def process(self):
# stop sspl service
dbus_service = DbusServiceHandler()
dbus_service.stop('sspl-ll.service')
# Remove sspl_conf
self.del_file(file_store_config_path)
# Remove sspl-configured file
self.del_file(SSPL_CONFIGURED)
# Remove sspl data
shutil.rmtree(DATA_PATH, ignore_errors=True)
# Remove sspl-ll user if preset
CMD = "id -u sspl-ll"
output, error, returncode = SimpleProcess(CMD).run()
if returncode != 0:
raise SetupError(returncode, "ERROR: %s - CMD %s", error, CMD)
else:
self.user_present = True
if self.user_present:
CMD = "/usr/sbin/userdel sspl-ll"
output, error, returncode = SimpleProcess(CMD).run()
if returncode != 0:
raise SetupError(returncode, "ERROR: %s - CMD %s", error, CMD)
# Remove log directories
shutil.rmtree(f"/var/log/{PRODUCT_FAMILY}/sspl", ignore_errors=True)
shutil.rmtree(f"/var/log/{PRODUCT_FAMILY}/iem", ignore_errors=True)
# Remove rsyslog config files
self.del_file("/etc/rsyslog.d/0-iemfwd.conf")
self.del_file("/etc/rsyslog.d/1-ssplfwd.conf")
# Remove logrotate config files
self.del_file("/etc/logrotate.d/iem_messages")
self.del_file("/etc/logrotate.d/sspl_logs")
# Remove SSPL configuration files
shutil.rmtree("/etc/sspl-ll", ignore_errors=True)
self.del_file("/etc/sspl.conf.bak")
def process(self):
dbus_service = DbusServiceHandler()
# Stop SSPL service if state is active
service_state = dbus_service.get_state('sspl-ll.service')
if service_state._state == 'active':
logger.warning ("SSPL service should have been stopped,"
f"before {self.name} interface is invoked")
logger.warning("Stopping SSPL service now...")
dbus_service.stop('sspl-ll.service')
# Remove sspl data
shutil.rmtree(DATA_PATH, ignore_errors=True)
# Clear log data from log files and delete 'log.gz' files
FileStore().truncate(f"/var/log/{PRODUCT_FAMILY}/sspl/", '.log')
FileStore().truncate(f"/var/log/{PRODUCT_FAMILY}/iem/", '.log')
FileStore().delete(
f"/var/log/{PRODUCT_FAMILY}/sspl/", '.log.gz')
FileStore().delete(
f"/var/log/{PRODUCT_FAMILY}/iem/", '.log.gz')
def process(self):
dbus_service = DbusServiceHandler()
# Stop SSPL service if state is active
service_state = dbus_service.get_state('sspl-ll.service')
if service_state._state == 'active':
logger.warning ("SSPL service should have been stopped,"
f"before {self.name} interface is invoked")
logger.warning("Stopping SSPL service now...")
dbus_service.stop('sspl-ll.service')
# Remove sspl data
shutil.rmtree(DATA_PATH, ignore_errors=True)
# Remove log files
Reset.del_files_from_dir('.log', f"/var/log/{PRODUCT_FAMILY}/sspl/")
Reset.del_files_from_dir('.log.gz',
f"/var/log/{PRODUCT_FAMILY}/sspl/")
Reset.del_files_from_dir('.log', f"/var/log/{PRODUCT_FAMILY}/iem/")
Reset.del_files_from_dir('.log.gz',
f"/var/log/{PRODUCT_FAMILY}/iem/")
class SystemdService(Debug):
"""Handles service request messages to systemd"""
ACTUATOR_NAME = "SystemdService"
@staticmethod
def name():
""" @return: name of the module."""
return SystemdService.ACTUATOR_NAME
def __init__(self):
super(SystemdService, self).__init__()
# Use d-bus to communicate with systemd
# Described at: http://www.freedesktop.org/wiki/Software/systemd/dbus/
# Obtain an instance of d-bus to communicate with systemd
self._bus = SystemBus()
# Obtain a manager interface to d-bus for communications with systemd
systemd = self._bus.get_object('org.freedesktop.systemd1',
'/org/freedesktop/systemd1')
self._manager = Interface(
systemd, dbus_interface='org.freedesktop.systemd1.Manager')
# Subscribe to signal changes
self._manager.Subscribe()
# create service cls obj.
self._service = DbusServiceHandler()
def perform_request(self, jsonMsg):
"""Performs the service request"""
self._check_debug(jsonMsg)
# Parse out the service name and request to perform on it
if jsonMsg.get("actuator_request_type").get("service_controller") \
is not None:
self._service_name = jsonMsg.get("actuator_request_type").\
get("service_controller").get("service_name")
self._service_request = jsonMsg.get("actuator_request_type").\
get("service_controller").get("service_request")
else:
self._service_name = jsonMsg.get("actuator_request_type").\
get("service_watchdog_controller").get("service_name")
self._service_request = jsonMsg.get("actuator_request_type").\
get("service_watchdog_controller").get("service_request")
logger.debug("perform_request, service_name: %s, service_request: %s" % \
(self._service_name, self._service_request))
try:
# Load the systemd unit for the service
systemd_unit = self._manager.LoadUnit(self._service_name)
# Get a proxy to systemd for accessing properties of units
self._proxy = self._bus.get_object("org.freedesktop.systemd1", \
str(systemd_unit))
# The returned result of the desired action
result = {}
is_err_response = False
if self._service_request in ['restart', 'start']:
# Before restart/start the service, check service state.
# If it is not active or activating then only process
# restart/start request.
service_state = self._service.get_state(self._service_name)
state = service_state.state
if state not in ['active', 'activating']:
if self._service_request == "restart":
self._service.restart(self._service_name)
elif self._service_request == "start":
self._service.start(self._service_name)
# Ensure we get an "active" state and not "activating"
service_state = self._service.get_state(self._service_name)
state = service_state.state
max_wait = 0
while state != "active":
logger.debug(
"%s status is activating, needs 'active' "
"state after %s request has been processed, retrying"
% (self._service_name, self._service_request))
time.sleep(1)
max_wait += 1
if max_wait > 20:
logger.debug("maximum wait - %s seconds, for "
"service restart reached." % max_wait)
break
service_state = self._service.get_state(
self._service_name)
state = service_state.state
else:
is_err_response = True
err_msg = (
"Can not process %s request, for %s, as service "
"is already in %s state." %
(self._service_request, self._service_name, state))
logger.error(err_msg)
return (self._service_name, err_msg, is_err_response)
elif self._service_request == "stop":
self._service.stop(self._service_name)
elif self._service_request == "status":
# Return the status below
service_status = self._service.get_state(self._service_name)
# TODO: Use cortx.utils Service class methods for
# enable/disable services.
elif self._service_request == "enable":
service_list = []
service_list.append(self._service_name)
# EnableUnitFiles() function takes second argument as boolean.
# 'True' will enable a service for runtime only(creates symlink
# in /run/.. directory) 'False' will enable a service
# persistently (creates symlink in /etc/.. directory)
_, dbus_result = self._manager.EnableUnitFiles(
service_list, False, True)
res = parse_enable_disable_dbus_result(dbus_result)
result.update(res)
logger.debug("perform_request, result for enable request: "
"result: %s" % (result))
elif self._service_request == "disable":
service_list = []
service_list.append(self._service_name)
# DisableUnitFiles() function takes second argument as boolean.
# 'True' will disable a service for runtime only(removes symlink
# from /run/.. directory) 'False' will disable a service
# persistently(removes symlink from /etc/.. directory)
dbus_result = self._manager.DisableUnitFiles(
service_list, False)
res = parse_enable_disable_dbus_result(dbus_result)
result.update(res)
logger.debug(
"perform_request, result for disable request: %s" % result)
else:
logger.error("perform_request, Unknown service request - %s "
"for service - %s" %
(self._service_request, self._service_name))
is_err_response = True
return (self._service_name, "Unknown service request",
is_err_response)
except debus_exceptions.DBusException as error:
is_err_response = True
logger.exception("DBus Exception: %r" % error)
return (self._service_name, str(error), is_err_response)
except Exception as ae:
logger.exception("SystemD Exception: %r" % ae)
is_err_response = True
return (self._service_name, str(ae), is_err_response)
# Give the unit some time to finish starting/stopping to get final status
time.sleep(5)
# Get the current status of the process and return it back:
service_status = self._service.get_state(self._service_name)
pid = service_status.pid
state = service_status.state
substate = service_status.substate
status = self._service.is_enabled(self._service_name)
uptime = get_service_uptime(self._service_name)
# Parse dbus output to fetch command line path with args.
command_line = service_status.command_line_path
command_line_path_with_args = []
for field in list(command_line[0][1]):
command_line_path_with_args.append(str(field))
result["pid"] = pid
result["state"] = state
result["substate"] = substate
result["status"] = status
result["uptime"] = uptime
result["command_line_path"] = command_line_path_with_args
logger.debug("perform_request, state: %s, substate: %s" %
(str(state), str(substate)))
return (self._service_name, result, is_err_response)