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#!/usr/bin/python3
# Copyright (C) 2010 Internet Systems Consortium.
#
# Permission to use, copy, modify, and distribute this software for any
# purpose with or without fee is hereby granted, provided that the above
# copyright notice and this permission notice appear in all copies.
#
# THE SOFTWARE IS PROVIDED "AS IS" AND INTERNET SYSTEMS CONSORTIUM
# DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL
# INTERNET SYSTEMS CONSORTIUM BE LIABLE FOR ANY SPECIAL, DIRECT,
# INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING
# FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT,
# NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION
# WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
"""
This file implements the Secondary Manager program.
The secondary manager is one of the co-operating processes
of BIND10, which keeps track of timers and other information
necessary for BIND10 to act as a slave.
"""
import sys; sys.path.append ('@@PYTHONPATH@@')
import os
import time
import signal
import isc
import isc.dns
import random
import threading
import select
import socket
import errno
from isc.datasrc import sqlite3_ds
from optparse import OptionParser, OptionValueError
from isc.config.ccsession import *
import isc.util.process
from isc.log_messages.zonemgr_messages import *
# Initialize logging for called modules.
isc.log.init("b10-zonemgr")
logger = isc.log.Logger("zonemgr")
# Pending system-wide debug level definitions, the ones we
# use here are hardcoded for now
DBG_PROCESS = logger.DBGLVL_TRACE_BASIC
DBG_COMMANDS = logger.DBGLVL_TRACE_DETAIL
# Constants for debug levels.
DBG_START_SHUT = logger.DBGLVL_START_SHUT
DBG_ZONEMGR_COMMAND = logger.DBGLVL_COMMAND
DBG_ZONEMGR_BASIC = logger.DBGLVL_TRACE_BASIC
isc.util.process.rename()
# If B10_FROM_BUILD is set in the environment, we use data files
# from a directory relative to that, otherwise we use the ones
# installed on the system
66if "B10_FROM_BUILD" in os.environ:
SPECFILE_PATH = os.environ["B10_FROM_BUILD"] + "/src/bin/zonemgr"
AUTH_SPECFILE_PATH = os.environ["B10_FROM_BUILD"] + "/src/bin/auth"
else:
PREFIX = "/home/jelte/opt/bind10"
DATAROOTDIR = "${prefix}/share"
SPECFILE_PATH = "${datarootdir}/bind10-devel".replace("${datarootdir}", DATAROOTDIR).replace("${prefix}", PREFIX)
AUTH_SPECFILE_PATH = SPECFILE_PATH
SPECFILE_LOCATION = SPECFILE_PATH + "/zonemgr.spec"
AUTH_SPECFILE_LOCATION = AUTH_SPECFILE_PATH + "/auth.spec"
__version__ = "BIND10"
# define module name
XFRIN_MODULE_NAME = 'Xfrin'
AUTH_MODULE_NAME = 'Auth'
# define command name
ZONE_XFRIN_FAILED_COMMAND = 'zone_xfrin_failed'
ZONE_XFRIN_SUCCESS_COMMAND = 'zone_new_data_ready'
ZONE_REFRESH_COMMAND = 'refresh_from_zonemgr'
ZONE_NOTIFY_COMMAND = 'notify'
# define zone state
ZONE_OK = 0
ZONE_REFRESHING = 1
ZONE_EXPIRED = 2
# offsets of fields in the SOA RDATA
REFRESH_OFFSET = 3
RETRY_OFFSET = 4
EXPIRED_OFFSET = 5
class ZonemgrException(Exception):
pass
class ZonemgrRefresh:
"""This class will maintain and manage zone refresh info.
It also provides methods to keep track of zone timers and
do zone refresh.
Zone timers can be started by calling run_timer(), and it
can be stopped by calling shutdown() in another thread.
"""
def __init__(self, cc, db_file, slave_socket, module_cc_session):
self._cc = cc
self._check_sock = slave_socket
self._db_file = db_file
self._zonemgr_refresh_info = {}
self._lowerbound_refresh = None
self._lowerbound_retry = None
self._max_transfer_timeout = None
self._refresh_jitter = None
self._reload_jitter = None
self.update_config_data(module_cc_session.get_full_config(),
module_cc_session)
self._running = False
def _random_jitter(self, max, jitter):
"""Imposes some random jitters for refresh and
retry timers to avoid many zones need to do refresh
at the same time.
The value should be between (max - jitter) and max.
"""
if 0 == jitter:
return max
return random.uniform(max - jitter, max)
def _get_current_time(self):
return time.time()
def _set_zone_timer(self, zone_name_class, max, jitter):
"""Set zone next refresh time.
jitter should not be bigger than half the original value."""
self._set_zone_next_refresh_time(zone_name_class, self._get_current_time() + \
self._random_jitter(max, jitter))
def _set_zone_refresh_timer(self, zone_name_class):
"""Set zone next refresh time after zone refresh success.
now + refresh - refresh_jitter <= next_refresh_time <= now + refresh
"""
zone_refresh_time = float(self._get_zone_soa_rdata(zone_name_class).split(" ")[REFRESH_OFFSET])
zone_refresh_time = max(self._lowerbound_refresh, zone_refresh_time)
self._set_zone_timer(zone_name_class, zone_refresh_time, self._refresh_jitter * zone_refresh_time)
def _set_zone_retry_timer(self, zone_name_class):
"""Set zone next refresh time after zone refresh fail.
now + retry - retry_jitter <= next_refresh_time <= now + retry
"""
if (self._get_zone_soa_rdata(zone_name_class) is not None):
zone_retry_time = float(self._get_zone_soa_rdata(zone_name_class).split(" ")[RETRY_OFFSET])
else:
zone_retry_time = 0.0
zone_retry_time = max(self._lowerbound_retry, zone_retry_time)
self._set_zone_timer(zone_name_class, zone_retry_time, self._refresh_jitter * zone_retry_time)
def _set_zone_notify_timer(self, zone_name_class):
"""Set zone next refresh time after receiving notify
next_refresh_time = now
"""
self._set_zone_timer(zone_name_class, 0, 0)
def _zone_not_exist(self, zone_name_class):
""" Zone doesn't belong to zonemgr"""
return not zone_name_class in self._zonemgr_refresh_info
def zone_refresh_success(self, zone_name_class):
"""Update zone info after zone refresh success"""
if (self._zone_not_exist(zone_name_class)):
logger.error(ZONEMGR_UNKNOWN_ZONE_SUCCESS, zone_name_class[0], zone_name_class[1])
raise ZonemgrException("[b10-zonemgr] Zone (%s, %s) doesn't "
"belong to zonemgr" % zone_name_class)
self.zonemgr_reload_zone(zone_name_class)
self._set_zone_refresh_timer(zone_name_class)
self._set_zone_state(zone_name_class, ZONE_OK)
self._set_zone_last_refresh_time(zone_name_class, self._get_current_time())
def zone_refresh_fail(self, zone_name_class):
"""Update zone info after zone refresh fail"""
if (self._zone_not_exist(zone_name_class)):
logger.error(ZONEMGR_UNKNOWN_ZONE_FAIL, zone_name_class[0], zone_name_class[1])
raise ZonemgrException("[b10-zonemgr] Zone (%s, %s) doesn't "
"belong to zonemgr" % zone_name_class)
# Is zone expired?
if ((self._get_zone_soa_rdata(zone_name_class) is None) or
self._zone_is_expired(zone_name_class)):
self._set_zone_state(zone_name_class, ZONE_EXPIRED)
else:
self._set_zone_state(zone_name_class, ZONE_OK)
self._set_zone_retry_timer(zone_name_class)
def zone_handle_notify(self, zone_name_class, master):
"""Handle zone notify"""
if (self._zone_not_exist(zone_name_class)):
logger.error(ZONEMGR_UNKNOWN_ZONE_NOTIFIED, zone_name_class[0], zone_name_class[1])
raise ZonemgrException("[b10-zonemgr] Notified zone (%s, %s) "
"doesn't belong to zonemgr" % zone_name_class)
self._set_zone_notifier_master(zone_name_class, master)
self._set_zone_notify_timer(zone_name_class)
def zonemgr_reload_zone(self, zone_name_class):
""" Reload a zone."""
zone_soa = sqlite3_ds.get_zone_soa(str(zone_name_class[0]), self._db_file)
self._zonemgr_refresh_info[zone_name_class]["zone_soa_rdata"] = zone_soa[7]
def zonemgr_add_zone(self, zone_name_class):
""" Add a zone into zone manager."""
logger.debug(DBG_ZONEMGR_BASIC, ZONEMGR_LOAD_ZONE, zone_name_class[0], zone_name_class[1])
zone_info = {}
zone_soa = sqlite3_ds.get_zone_soa(str(zone_name_class[0]), self._db_file)
if zone_soa is None:
logger.warn(ZONEMGR_NO_SOA, zone_name_class[0], zone_name_class[1])
zone_info["zone_soa_rdata"] = None
zone_reload_time = 0.0
else:
zone_info["zone_soa_rdata"] = zone_soa[7]
zone_reload_time = float(zone_soa[7].split(" ")[RETRY_OFFSET])
zone_info["zone_state"] = ZONE_OK
zone_info["last_refresh_time"] = self._get_current_time()
self._zonemgr_refresh_info[zone_name_class] = zone_info
# Imposes some random jitters to avoid many zones need to do refresh at the same time.
zone_reload_time = max(self._lowerbound_retry, zone_reload_time)
self._set_zone_timer(zone_name_class, zone_reload_time, self._reload_jitter * zone_reload_time)
def _zone_is_expired(self, zone_name_class):
"""Judge whether a zone is expired or not."""
zone_expired_time = float(self._get_zone_soa_rdata(zone_name_class).split(" ")[EXPIRED_OFFSET])
zone_last_refresh_time = self._get_zone_last_refresh_time(zone_name_class)
if (ZONE_EXPIRED == self._get_zone_state(zone_name_class) or
zone_last_refresh_time + zone_expired_time <= self._get_current_time()):
return True
return False
def _get_zone_soa_rdata(self, zone_name_class):
return self._zonemgr_refresh_info[zone_name_class]["zone_soa_rdata"]
def _get_zone_last_refresh_time(self, zone_name_class):
return self._zonemgr_refresh_info[zone_name_class]["last_refresh_time"]
def _set_zone_last_refresh_time(self, zone_name_class, time):
self._zonemgr_refresh_info[zone_name_class]["last_refresh_time"] = time
def _get_zone_notifier_master(self, zone_name_class):
if ("notify_master" in self._zonemgr_refresh_info[zone_name_class].keys()):
return self._zonemgr_refresh_info[zone_name_class]["notify_master"]
return None
def _set_zone_notifier_master(self, zone_name_class, master_addr):
self._zonemgr_refresh_info[zone_name_class]["notify_master"] = master_addr
def _clear_zone_notifier_master(self, zone_name_class):
if ("notify_master" in self._zonemgr_refresh_info[zone_name_class].keys()):
del self._zonemgr_refresh_info[zone_name_class]["notify_master"]
def _get_zone_state(self, zone_name_class):
return self._zonemgr_refresh_info[zone_name_class]["zone_state"]
def _set_zone_state(self, zone_name_class, zone_state):
self._zonemgr_refresh_info[zone_name_class]["zone_state"] = zone_state
def _get_zone_refresh_timeout(self, zone_name_class):
return self._zonemgr_refresh_info[zone_name_class]["refresh_timeout"]
def _set_zone_refresh_timeout(self, zone_name_class, time):
self._zonemgr_refresh_info[zone_name_class]["refresh_timeout"] = time
def _get_zone_next_refresh_time(self, zone_name_class):
return self._zonemgr_refresh_info[zone_name_class]["next_refresh_time"]
def _set_zone_next_refresh_time(self, zone_name_class, time):
self._zonemgr_refresh_info[zone_name_class]["next_refresh_time"] = time
def _send_command(self, module_name, command_name, params):
"""Send command between modules."""
msg = create_command(command_name, params)
try:
seq = self._cc.group_sendmsg(msg, module_name)
try:
287 answer, env = self._cc.group_recvmsg(False, seq)
except isc.cc.session.SessionTimeout:
pass # for now we just ignore the failure
except socket.error:
logger.error(ZONEMGR_SEND_FAIL, module_name)
def _find_need_do_refresh_zone(self):
"""Find the first zone need do refresh, if no zone need
do refresh, return the zone with minimum next_refresh_time.
"""
zone_need_refresh = None
for zone_name_class in self._zonemgr_refresh_info.keys():
zone_state = self._get_zone_state(zone_name_class)
# If hasn't received refresh response but are within refresh
# timeout, skip the zone
if (ZONE_REFRESHING == zone_state and
(self._get_zone_refresh_timeout(zone_name_class) > self._get_current_time())):
continue
# Get the zone with minimum next_refresh_time
310 if ((zone_need_refresh is None) or
(self._get_zone_next_refresh_time(zone_name_class) <
self._get_zone_next_refresh_time(zone_need_refresh))):
zone_need_refresh = zone_name_class
# Find the zone need do refresh
if (self._get_zone_next_refresh_time(zone_need_refresh) < self._get_current_time()):
break
return zone_need_refresh
def _do_refresh(self, zone_name_class):
"""Do zone refresh."""
logger.debug(DBG_ZONEMGR_BASIC, ZONEMGR_REFRESH_ZONE, zone_name_class[0], zone_name_class[1])
self._set_zone_state(zone_name_class, ZONE_REFRESHING)
self._set_zone_refresh_timeout(zone_name_class, self._get_current_time() + self._max_transfer_timeout)
notify_master = self._get_zone_notifier_master(zone_name_class)
# If the zone has notify master, send notify command to xfrin module
if notify_master:
param = {"zone_name" : zone_name_class[0],
"zone_class" : zone_name_class[1],
"master" : notify_master
}
self._send_command(XFRIN_MODULE_NAME, ZONE_NOTIFY_COMMAND, param)
self._clear_zone_notifier_master(zone_name_class)
# Send refresh command to xfrin module
else:
param = {"zone_name" : zone_name_class[0],
"zone_class" : zone_name_class[1]
}
self._send_command(XFRIN_MODULE_NAME, ZONE_REFRESH_COMMAND, param)
def _zone_mgr_is_empty(self):
"""Does zone manager has no zone?"""
if not len(self._zonemgr_refresh_info):
return True
return False
def _run_timer(self, start_event):
while self._running:
# Notify run_timer that we already started and are inside the loop.
# It is set only once, but when it was outside the loop, there was
# a race condition and _running could be set to false before we
# could enter it
if start_event:
start_event.set()
start_event = None
# If zonemgr has no zone, set timer timeout to self._lowerbound_retry.
355 if self._zone_mgr_is_empty():
timeout = self._lowerbound_retry
else:
zone_need_refresh = self._find_need_do_refresh_zone()
# If don't get zone with minimum next refresh time, set timer timeout to self._lowerbound_retry.
if not zone_need_refresh:
timeout = self._lowerbound_retry
else:
timeout = self._get_zone_next_refresh_time(zone_need_refresh) - self._get_current_time()
if (timeout < 0):
self._do_refresh(zone_need_refresh)
continue
""" Wait for the socket notification for a maximum time of timeout
in seconds (as float)."""
try:
rlist, wlist, xlist = select.select([self._check_sock, self._read_sock], [], [], timeout)
except select.error as e:
if e.args[0] == errno.EINTR:
(rlist, wlist, xlist) = ([], [], [])
else:
logger.error(ZONEMGR_SELECT_ERROR, e);
break
for fd in rlist:
384 if fd == self._read_sock: # awaken by shutdown socket
# self._running will be False by now, if it is not a false
# alarm (linux kernel is said to trigger spurious wakeup
# on a filehandle that is not really readable).
continue
if fd == self._check_sock: # awaken by check socket
self._check_sock.recv(32)
def run_timer(self, daemon=False):
"""
Keep track of zone timers. Spawns and starts a thread. The thread object
is returned.
You can stop it by calling shutdown().
"""
# Small sanity check
396 if self._running:
logger.error(ZONEMGR_TIMER_THREAD_RUNNING)
raise RuntimeError("Trying to run the timers twice at the same time")
# Prepare the launch
self._running = True
(self._read_sock, self._write_sock) = socket.socketpair()
start_event = threading.Event()
# Start the thread
self._thread = threading.Thread(target = self._run_timer,
args = (start_event,))
if daemon:
self._thread.setDaemon(True)
self._thread.start()
start_event.wait()
# Return the thread to anyone interested
return self._thread
def shutdown(self):
"""
Stop the run_timer() thread. Block until it finished. This must be
called from a different thread.
"""
421 if not self._running:
logger.error(ZONEMGR_NO_TIMER_THREAD)
raise RuntimeError("Trying to shutdown, but not running")
# Ask the thread to stop
self._running = False
self._write_sock.send(b'shutdown') # make self._read_sock readble
# Wait for it to actually finnish
self._thread.join()
# Wipe out what we do not need
self._thread = None
self._read_sock = None
self._write_sock = None
def update_config_data(self, new_config, module_cc_session):
""" update ZonemgrRefresh config """
# Get a new value, but only if it is defined (commonly used below)
# We don't use "value or default", because if value would be
# 0, we would take default
def val_or_default(value, default):
if value is not None:
return value
else:
return default
self._lowerbound_refresh = val_or_default(
new_config.get('lowerbound_refresh'), self._lowerbound_refresh)
self._lowerbound_retry = val_or_default(
new_config.get('lowerbound_retry'), self._lowerbound_retry)
self._max_transfer_timeout = val_or_default(
new_config.get('max_transfer_timeout'), self._max_transfer_timeout)
self._refresh_jitter = val_or_default(
new_config.get('refresh_jitter'), self._refresh_jitter)
self._reload_jitter = val_or_default(
new_config.get('reload_jitter'), self._reload_jitter)
try:
required = {}
secondary_zones = new_config.get('secondary_zones')
if secondary_zones is not None:
# Add new zones
for secondary_zone in new_config.get('secondary_zones'):
if 'name' not in secondary_zone:
raise ZonemgrException("Secondary zone specified "
"without a name")
name = secondary_zone['name']
# Convert to Name and back (both to check and to normalize)
try:
name = isc.dns.Name(name, True).to_text()
# Name() can raise a number of different exceptions, just
# catch 'em all.
except Exception as isce:
raise ZonemgrException("Bad zone name '" + name +
"': " + str(isce))
# Currently we use an explicit get_default_value call
# in case the class hasn't been set. Alternatively, we
# could use
# module_cc_session.get_value('secondary_zones[INDEX]/class')
# To get either the value that was set, or the default if
# it wasn't set.
# But the real solution would be to make new_config a type
# that contains default values itself
# (then this entire method can be simplified a lot, and we
# wouldn't need direct access to the ccsession object)
if 'class' in secondary_zone:
rr_class = secondary_zone['class']
else:
rr_class = module_cc_session.get_default_value(
'secondary_zones/class')
# Convert rr_class to and from RRClass to check its value
try:
name_class = (name, isc.dns.RRClass(rr_class).to_text())
except isc.dns.InvalidRRClass:
raise ZonemgrException("Bad RR class '" +
rr_class +
"' for zone " + name)
required[name_class] = True
# Add it only if it isn't there already
if not name_class in self._zonemgr_refresh_info:
# If we are not able to find it in database, log an warning
self.zonemgr_add_zone(name_class)
# Drop the zones that are no longer there
# Do it in two phases, python doesn't like deleting while iterating
to_drop = []
for old_zone in self._zonemgr_refresh_info:
if not old_zone in required:
to_drop.append(old_zone)
for drop in to_drop:
del self._zonemgr_refresh_info[drop]
except:
raise
class Zonemgr:
"""Zone manager class."""
def __init__(self):
self._zone_refresh = None
self._setup_session()
self._db_file = self.get_db_file()
# Create socket pair for communicating between main thread and zonemgr timer thread
self._master_socket, self._slave_socket = socket.socketpair(socket.AF_UNIX, socket.SOCK_STREAM)
self._zone_refresh = ZonemgrRefresh(self._cc, self._db_file, self._slave_socket, self._module_cc)
self._zone_refresh.run_timer()
self._lock = threading.Lock()
self._shutdown_event = threading.Event()
self.running = False
def _setup_session(self):
"""Setup two sessions for zonemgr, one(self._module_cc) is used for receiving
commands and config data sent from other modules, another one (self._cc)
is used to send commands to proper modules."""
self._cc = isc.cc.Session()
self._module_cc = isc.config.ModuleCCSession(SPECFILE_LOCATION,
self.config_handler,
self.command_handler)
self._module_cc.add_remote_config(AUTH_SPECFILE_LOCATION)
self._config_data = self._module_cc.get_full_config()
self._config_data_check(self._config_data)
self._module_cc.start()
def get_db_file(self):
db_file, is_default = self._module_cc.get_remote_config_value(AUTH_MODULE_NAME, "database_file")
# this too should be unnecessary, but currently the
# 'from build' override isn't stored in the config
# (and we don't have indirect python access to datasources yet)
552 if is_default and "B10_FROM_BUILD" in os.environ:
db_file = os.environ["B10_FROM_BUILD"] + "/bind10_zones.sqlite3"
return db_file
def shutdown(self):
"""Shutdown the zonemgr process. The thread which is keeping track of
zone timers should be terminated.
"""
self._zone_refresh.shutdown()
self._slave_socket.close()
self._master_socket.close()
self._shutdown_event.set()
self.running = False
def config_handler(self, new_config):
""" Update config data. """
answer = create_answer(0)
ok = True
complete = self._config_data.copy()
for key in new_config:
if key not in complete:
answer = create_answer(1, "Unknown config data: " + str(key))
ok = False
continue
complete[key] = new_config[key]
self._config_data_check(complete)
if self._zone_refresh is not None:
try:
self._zone_refresh.update_config_data(complete, self._module_cc)
except Exception as e:
answer = create_answer(1, str(e))
ok = False
if ok:
self._config_data = complete
return answer
def _config_data_check(self, config_data):
"""Check whether the new config data is valid or
not. It contains only basic logic, not full check against
database."""
# jitter should not be bigger than half of the original value
if config_data.get('refresh_jitter') > 0.5:
config_data['refresh_jitter'] = 0.5
logger.warn(ZONEMGR_JITTER_TOO_BIG)
def _parse_cmd_params(self, args, command):
zone_name = args.get("zone_name")
602 if not zone_name:
logger.error(ZONEMGR_NO_ZONE_NAME)
raise ZonemgrException("zone name should be provided")
zone_class = args.get("zone_class")
607 if not zone_class:
logger.error(ZONEMGR_NO_ZONE_CLASS)
raise ZonemgrException("zone class should be provided")
if (command != ZONE_NOTIFY_COMMAND):
return (zone_name, zone_class)
master_str = args.get("master")
if not master_str:
logger.error(ZONEMGR_NO_MASTER_ADDRESS)
raise ZonemgrException("master address should be provided")
return ((zone_name, zone_class), master_str)
def command_handler(self, command, args):
"""Handle command receivd from command channel.
ZONE_NOTIFY_COMMAND is issued by Auth process;
ZONE_XFRIN_SUCCESS_COMMAND and ZONE_XFRIN_FAILED_COMMAND are issued by
Xfrin process;
shutdown is issued by a user or Boss process. """
answer = create_answer(0)
if command == ZONE_NOTIFY_COMMAND:
""" Handle Auth notify command"""
# master is the source sender of the notify message.
zone_name_class, master = self._parse_cmd_params(args, command)
logger.debug(DBG_ZONEMGR_COMMAND, ZONEMGR_RECEIVE_NOTIFY, zone_name_class[0], zone_name_class[1])
with self._lock:
self._zone_refresh.zone_handle_notify(zone_name_class, master)
# Send notification to zonemgr timer thread
self._master_socket.send(b" ")# make self._slave_socket readble
elif command == ZONE_XFRIN_SUCCESS_COMMAND:
""" Handle xfrin success command"""
zone_name_class = self._parse_cmd_params(args, command)
logger.debug(DBG_ZONEMGR_COMMAND, ZONEMGR_RECEIVE_XFRIN_SUCCESS, zone_name_class[0], zone_name_class[1])
with self._lock:
self._zone_refresh.zone_refresh_success(zone_name_class)
self._master_socket.send(b" ")# make self._slave_socket readble
elif command == ZONE_XFRIN_FAILED_COMMAND:
""" Handle xfrin fail command"""
zone_name_class = self._parse_cmd_params(args, command)
logger.debug(DBG_ZONEMGR_COMMAND, ZONEMGR_RECEIVE_XFRIN_FAILED, zone_name_class[0], zone_name_class[1])
with self._lock:
self._zone_refresh.zone_refresh_fail(zone_name_class)
self._master_socket.send(b" ")# make self._slave_socket readble
elif command == "shutdown":
logger.debug(DBG_ZONEMGR_COMMAND, ZONEMGR_RECEIVE_SHUTDOWN)
self.shutdown()
else:
logger.warn(ZONEMGR_RECEIVE_UNKNOWN, str(command))
answer = create_answer(1, "Unknown command:" + str(command))
return answer
def run(self):
logger.debug(DBG_PROCESS, ZONEMGR_STARTED)
self.running = True
try:
669 while not self._shutdown_event.is_set():
self._module_cc.check_command(False)
finally:
self._module_cc.send_stopping()
zonemgrd = None
def signal_handler(signal, frame):
if zonemgrd:
zonemgrd.shutdown()
sys.exit(0)
def set_signal_handler():
signal.signal(signal.SIGTERM, signal_handler)
signal.signal(signal.SIGINT, signal_handler)
def set_cmd_options(parser):
parser.add_option("-v", "--verbose", dest="verbose", action="store_true",
help="display more about what is going on")
689if '__main__' == __name__:
try:
logger.debug(DBG_START_SHUT, ZONEMGR_STARTING)
parser = OptionParser()
set_cmd_options(parser)
(options, args) = parser.parse_args()
if options.verbose:
logger.set_severity("DEBUG", 99)
set_signal_handler()
zonemgrd = Zonemgr()
zonemgrd.run()
except KeyboardInterrupt:
logger.info(ZONEMGR_KEYBOARD_INTERRUPT)
except isc.cc.session.SessionError as e:
logger.error(ZONEMGR_SESSION_ERROR)
except isc.cc.session.SessionTimeout as e:
logger.error(ZONEMGR_SESSION_TIMEOUT)
except isc.config.ModuleCCSessionError as e:
logger.error(ZONEMGR_CCSESSION_ERROR, str(e))
if zonemgrd and zonemgrd.running:
zonemgrd.shutdown()
logger.debug(DBG_START_SHUT, ZONEMGR_SHUTDOWN)
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