client/common_lib/logging_manager_test.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 #!/usr/bin/python

 import logging, os, select, StringIO, subprocess, sys, unittest
 import common
 from autotest_lib.client.common_lib import logging_manager, logging_config


 class PipedStringIO(object):
     """
     Like StringIO, but all I/O passes through a pipe.  This means a
     PipedStringIO is backed by a file descriptor is thus can do things like
     pass down to a subprocess.  However, this means the creating process must
     call read_pipe() (or the classmethod read_all_pipes()) periodically to read
     the pipe, and must call close() (or the classmethod cleanup()) to close the
     pipe.
     """
     _instances = set()

     def __init__(self):
         self._string_io = StringIO.StringIO()
         self._read_end, self._write_end = os.pipe()
         PipedStringIO._instances.add(self)


     def close(self):
         self._string_io.close()
         os.close(self._read_end)
         os.close(self._write_end)
         PipedStringIO._instances.remove(self)


     def write(self, data):
         os.write(self._write_end, data)


     def flush(self):
         pass


     def fileno(self):
         return self._write_end


     def getvalue(self):
         self.read_pipe()
         return self._string_io.getvalue()


     def read_pipe(self):
         while True:
             read_list, _, _ = select.select([self._read_end], [], [], 0)
             if not read_list:
                 return
             self._string_io.write(os.read(self._read_end, 1024))


     @classmethod
     def read_all_pipes(cls):
         for instance in cls._instances:
             instance.read_pipe()


     @classmethod
     def cleanup_all_instances(cls):
         for instance in list(cls._instances):
             instance.close()


 LOGGING_FORMAT = '%(levelname)s: %(message)s'

 _EXPECTED_STDOUT = """\
 print 1
 system 1
 INFO: logging 1
 INFO: print 2
 INFO: system 2
 INFO: logging 2
 INFO: print 6
 INFO: system 6
 INFO: logging 6
 print 7
 system 7
 INFO: logging 7
 """

 _EXPECTED_LOG1 = """\
 INFO: print 3
 INFO: system 3
 INFO: logging 3
 INFO: print 4
 INFO: system 4
 INFO: logging 4
 INFO: print 5
 INFO: system 5
 INFO: logging 5
 """

 _EXPECTED_LOG2 = """\
 INFO: print 4
 INFO: system 4
 INFO: logging 4
 """


 class DummyLoggingConfig(logging_config.LoggingConfig):
     console_formatter = logging.Formatter(LOGGING_FORMAT)

     def __init__(self):
         super(DummyLoggingConfig, self).__init__()
         self.log = PipedStringIO()


     def add_debug_file_handlers(self, log_dir, log_name=None):
         self.logger.addHandler(logging.StreamHandler(self.log))


 # this isn't really a unit test since it creates subprocesses and pipes and all
 # that. i just use the unittest framework because it's convenient.
 class LoggingManagerTest(unittest.TestCase):
     def setUp(self):
         self.stdout = PipedStringIO()
         self._log1 = PipedStringIO()
         self._log2 = PipedStringIO()

         self._real_system_calls = False

         # the LoggingManager will change self.stdout (by design), so keep a
         # copy around
         self._original_stdout = self.stdout

         # clear out import-time logging config and reconfigure
         root_logger = logging.getLogger()
         for handler in list(root_logger.handlers):
             root_logger.removeHandler(handler)
         # use INFO to ignore debug output from logging_manager itself
         logging.basicConfig(level=logging.INFO, format=LOGGING_FORMAT,
                             stream=self.stdout)

         self._config_object = DummyLoggingConfig()
         logging_manager.LoggingManager.logging_config_object = (
                 self._config_object)


     def tearDown(self):
         PipedStringIO.cleanup_all_instances()


     def _say(self, suffix):
         print >>self.stdout, 'print %s' % suffix
         if self._real_system_calls:
             os.system('echo system %s >&%s' % (suffix,
                                                self._original_stdout.fileno()))
         else:
             print >>self.stdout, 'system %s' % suffix
         logging.info('logging %s', suffix)
         PipedStringIO.read_all_pipes()


     def _setup_manager(self, manager_class=logging_manager.LoggingManager):
         def set_stdout(file_object):
             self.stdout = file_object
         manager = manager_class()
         manager.manage_stream(self.stdout, logging.INFO, set_stdout)
         return manager


     def _run_test(self, manager_class):
         manager = self._setup_manager(manager_class)

         self._say(1)

         manager.start_logging()
         self._say(2)

         manager.redirect_to_stream(self._log1)
         self._say(3)

         manager.tee_redirect_to_stream(self._log2)
         self._say(4)

         manager.undo_redirect()
         self._say(5)

         manager.undo_redirect()
         self._say(6)

         manager.stop_logging()
         self._say(7)


     def _grab_fd_info(self):
         command = 'ls -l /proc/%s/fd' % os.getpid()
         proc = subprocess.Popen(command.split(), shell=True,
                                 stdout=subprocess.PIPE)
         return proc.communicate()[0]


     def _compare_logs(self, log_buffer, expected_text):
         actual_lines = log_buffer.getvalue().splitlines()
         expected_lines = expected_text.splitlines()
         if self._real_system_calls:
             # because of the many interacting processes, we can't ensure perfect
             # interleaving.  so compare sets of lines rather than ordered lines.
             actual_lines = set(actual_lines)
             expected_lines = set(expected_lines)
         self.assertEquals(actual_lines, expected_lines)


     def _check_results(self):
         # ensure our stdout was restored
         self.assertEquals(self.stdout, self._original_stdout)

         if self._real_system_calls:
             # ensure FDs were left in their original state
             self.assertEquals(self._grab_fd_info(), self._fd_info)

         self._compare_logs(self.stdout, _EXPECTED_STDOUT)
         self._compare_logs(self._log1, _EXPECTED_LOG1)
         self._compare_logs(self._log2, _EXPECTED_LOG2)


     def test_logging_manager(self):
         self._run_test(logging_manager.LoggingManager)
         self._check_results()


     def test_fd_redirection_logging_manager(self):
         self._real_system_calls = True
         self._fd_info = self._grab_fd_info()
         self._run_test(logging_manager.FdRedirectionLoggingManager)
         self._check_results()


     def test_tee_redirect_debug_dir(self):
         manager = self._setup_manager()
         manager.start_logging()

         manager.tee_redirect_debug_dir('/fake/dir', tag='mytag')
         print >>self.stdout, 'hello'

         manager.undo_redirect()
         print >>self.stdout, 'goodbye'

         manager.stop_logging()

         self._compare_logs(self.stdout,
                            'INFO: mytag : hello\nINFO: goodbye')
         self._compare_logs(self._config_object.log, 'hello\n')


 class MonkeyPatchTestCase(unittest.TestCase):
     def setUp(self):
         filename = os.path.split(__file__)[1]
         if filename.endswith('.pyc'):
             filename = filename[:-1]
         self.expected_filename = filename


     def check_filename(self, filename, expected=None):
         if expected is None:
             expected = [self.expected_filename]
         self.assertIn(os.path.split(filename)[1], expected)


     def _0_test_find_caller(self):
         finder = logging_manager._logging_manager_aware_logger__find_caller
         filename, lineno, caller_name = finder(logging_manager.logger)
         self.check_filename(filename)
         self.assertEquals('test_find_caller', caller_name)


     def _1_test_find_caller(self):
         self._0_test_find_caller()


     def test_find_caller(self):
         self._1_test_find_caller()


     def _0_test_non_reported_find_caller(self):
         finder = logging_manager._logging_manager_aware_logger__find_caller
         filename, lineno, caller_name = finder(logging_manager.logger)
         # Python 2.4 unittest implementation will call the unittest method in
         # file 'unittest.py', and Python >= 2.6 does the same in 'case.py'
         self.check_filename(filename, expected=['unittest.py', 'case.py'])


     def _1_test_non_reported_find_caller(self):
         self._0_test_non_reported_find_caller()


     @logging_manager.do_not_report_as_logging_caller
     def test_non_reported_find_caller(self):
         self._1_test_non_reported_find_caller()


 if __name__ == '__main__':
     unittest.main()
	#!/usr/bin/python

	import logging, os, select, StringIO, subprocess, sys, unittest
	import common
	from autotest_lib.client.common_lib import logging_manager, logging_config


	class PipedStringIO(object):
	"""
	Like StringIO, but all I/O passes through a pipe. This means a
	PipedStringIO is backed by a file descriptor is thus can do things like
	pass down to a subprocess. However, this means the creating process must
	call read_pipe() (or the classmethod read_all_pipes()) periodically to read
	the pipe, and must call close() (or the classmethod cleanup()) to close the
	pipe.
	"""
	_instances = set()

	def __init__(self):
	self._string_io = StringIO.StringIO()
	self._read_end, self._write_end = os.pipe()
	PipedStringIO._instances.add(self)


	def close(self):
	self._string_io.close()
	os.close(self._read_end)
	os.close(self._write_end)
	PipedStringIO._instances.remove(self)


	def write(self, data):
	os.write(self._write_end, data)


	def flush(self):
	pass


	def fileno(self):
	return self._write_end


	def getvalue(self):
	self.read_pipe()
	return self._string_io.getvalue()


	def read_pipe(self):
	while True:
	read_list, _, _ = select.select([self._read_end], [], [], 0)
	if not read_list:
	return
	self._string_io.write(os.read(self._read_end, 1024))


	@classmethod
	def read_all_pipes(cls):
	for instance in cls._instances:
	instance.read_pipe()


	@classmethod
	def cleanup_all_instances(cls):
	for instance in list(cls._instances):
	instance.close()


	LOGGING_FORMAT = '%(levelname)s: %(message)s'

	_EXPECTED_STDOUT = """\
	print 1
	system 1
	INFO: logging 1
	INFO: print 2
	INFO: system 2
	INFO: logging 2
	INFO: print 6
	INFO: system 6
	INFO: logging 6
	print 7
	system 7
	INFO: logging 7
	"""

	_EXPECTED_LOG1 = """\
	INFO: print 3
	INFO: system 3
	INFO: logging 3
	INFO: print 4
	INFO: system 4
	INFO: logging 4
	INFO: print 5
	INFO: system 5
	INFO: logging 5
	"""

	_EXPECTED_LOG2 = """\
	INFO: print 4
	INFO: system 4
	INFO: logging 4
	"""


	class DummyLoggingConfig(logging_config.LoggingConfig):
	console_formatter = logging.Formatter(LOGGING_FORMAT)

	def __init__(self):
	super(DummyLoggingConfig, self).__init__()
	self.log = PipedStringIO()


	def add_debug_file_handlers(self, log_dir, log_name=None):
	self.logger.addHandler(logging.StreamHandler(self.log))


	# this isn't really a unit test since it creates subprocesses and pipes and all
	# that. i just use the unittest framework because it's convenient.
	class LoggingManagerTest(unittest.TestCase):
	def setUp(self):
	self.stdout = PipedStringIO()
	self._log1 = PipedStringIO()
	self._log2 = PipedStringIO()

	self._real_system_calls = False

	# the LoggingManager will change self.stdout (by design), so keep a
	# copy around
	self._original_stdout = self.stdout

	# clear out import-time logging config and reconfigure
	root_logger = logging.getLogger()
	for handler in list(root_logger.handlers):
	root_logger.removeHandler(handler)
	# use INFO to ignore debug output from logging_manager itself
	logging.basicConfig(level=logging.INFO, format=LOGGING_FORMAT,
	stream=self.stdout)

	self._config_object = DummyLoggingConfig()
	logging_manager.LoggingManager.logging_config_object = (
	self._config_object)


	def tearDown(self):
	PipedStringIO.cleanup_all_instances()


	def _say(self, suffix):
	print >>self.stdout, 'print %s' % suffix
	if self._real_system_calls:
	os.system('echo system %s >&%s' % (suffix,
	self._original_stdout.fileno()))
	else:
	print >>self.stdout, 'system %s' % suffix
	logging.info('logging %s', suffix)
	PipedStringIO.read_all_pipes()


	def _setup_manager(self, manager_class=logging_manager.LoggingManager):
	def set_stdout(file_object):
	self.stdout = file_object
	manager = manager_class()
	manager.manage_stream(self.stdout, logging.INFO, set_stdout)
	return manager


	def _run_test(self, manager_class):
	manager = self._setup_manager(manager_class)

	self._say(1)

	manager.start_logging()
	self._say(2)

	manager.redirect_to_stream(self._log1)
	self._say(3)

	manager.tee_redirect_to_stream(self._log2)
	self._say(4)

	manager.undo_redirect()
	self._say(5)

	manager.undo_redirect()
	self._say(6)

	manager.stop_logging()
	self._say(7)


	def _grab_fd_info(self):
	command = 'ls -l /proc/%s/fd' % os.getpid()
	proc = subprocess.Popen(command.split(), shell=True,
	stdout=subprocess.PIPE)
	return proc.communicate()[0]


	def _compare_logs(self, log_buffer, expected_text):
	actual_lines = log_buffer.getvalue().splitlines()
	expected_lines = expected_text.splitlines()
	if self._real_system_calls:
	# because of the many interacting processes, we can't ensure perfect
	# interleaving. so compare sets of lines rather than ordered lines.
	actual_lines = set(actual_lines)
	expected_lines = set(expected_lines)
	self.assertEquals(actual_lines, expected_lines)


	def _check_results(self):
	# ensure our stdout was restored
	self.assertEquals(self.stdout, self._original_stdout)

	if self._real_system_calls:
	# ensure FDs were left in their original state
	self.assertEquals(self._grab_fd_info(), self._fd_info)

	self._compare_logs(self.stdout, _EXPECTED_STDOUT)
	self._compare_logs(self._log1, _EXPECTED_LOG1)
	self._compare_logs(self._log2, _EXPECTED_LOG2)


	def test_logging_manager(self):
	self._run_test(logging_manager.LoggingManager)
	self._check_results()


	def test_fd_redirection_logging_manager(self):
	self._real_system_calls = True
	self._fd_info = self._grab_fd_info()
	self._run_test(logging_manager.FdRedirectionLoggingManager)
	self._check_results()


	def test_tee_redirect_debug_dir(self):
	manager = self._setup_manager()
	manager.start_logging()

	manager.tee_redirect_debug_dir('/fake/dir', tag='mytag')
	print >>self.stdout, 'hello'

	manager.undo_redirect()
	print >>self.stdout, 'goodbye'

	manager.stop_logging()

	self._compare_logs(self.stdout,
	'INFO: mytag : hello\nINFO: goodbye')
	self._compare_logs(self._config_object.log, 'hello\n')


	class MonkeyPatchTestCase(unittest.TestCase):
	def setUp(self):
	filename = os.path.split(__file__)[1]
	if filename.endswith('.pyc'):
	filename = filename[:-1]
	self.expected_filename = filename


	def check_filename(self, filename, expected=None):
	if expected is None:
	expected = [self.expected_filename]
	self.assertIn(os.path.split(filename)[1], expected)


	def _0_test_find_caller(self):
	finder = logging_manager._logging_manager_aware_logger__find_caller
	filename, lineno, caller_name = finder(logging_manager.logger)
	self.check_filename(filename)
	self.assertEquals('test_find_caller', caller_name)


	def _1_test_find_caller(self):
	self._0_test_find_caller()


	def test_find_caller(self):
	self._1_test_find_caller()


	def _0_test_non_reported_find_caller(self):
	finder = logging_manager._logging_manager_aware_logger__find_caller
	filename, lineno, caller_name = finder(logging_manager.logger)
	# Python 2.4 unittest implementation will call the unittest method in
	# file 'unittest.py', and Python >= 2.6 does the same in 'case.py'
	self.check_filename(filename, expected=['unittest.py', 'case.py'])


	def _1_test_non_reported_find_caller(self):
	self._0_test_non_reported_find_caller()


	@logging_manager.do_not_report_as_logging_caller
	def test_non_reported_find_caller(self):
	self._1_test_non_reported_find_caller()



	if __name__ == '__main__':
	unittest.main()