extra_test_args)}') command.extend(pytest_args_yaml) if handler.options.pytest_args: command.extend(handler.options.pytest_args) return command def _generate_parameters_for_hardware(self, handler: Handler): command = ['--device-type=hardware'] hardware = handler.get_hardware() if not hardware: raise PytestHarnessException('Hardware is not available') # update the instance with the device id to have it in the summary report self.instance.dut = hardware.id self.reserved_dut = hardware if hardware.serial_pty: command.append(f'--device-serial-pty={hardware.serial_pty}') else: command.extend([ f'--device-serial={hardware.serial}', f'--device-serial-baud={hardware.baud}' ]) if hardware.flash_timeout: command.append(f'--flash-timeout={hardware.flash_timeout}') options = handler.options if runner := hardware.runner or options.west_runner: command.append(f'--runner={runner}') if hardware.runner_params: for param in hardware.runner_params: command.append(f'--runner-params={param}') if options.west_flash and options.west_flash != []: command.append(f'--west-flash-extra-args={options.west_flash}') if board_id := hardware.probe_id or hardware.id: command.append(f'--device-id={board_id}') if hardware.product: command.append(f'--device-product={hardware.product}') if hardware.pre_script: command.append(f'--pre-script={hardware.pre_script}') if hardware.post_flash_script: command.append(f'--post-flash-script={hardware.post_flash_script}') if hardware.post_script: command.append(f'--post-script={hardware.post_script}') if hardware.flash_before: command.append(f'--flash-before={hardware.flash_before}') for fixture in hardware.fixtures: command.append(f'--twister-fixture={fixture}') return command def run_command(self, cmd, timeout): cmd, env = self._update_command_with_env_dependencies(cmd) with subprocess.Popen( cmd, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, env=env ) as proc: try: reader_t = threading.Thread(target=self._output_reader, args=(proc,), daemon=True) reader_t.start() reader_t.join(timeout) if reader_t.is_alive(): terminate_process(proc) logger.warning('Timeout has occurred. Can be extended in testspec file. ' f'Currently set to {timeout} seconds.') self.instance.reason = 'Pytest timeout' self.status = TwisterStatus.FAIL proc.wait(timeout) except subprocess.TimeoutExpired: self.status = TwisterStatus.FAIL proc.kill() if proc.returncode in (ExitCode.INTERRUPTED, ExitCode.USAGE_ERROR, ExitCode.INTERNAL_ERROR): self.status = TwisterStatus.ERROR self.instance.reason = f'Pytest error - return code {proc.returncode}' with open(self.pytest_log_file_path, 'w') as log_file: log_file.write(shlex.join(cmd) + '\n\n') log_file.write('\n'.join(self._output)) @staticmethod def _update_command_with_env_dependencies(cmd): ''' If python plugin wasn't installed by pip, then try to indicate it to pytest by update PYTHONPATH and append -p argument to pytest command. ''' env = os.environ.copy() if not PYTEST_PLUGIN_INSTALLED: cmd.extend(['-p', 'twister_harness.plugin']) pytest_plugin_path = os.path.join( ZEPHYR_BASE, 'scripts', 'pylib', 'pytest-twister-harness', 'src' ) env['PYTHONPATH'] = pytest_plugin_path + os.pathsep + env.get('PYTHONPATH', '') if _WINDOWS: cmd_append_python_path = f'set PYTHONPATH={pytest_plugin_path};%PYTHONPATH% && ' else: cmd_append_python_path = ( f'export PYTHONPATH={pytest_plugin_path}:${{PYTHONPATH}} && ' ) else: cmd_append_python_path = '' cmd_to_print = cmd_append_python_path + shlex.join(cmd) logger.debug(f'Running pytest command: {cmd_to_print}') return cmd, env def _output_reader(self, proc): self._output = [] while proc.stdout.readable() and proc.poll() is None: line = proc.stdout.readline().decode().strip() if not line: continue self._output.append(line) logger.debug(f'PYTEST: {line}') self.parse_record(line) proc.communicate() def _update_test_status(self): if self.status == TwisterStatus.NONE: self.instance.testcases = [] try: self._parse_report_file(self.report_file) except Exception as e: logger.error(f'Error when parsing file {self.report_file}: {e}') self.status = TwisterStatus.FAIL finally: if not self.instance.testcases: self.instance.init_cases() self.instance.status = self.status if self.status != TwisterStatus.NONE else \ TwisterStatus.FAIL if self.instance.status in [TwisterStatus.ERROR, TwisterStatus.FAIL]: self.instance.reason = self.instance.reason or 'Pytest failed' self.instance.add_missing_case_status(TwisterStatus.BLOCK, self.instance.reason) def _parse_report_file(self, report): tree = ET.parse(report) root = tree.getroot() if (elem_ts := root.find('testsuite')) is not None: if elem_ts.get('failures') != '0': self.status = TwisterStatus.FAIL self.instance.reason = ( f"{elem_ts.get('failures')}/{elem_ts.get('tests')} pytest scenario(s) failed" ) elif elem_ts.get('errors') != '0': self.status = TwisterStatus.ERROR self.instance.reason = 'Error during pytest execution' elif elem_ts.get('skipped') == elem_ts.get('tests'): self.status = TwisterStatus.SKIP else: self.status = TwisterStatus.PASS self.instance.execution_time = float(elem_ts.get('time')) for elem_tc in elem_ts.findall('testcase'): tc = self.instance.add_testcase(f"{self.id}.{elem_tc.get('name')}") tc.duration = float(elem_tc.get('time')) elem = elem_tc.find('*') if elem is None: tc.status = TwisterStatus.PASS else: if elem.tag == ReportStatus.SKIP: tc.status = TwisterStatus.SKIP elif elem.tag == ReportStatus.FAIL: tc.status = TwisterStatus.FAIL else: tc.status = TwisterStatus.ERROR tc.reason = elem.get('message') tc.output = elem.text else: self.status = TwisterStatus.SKIP self.instance.reason = 'No tests collected' class Gtest(Harness): ANSI_ESCAPE = re.compile(r'\x1B(?:[@-Z\\-_]|\[[0-?]*[ -/]*[@-~])') _NAME_PATTERN = "[a-zA-Z_][a-zA-Z0-9_]*" _SUITE_TEST_NAME_PATTERN = f"(?P{_NAME_PATTERN})\\.(?P{_NAME_PATTERN})" TEST_START_PATTERN = f".*\\[ RUN \\] {_SUITE_TEST_NAME_PATTERN}" TEST_PASS_PATTERN = f".*\\[ OK \\] {_SUITE_TEST_NAME_PATTERN}" TEST_SKIP_PATTERN = f".*\\[ DISABLED \\] {_SUITE_TEST_NAME_PATTERN}" TEST_FAIL_PATTERN = f".*\\[ FAILED \\] {_SUITE_TEST_NAME_PATTERN}" FINISHED_PATTERN = ( ".*(?:\\[==========\\] Done running all tests\\.|" + "\\[----------\\] Global test environment tear-down)" ) def __init__(self): super().__init__() self.tc = None self.has_failures = False def handle(self, line): # Strip the ANSI characters, they mess up the patterns non_ansi_line = self.ANSI_ESCAPE.sub('', line) if self.status != TwisterStatus.NONE: return # Check if we started running a new test test_start_match = re.search(self.TEST_START_PATTERN, non_ansi_line) if test_start_match: # Add the suite name suite_name = test_start_match.group("suite_name") if suite_name not in self.detected_suite_names: self.detected_suite_names.append(suite_name) # Generate the internal name of the test name = "{}.{}.{}".format(self.id, suite_name, test_start_match.group("test_name")) # Assert that we don't already have a running test assert ( self.tc is None ), f"gTest error, {self.tc} didn't finish" # Check that the instance doesn't exist yet (prevents re-running) tc = self.instance.get_case_by_name(name) assert tc is None, f"gTest error, {tc} running twice" # Create the test instance and set the context tc = self.instance.get_case_or_create(name) self.tc = tc self.tc.status = TwisterStatus.STARTED self.testcase_output += line + "\n" self._match = True # Check if the test run finished finished_match = re.search(self.FINISHED_PATTERN, non_ansi_line) if finished_match: tc = self.instance.get_case_or_create(self.id) if self.has_failures or self.tc is not None: self.status = TwisterStatus.FAIL tc.status = TwisterStatus.FAIL else: self.status = TwisterStatus.PASS tc.status = TwisterStatus.PASS return # Check if the individual test finished state, name = self._check_result(non_ansi_line) if state == TwisterStatus.NONE or name is None: # Nothing finished, keep processing lines return # Get the matching test and make sure it's the same as the current context tc = self.instance.get_case_by_name(name) assert ( tc is not None and tc == self.tc ), f"gTest error, mismatched tests. Expected {self.tc} but got {tc}" # Test finished, clear the context self.tc = None # Update the status of the test tc.status = state if tc.status == TwisterStatus.FAIL: self.has_failures = True tc.output = self.testcase_output self.testcase_output = "" self._match = False def _check_result(self, line): test_pass_match = re.search(self.TEST_PASS_PATTERN, line) if test_pass_match: return TwisterStatus.PASS, \ "{}.{}.{}".format( self.id, test_pass_match.group("suite_name"), test_pass_match.group("test_name") ) test_skip_match = re.search(self.TEST_SKIP_PATTERN, line) if test_skip_match: return TwisterStatus.SKIP, \ "{}.{}.{}".format( self.id, test_skip_match.group("suite_name"), test_skip_match.group("test_name") ) test_fail_match = re.search(self.TEST_FAIL_PATTERN, line) if test_fail_match: return TwisterStatus.FAIL, \ "{}.{}.{}".format( self.id, test_fail_match.group("suite_name"), test_fail_match.group("test_name") ) return None, None class Test(Harness): __test__ = False # for pytest to skip this class when collects tests test_suite_start_pattern = re.compile(r"Running TESTSUITE (?P\S*)") test_suite_end_pattern = re.compile( r"TESTSUITE (?P\S*)\s+(?Psucceeded|failed)" ) test_case_start_pattern = re.compile(r"START - (test_)?([a-zA-Z0-9_-]+)") test_case_end_pattern = re.compile( r".*(PASS|FAIL|SKIP) - (test_)?(\S*) in (\d*[.,]?\d*) seconds" ) test_suite_summary_pattern = re.compile( r"SUITE (?P\S*) - .* \[(?P\S*)\]:" r" .* duration = (\d*[.,]?\d*) seconds" ) test_case_summary_pattern = re.compile( r" - (PASS|FAIL|SKIP) - \[([^\.]*).(test_)?(\S*)\] duration = (\d*[.,]?\d*) seconds" ) def get_testcase(self, tc_name, phase, ts_name=None): """ Search a Ztest case among detected in the test image binary expecting the same test names as already known from the ELF. Track suites and cases unexpectedly found in the log. """ ts_names = self.started_suites.keys() if ts_name: if ts_name not in self.instance.testsuite.ztest_suite_names: logger.warning(f"On {phase}: unexpected Ztest suite '{ts_name}' " f"not present among: {self.instance.testsuite.ztest_suite_names}") if ts_name not in self.detected_suite_names: if self.trace: logger.debug(f"On {phase}: detected new Ztest suite '{ts_name}'") self.detected_suite_names.append(ts_name) ts_names = [ ts_name ] if ts_name in ts_names else [] # First, try to match the test case ID to the first running Ztest suite with this test name. for ts_name_ in ts_names: if self.started_suites[ts_name_]['count'] < (0 if phase == 'TS_SUM' else 1): continue tc_fq_id = self.instance.compose_case_name(f"{ts_name_}.{tc_name}") if tc := self.instance.get_case_by_name(tc_fq_id): if self.trace: logger.debug(f"On {phase}: Ztest case '{tc_name}' matched to '{tc_fq_id}") return tc logger.debug( f"On {phase}: Ztest case '{tc_name}' is not known" f" in {self.started_suites} running suite(s)." ) tc_id = self.instance.compose_case_name(tc_name) return self.instance.get_case_or_create(tc_id) def start_suite(self, suite_name): if suite_name not in self.detected_suite_names: self.detected_suite_names.append(suite_name) if suite_name not in self.instance.testsuite.ztest_suite_names: logger.warning(f"Unexpected Ztest suite '{suite_name}'") if suite_name in self.started_suites: if self.started_suites[suite_name]['count'] > 0: logger.warning(f"Already STARTED '{suite_name}':{self.started_suites[suite_name]}") elif self.trace: logger.debug(f"START suite '{suite_name}'") self.started_suites[suite_name]['count'] += 1 self.started_suites[suite_name]['repeat'] += 1 else: self.started_suites[suite_name] = { 'count': 1, 'repeat': 0 } def end_suite(self, suite_name, phase='', suite_status=None): if suite_name in self.started_suites: if phase == 'TS_SUM' and self.started_suites[suite_name]['count'] == 0: return if self.started_suites[suite_name]['count'] < 1: logger.error( f"Already ENDED {phase} suite '{suite_name}':{self.started_suites[suite_name]}" ) elif self.trace: logger.debug(f"END {phase} suite '{suite_name}':{self.started_suites[suite_name]}") self.started_suites[suite_name]['count'] -= 1 elif suite_status == 'SKIP': self.start_suite(suite_name) # register skipped suites at their summary end self.started_suites[suite_name]['count'] -= 1 else: logger.warning(f"END {phase} suite '{suite_name}' without START detected") def start_case(self, tc_name): if tc_name in self.started_cases: if self.started_cases[tc_name]['count'] > 0: logger.warning(f"Already STARTED '{tc_name}':{self.started_cases[tc_name]}") self.started_cases[tc_name]['count'] += 1 else: self.started_cases[tc_name] = { 'count': 1 } def end_case(self, tc_name, phase=''): if tc_name in self.started_cases: if phase == 'TS_SUM' and self.started_cases[tc_name]['count'] == 0: return if self.started_cases[tc_name]['count'] < 1: logger.error( f"Already ENDED {phase} case '{tc_name}':{self.started_cases[tc_name]}" ) elif self.trace: logger.debug(f"END {phase} case '{tc_name}':{self.started_cases[tc_name]}") self.started_cases[tc_name]['count'] -= 1 elif phase != 'TS_SUM': logger.warning(f"END {phase} case '{tc_name}' without START detected") def handle(self, line): testcase_match = None if self._match: self.testcase_output += line + "\n" if test_suite_start_match := re.search(self.test_suite_start_pattern, line): self.start_suite(test_suite_start_match.group("suite_name")) elif test_suite_end_match := re.search(self.test_suite_end_pattern, line): suite_name=test_suite_end_match.group("suite_name") self.end_suite(suite_name, 'TS_END') elif testcase_match := re.search(self.test_case_start_pattern, line): tc_name = testcase_match.group(2) tc = self.get_testcase(tc_name, 'TC_START') self.start_case(tc.name) # Mark the test as started, if something happens here, it is mostly # due to this tests, for example timeout. This should in this case # be marked as failed and not blocked (not run). tc.status = TwisterStatus.STARTED if not self._match: self.testcase_output += line + "\n" self._match = True # some testcases are skipped based on predicates and do not show up # during test execution, however they are listed in the summary. Parse # the summary for status and use that status instead. elif result_match := self.test_case_end_pattern.match(line): matched_status = result_match.group(1) tc_name = result_match.group(3) tc = self.get_testcase(tc_name, 'TC_END') self.end_case(tc.name) tc.status = TwisterStatus[matched_status] if tc.status == TwisterStatus.SKIP: tc.reason = "ztest skip" tc.duration = float(result_match.group(4)) if tc.status == TwisterStatus.FAIL: tc.output = self.testcase_output self.testcase_output = "" self._match = False self.ztest = True elif test_suite_summary_match := self.test_suite_summary_pattern.match(line): suite_name=test_suite_summary_match.group("suite_name") suite_status=test_suite_summary_match.group("suite_status") self._match = False self.ztest = True self.end_suite(suite_name, 'TS_SUM', suite_status=suite_status) elif test_case_summary_match := self.test_case_summary_pattern.match(line): matched_status = test_case_summary_match.group(1) suite_name = test_case_summary_match.group(2) tc_name = test_case_summary_match.group(4) tc = self.get_testcase(tc_name, 'TS_SUM', suite_name) self.end_case(tc.name, 'TS_SUM') tc.status = TwisterStatus[matched_status] if tc.status == TwisterStatus.SKIP: tc.reason = "ztest skip" tc.duration = float(test_case_summary_match.group(5)) if tc.status == TwisterStatus.FAIL: tc.output = self.testcase_output self.testcase_output = "" self._match = False self.ztest = True self.process_test(line) if not self.ztest and self.status != TwisterStatus.NONE: logger.debug(f"not a ztest and no state for {self.id}") tc = self.instance.get_case_or_create(self.id) if self.status == TwisterStatus.PASS: tc.status = TwisterStatus.PASS else: tc.status = TwisterStatus.FAIL tc.reason = "Test failure" class Ztest(Test): pass class Bsim(Harness): def build(self): """ Copying the application executable to BabbleSim's bin directory enables running multidevice bsim tests after twister has built them. """ if self.instance is None: return original_exe_path: str = os.path.join(self.instance.build_dir, 'zephyr', 'zephyr.exe') if not os.path.exists(original_exe_path): logger.warning('Cannot copy bsim exe - cannot find original executable.') return bsim_out_path: str = os.getenv('BSIM_OUT_PATH', '') if not bsim_out_path: logger.warning('Cannot copy bsim exe - BSIM_OUT_PATH not provided.') return new_exe_name: str = self.instance.testsuite.harness_config.get('bsim_exe_name', '') if new_exe_name: new_exe_name = f'bs_{self.instance.platform.name}_{new_exe_name}' else: new_exe_name = self.instance.name new_exe_name = f'bs_{new_exe_name}' new_exe_name = new_exe_name.replace(os.path.sep, '_').replace('.', '_').replace('@', '_') new_exe_path: str = os.path.join(bsim_out_path, 'bin', new_exe_name) logger.debug(f'Copying executable from {original_exe_path} to {new_exe_path}') shutil.copy(original_exe_path, new_exe_path) class HarnessImporter: @staticmethod def get_harness(harness_name): thismodule = sys.modules[__name__] try: if harness_name: harness_class = getattr(thismodule, harness_name) else: harness_class = thismodule.Test return harness_class() except AttributeError as e: logger.debug(f"harness {harness_name} not implemented: {e}") return None