scheduler/pidfile_monitor.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 #pylint: disable-msg=C0111

 """
 Pidfile monitor.
 """

 import logging
 import time, traceback
 from autotest_lib.client.common_lib import global_config
 from autotest_lib.scheduler import drone_manager, email_manager
 from autotest_lib.scheduler import scheduler_config


 def _get_pidfile_timeout_secs():
     """@returns How long to wait for autoserv to write pidfile."""
     pidfile_timeout_mins = global_config.global_config.get_config_value(
             scheduler_config.CONFIG_SECTION, 'pidfile_timeout_mins', type=int)
     return pidfile_timeout_mins * 60


 class PidfileRunMonitor(object):
     """
     Client must call either run() to start a new process or
     attach_to_existing_process().
     """

     class _PidfileException(Exception):
         """
         Raised when there's some unexpected behavior with the pid file, but only
         used internally (never allowed to escape this class).
         """


     def __init__(self):
         self._drone_manager = drone_manager.instance()
         self.lost_process = False
         self._start_time = None
         self.pidfile_id = None
         self._killed = False
         self._state = drone_manager.PidfileContents()


     def _add_nice_command(self, command, nice_level):
         if not nice_level:
             return command
         return ['nice', '-n', str(nice_level)] + command


     def _set_start_time(self):
         self._start_time = time.time()


     def run(self, command, working_directory, num_processes, nice_level=None,
             log_file=None, pidfile_name=None, paired_with_pidfile=None,
             username=None, drone_hostnames_allowed=None):
         assert command is not None
         if nice_level is not None:
             command = ['nice', '-n', str(nice_level)] + command
         self._set_start_time()
         self.pidfile_id = self._drone_manager.execute_command(
             command, working_directory, pidfile_name=pidfile_name,
             num_processes=num_processes, log_file=log_file,
             paired_with_pidfile=paired_with_pidfile, username=username,
             drone_hostnames_allowed=drone_hostnames_allowed)


     def attach_to_existing_process(self, execution_path,
                                    pidfile_name=drone_manager.AUTOSERV_PID_FILE,
                                    num_processes=None):
         self._set_start_time()
         self.pidfile_id = self._drone_manager.get_pidfile_id_from(
             execution_path, pidfile_name=pidfile_name)
         if num_processes is not None:
             self._drone_manager.declare_process_count(self.pidfile_id, num_processes)


     def kill(self):
         if self.has_process():
             self._drone_manager.kill_process(self.get_process())
             self._killed = True


     def has_process(self):
         self._get_pidfile_info()
         return self._state.process is not None


     def get_process(self):
         self._get_pidfile_info()
         assert self._state.process is not None
         return self._state.process


     def _read_pidfile(self, use_second_read=False):
         assert self.pidfile_id is not None, (
             'You must call run() or attach_to_existing_process()')
         contents = self._drone_manager.get_pidfile_contents(
             self.pidfile_id, use_second_read=use_second_read)
         if contents.is_invalid():
             self._state = drone_manager.PidfileContents()
             raise self._PidfileException(contents)
         self._state = contents


     def _handle_pidfile_error(self, error, message=''):
         message = error + '\nProcess: %s\nPidfile: %s\n%s' % (
             self._state.process, self.pidfile_id, message)
         email_manager.manager.enqueue_notify_email(error, message)
         self.on_lost_process(self._state.process)


     def _get_pidfile_info_helper(self):
         if self.lost_process:
             return

         self._read_pidfile()

         if self._state.process is None:
             self._handle_no_process()
             return

         if self._state.exit_status is None:
             # double check whether or not autoserv is running
             if self._drone_manager.is_process_running(self._state.process):
                 return

             # pid but no running process - maybe process *just* exited
             self._read_pidfile(use_second_read=True)
             if self._state.exit_status is None:
                 # autoserv exited without writing an exit code
                 # to the pidfile
                 self._handle_pidfile_error(
                     'autoserv died without writing exit code')


     def _get_pidfile_info(self):
         """\
         After completion, self._state will contain:
          pid=None, exit_status=None if autoserv has not yet run
          pid!=None, exit_status=None if autoserv is running
          pid!=None, exit_status!=None if autoserv has completed
         """
         try:
             self._get_pidfile_info_helper()
         except self._PidfileException, exc:
             self._handle_pidfile_error('Pidfile error', traceback.format_exc())


     def _handle_no_process(self):
         """\
         Called when no pidfile is found or no pid is in the pidfile.
         """
         message = 'No pid found at %s' % self.pidfile_id
         if time.time() - self._start_time > _get_pidfile_timeout_secs():
             # If we aborted the process, and we find that it has exited without
             # writing a pidfile, then it's because we killed it, and thus this
             # isn't a surprising situation.
             if not self._killed:
                 email_manager.manager.enqueue_notify_email(
                     'Process has failed to write pidfile', message)
             else:
                 logging.warning("%s didn't exit after SIGTERM", self.pidfile_id)
             self.on_lost_process()


     def on_lost_process(self, process=None):
         """\
         Called when autoserv has exited without writing an exit status,
         or we've timed out waiting for autoserv to write a pid to the
         pidfile.  In either case, we just return failure and the caller
         should signal some kind of warning.

         process is unimportant here, as it shouldn't be used by anyone.
         """
         self.lost_process = True
         self._state.process = process
         self._state.exit_status = 1
         self._state.num_tests_failed = 0


     def exit_code(self):
         self._get_pidfile_info()
         return self._state.exit_status


     def num_tests_failed(self):
         """@returns The number of tests that failed or -1 if unknown."""
         self._get_pidfile_info()
         if self._state.num_tests_failed is None:
             return -1
         return self._state.num_tests_failed


     def try_copy_results_on_drone(self, **kwargs):
         if self.has_process():
             # copy results logs into the normal place for job results
             self._drone_manager.copy_results_on_drone(self.get_process(), **kwargs)


     def try_copy_to_results_repository(self, source, **kwargs):
         if self.has_process():
             self._drone_manager.copy_to_results_repository(self.get_process(),
                                                       source, **kwargs)
	#pylint: disable-msg=C0111

	"""
	Pidfile monitor.
	"""

	import logging
	import time, traceback
	from autotest_lib.client.common_lib import global_config
	from autotest_lib.scheduler import drone_manager, email_manager
	from autotest_lib.scheduler import scheduler_config



	def _get_pidfile_timeout_secs():
	"""@returns How long to wait for autoserv to write pidfile."""
	pidfile_timeout_mins = global_config.global_config.get_config_value(
	scheduler_config.CONFIG_SECTION, 'pidfile_timeout_mins', type=int)
	return pidfile_timeout_mins * 60


	class PidfileRunMonitor(object):
	"""
	Client must call either run() to start a new process or
	attach_to_existing_process().
	"""

	class _PidfileException(Exception):
	"""
	Raised when there's some unexpected behavior with the pid file, but only
	used internally (never allowed to escape this class).
	"""


	def __init__(self):
	self._drone_manager = drone_manager.instance()
	self.lost_process = False
	self._start_time = None
	self.pidfile_id = None
	self._killed = False
	self._state = drone_manager.PidfileContents()


	def _add_nice_command(self, command, nice_level):
	if not nice_level:
	return command
	return ['nice', '-n', str(nice_level)] + command


	def _set_start_time(self):
	self._start_time = time.time()


	def run(self, command, working_directory, num_processes, nice_level=None,
	log_file=None, pidfile_name=None, paired_with_pidfile=None,
	username=None, drone_hostnames_allowed=None):
	assert command is not None
	if nice_level is not None:
	command = ['nice', '-n', str(nice_level)] + command
	self._set_start_time()
	self.pidfile_id = self._drone_manager.execute_command(
	command, working_directory, pidfile_name=pidfile_name,
	num_processes=num_processes, log_file=log_file,
	paired_with_pidfile=paired_with_pidfile, username=username,
	drone_hostnames_allowed=drone_hostnames_allowed)


	def attach_to_existing_process(self, execution_path,
	pidfile_name=drone_manager.AUTOSERV_PID_FILE,
	num_processes=None):
	self._set_start_time()
	self.pidfile_id = self._drone_manager.get_pidfile_id_from(
	execution_path, pidfile_name=pidfile_name)
	if num_processes is not None:
	self._drone_manager.declare_process_count(self.pidfile_id, num_processes)


	def kill(self):
	if self.has_process():
	self._drone_manager.kill_process(self.get_process())
	self._killed = True


	def has_process(self):
	self._get_pidfile_info()
	return self._state.process is not None


	def get_process(self):
	self._get_pidfile_info()
	assert self._state.process is not None
	return self._state.process


	def _read_pidfile(self, use_second_read=False):
	assert self.pidfile_id is not None, (
	'You must call run() or attach_to_existing_process()')
	contents = self._drone_manager.get_pidfile_contents(
	self.pidfile_id, use_second_read=use_second_read)
	if contents.is_invalid():
	self._state = drone_manager.PidfileContents()
	raise self._PidfileException(contents)
	self._state = contents


	def _handle_pidfile_error(self, error, message=''):
	message = error + '\nProcess: %s\nPidfile: %s\n%s' % (
	self._state.process, self.pidfile_id, message)
	email_manager.manager.enqueue_notify_email(error, message)
	self.on_lost_process(self._state.process)


	def _get_pidfile_info_helper(self):
	if self.lost_process:
	return

	self._read_pidfile()

	if self._state.process is None:
	self._handle_no_process()
	return

	if self._state.exit_status is None:
	# double check whether or not autoserv is running
	if self._drone_manager.is_process_running(self._state.process):
	return

	# pid but no running process - maybe process just exited
	self._read_pidfile(use_second_read=True)
	if self._state.exit_status is None:
	# autoserv exited without writing an exit code
	# to the pidfile
	self._handle_pidfile_error(
	'autoserv died without writing exit code')


	def _get_pidfile_info(self):
	"""\
	After completion, self._state will contain:
	pid=None, exit_status=None if autoserv has not yet run
	pid!=None, exit_status=None if autoserv is running
	pid!=None, exit_status!=None if autoserv has completed
	"""
	try:
	self._get_pidfile_info_helper()
	except self._PidfileException, exc:
	self._handle_pidfile_error('Pidfile error', traceback.format_exc())


	def _handle_no_process(self):
	"""\
	Called when no pidfile is found or no pid is in the pidfile.
	"""
	message = 'No pid found at %s' % self.pidfile_id
	if time.time() - self._start_time > _get_pidfile_timeout_secs():
	# If we aborted the process, and we find that it has exited without
	# writing a pidfile, then it's because we killed it, and thus this
	# isn't a surprising situation.
	if not self._killed:
	email_manager.manager.enqueue_notify_email(
	'Process has failed to write pidfile', message)
	else:
	logging.warning("%s didn't exit after SIGTERM", self.pidfile_id)
	self.on_lost_process()


	def on_lost_process(self, process=None):
	"""\
	Called when autoserv has exited without writing an exit status,
	or we've timed out waiting for autoserv to write a pid to the
	pidfile. In either case, we just return failure and the caller
	should signal some kind of warning.

	process is unimportant here, as it shouldn't be used by anyone.
	"""
	self.lost_process = True
	self._state.process = process
	self._state.exit_status = 1
	self._state.num_tests_failed = 0


	def exit_code(self):
	self._get_pidfile_info()
	return self._state.exit_status


	def num_tests_failed(self):
	"""@returns The number of tests that failed or -1 if unknown."""
	self._get_pidfile_info()
	if self._state.num_tests_failed is None:
	return -1
	return self._state.num_tests_failed


	def try_copy_results_on_drone(self, **kwargs):
	if self.has_process():
	# copy results logs into the normal place for job results
	self._drone_manager.copy_results_on_drone(self.get_process(), **kwargs)


	def try_copy_to_results_repository(self, source, **kwargs):
	if self.has_process():
	self._drone_manager.copy_to_results_repository(self.get_process(),
	source, **kwargs)