Esempio n. 1
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    def _run(self):
        # start executor
        self.executor.start()
        wait_for(self.executor, 'process')

        if self.executor.broken:
            printf.error('Could not start command "{}": {}',
                         Command.to_string(self.executor.command),
                         self.executor.exception)
            self.returncode = RC(self.executor.returncode)

        # if process is not broken, propagate start event
        self.on_process_start(self)

        while self.executor.is_running():
            self.on_process_update(self)
            if self._short_sleep:
                time.sleep(0.01)
            else:
                self.sleeper.sleep()

        # get return code
        rc = getattr(self.executor, 'returncode', None)
        self.returncode = RC(rc if self.custom_error is None or str(rc) == "0"
                             else self.custom_error)

        # reverse return code if death test is set
        if self.case and self.case.death_test is not None:
            self.returncode = RC(
                self.case.death_test.reverse_return_code(self.returncode))
            self.returncode.reversed = self.case.death_test.value != self.case.death_test.FALSE

        # propagate on_complete event
        self.on_process_complete(self)
Esempio n. 2
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    def test_paths(cls, *paths):
        status = True
        for path in paths:
            filename = getattr(cls, path)()
            if not cls.exists(filename):
                printf.error('Error: file {:10s} ({}) does not exists!', path,
                             filename)
                status = False

        return status
Esempio n. 3
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    def create_comparisons(self):
        comparisons = ComparisonMultiThread(
            self.case.fs.ndiff_log,
            progress=printf.verbosity() is printf.OutputVerbosity.FULL)

        for check_rule in self.case.check_rules:
            method = str(list(check_rule.keys())[0])
            module = self.get_module(method)
            comp_data = check_rule[method]
            if not module:
                printf.error('Warning! No module for check_rule method "{}"',
                             method)
                continue

            pairs = self._get_ref_output_files(comp_data)
            if pairs:
                for pair in pairs:

                    # load module and determine whether we are dealing with
                    # exec comparison or inplace comparison
                    if issubclass(module.__class__, modules.ExecComparison):
                        command = module.get_command(*pair, **comp_data)
                        pm = PyPy(BinExecutor(command))
                        pm.executor.output = OutputMode.variable_output()
                    else:
                        module = self.get_module(method)
                        module.prepare(*pair, **comp_data)
                        pm = PyPy(module)
                        pm.executor.output = OutputMode.dummy_output()
                        # pm.error_monitor.deactivate()

                    # if we fail, set error to 13
                    pm.custom_error = 13
                    # TODO: maybe some time limit would be useful
                    pm.full_output = self.case.fs.ndiff_log

                    path = Paths.path_end_until(pair[0], REF_OUTPUT_DIR)
                    test_name = Paths.basename(
                        Paths.dirname(Paths.dirname(self.case.fs.ref_output)))
                    size = Paths.filesize(pair[0], True)
                    pm.name = '{}: {} ({})'.format(test_name, path, size)

                    if printf.verbosity() is printf.OutputVerbosity.FULL:
                        pm.monitor.color_complete_format = '{}: {} ({})'.format(
                            test_name, path, size)
                    else:
                        pm.monitor.error_complete_format = '{}: {} ({})'.format(
                            test_name, path, size)

                    comparisons.add(pm)

        return comparisons
Esempio n. 4
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    def on_complete(self, pypy=None):

        if self.log_file:
            IO.write(self.log_file, self.content)

        # finish after update
        if self.update_format and (not self.complete_format
                                   and not self.color_complete_format):
            printf.finish_rewrite()

        # print regular messages
        for fmt in ensure_iterable(self.complete_format):
            printf.out(fmt, monitor=self)

        # print messages if error
        if self.pypy.with_error():
            for fmt in ensure_iterable(self.error_complete_format):
                printf.error(fmt, monitor=self)

        # print regular color messages based on result
        for fmt in ensure_iterable(self.color_complete_format):
            if self.pypy.returncode() == 0:
                printf.success(fmt, monitor=self)
            elif self.pypy.returncode() is None:
                printf.warning(fmt, monitor=self)
            else:
                printf.error(fmt, monitor=self)

        with printf:
            if printf.verbosity() is printf.OutputVerbosity.FULL:
                printf.sep()
                printf.out('Output from file {self.pypy.full_output}'.format(
                    **locals()))
                printf.opt(raw=True).stream(
                    format_n_lines(self.content, pypy.was_successful()))
            elif printf.verbosity(
            ) is printf.OutputVerbosity.SMART and pypy.with_error():
                printf.sep()
                printf.out(
                    'Last 50 lines from file {self.pypy.full_output}'.format(
                        **locals()))
                printf.opt(raw=True).stream(
                    format_n_lines(self.content, success=False, n_lines=-50))
            elif printf.verbosity(
            ) is printf.OutputVerbosity.MINIMAL and pypy.with_error():
                printf.sep()
                printf.out(
                    'Last 50 lines from file {self.pypy.full_output}'.format(
                        **locals()))
                printf.opt(raw=True).stream(
                    format_n_lines(self.content, success=False, n_lines=-50))
Esempio n. 5
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    def print_runner_stat(cls, runner, formatter=RunnerFormatter):
        """
        :type runner: scripts.core.threads.ParallelThreads
        :type formatter: RunnerFormatter
        """
        returncodes = [t.returncode for t in runner.threads]

        skipped = returncodes.count(None) + returncodes.count(-1)
        passed = returncodes.count(0)
        failed = len(returncodes) - (skipped + passed)

        result = 0 if len(returncodes) == passed else 1
        status_name = '[ {} ]'.format(TestPrinterStatus.get(
            str(result))).upper()
        if result == 0:
            printf.success(formatter.template.format(**locals()))
        else:
            printf.error(formatter.template.format(**locals()))
Esempio n. 6
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def do_work(arg_options=None, debug=False):
    """
    Main method which invokes ModuleRuntest
    :rtype: ParallelThreads
    :type debug: bool
    :type arg_options: utils.argparser.RuntestArgs
    """
    module = ModuleRuntest(arg_options)
    result = module.run(debug)  # type: ParallelThreads

    if not arg_options.queue:
        printf.sep()
        if arg_options.save_to_db:
            from scripts.artifacts.collect.loader import load_data, save_to_database
            from scripts.artifacts.collect.modules.flow123d_profiler import Flow123dProfiler

            for t in result.threads:
                thread = t  # type: RuntestMultiThread
                with printf:
                    printf.out('Processing %s' % thread.pypy.case.fs.output)
                    data = load_data(thread.pypy.case.fs.output,
                                     Flow123dProfiler())

                    if data:
                        with printf:
                            printf.out(' - found %d file(s)' % len(data))
                            with printf:
                                for item in data:
                                    printf.out(' %d element(s)' %
                                               len(item.items))
                    else:
                        printf.error('No profiler data found')
                    save_to_database(data)

    # pickle out result on demand
    if arg_options.dump:
        try:
            import pickle
            pickle.dump(result.dump(), open(arg_options.dump, 'wb'))
        except:
            pass

    return result.returncode, result
Esempio n. 7
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    def _walk_files(self):
        # switching processing logic
        self.dir_mode = False

        # in this loop we are processing all given files/folders
        all_yamls = list()
        for path in self.arg_options.args:
            if not Paths.exists(path):
                printf.error('given path does not exists, path "{}"', path)
                sys.exit(3)

            # append files to all_yamls
            if Paths.is_dir(path):
                self.dir_mode = True
                all_yamls.extend(Paths.walk(path, ConfigPool.yaml_filters))
            else:
                all_yamls.append(path)

        return all_yamls
Esempio n. 8
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    def print_test_result(cls, thread, formatter=TestPrinterStatus):
        """
        :type formatter: TestPrinterStatus
        :type thread: scripts.core.threads.RuntestMultiThread
        """
        status_name = '[ {} ]'.format(formatter.get(str(
            thread.returncode))).upper()
        case_name = thread.pypy.case.as_string

        detail = ''
        thread_names = ['clean', 'pypy', 'comp']
        thread_rcs = dict()
        thread_msg = dict()

        for ti in thread_names:
            subthread = getattr(thread, ti)
            thread_rcs[ti] = subthread.returncode
            thread_msg[ti] = getattr(formatter, 'detail_{}'.format(ti))(thread)

        # first non zero rc will be formatted
        # otherwise first non empty detail
        for ti in thread_names:
            subthread = getattr(thread, ti)
            if subthread.returncode.failed:
                sub_detail = thread_msg[ti]
                detail = formatter.errors[ti].format(**locals())
                printf.error(formatter.template.format(**locals()))
                return

        # first non empty detail
        for ti in thread_names:
            subthread = getattr(thread, ti)
            sub_detail = thread_msg[ti]
            if sub_detail:
                detail = formatter.errors[ti].format(**locals())
                printf.out(formatter.template.format(**locals()))
                return

        if str(thread.returncode).upper() == 'NONE':
            printf.warning(formatter.template.format(**locals()))
        else:
            printf.success(formatter.template.format(**locals()))
Esempio n. 9
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    def _check_limits(self):
        if self.terminated:
            return

        if self.time_limit:
            try:
                self.runtime = self.process_runtime()
                if self.runtime > self.time_limit:
                    printf.finish_rewrite()
                    printf.error(
                        'Time limit exceeded! {:1.2f}s of runtime, {:1.2f}s allowed',
                        self.runtime, self.time_limit)
                    printf.error('Process will now be terminated...')
                    self.terminated_cause = self.CAUSE_TIME_LIMIT
                    self.terminated = True
                    self.process.secure_kill()
                    self.pypy.wakeup()
                    return
            except AttributeError as e2:
                pass

        if self.memory_limit:
            try:
                self.memory_usage = self.process_memory_usage()
                self.memory_used = max(self.memory_used, self.memory_usage)
                if self.memory_usage > self.memory_limit:
                    printf.finish_rewrite()
                    printf.error(
                        'Memory limit exceeded! {:1.2f}MB used, {:1.2f}MB allowed ({:1.2f}MB per cpu)',
                        self.memory_usage, self.memory_limit,
                        self.memory_limit / self.proc)
                    printf.error('Process will now be terminated...')
                    self.terminated_cause = self.CAUSE_MEMORY_LIMIT
                    self.terminated = True
                    self.process.secure_kill()
                    self.pypy.wakeup()
                    return
            # except NoSuchProcess as e1:
            #     pass
            except AttributeError as e2:
                pass
Esempio n. 10
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        or export them to database.
    """)
    argparser.Parser.add(group, '--status-file', action=argparser.Parser.STORE_TRUE, help="""R|
        If set, will also generate status file in test_results directory.
        Status file will have name "runtest.status.json" and will contain
        additional information which cannot be obtained from profiler file
    """)
    return parser


if __name__ == '__main__':
    parser = create_parser()
    arg_options = argparser.Parser.parse_runtest(parser)
    printf.init_logger(verbosity=arg_options.verbosity, logfile=arg_options.log)

    # run work
    with Timer.app_timer:
        BinExecutor.register_sigint()
        returncode, debug = do_work(arg_options)

    # run work
    if arg_options.death:
        if returncode == 0:
            printf.error('Command did exit with 0 but should not (--death flag was set)!')
            sys.exit(1)
        else:
            printf.success('Command did not with 0 (--death flag was set)')
            sys.exit(0)
    else:
        sys.exit(returncode())