#!/usr/bin/env python3
#
# Copyright (C) 2020-2021 VyOS maintainers and contributors
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 2 or later as
# published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
import os
import time
import signal
import argparse
import threading
import re
import json
import logging
from queue import Queue
from logging.handlers import SysLogHandler
from vyos.ifconfig.vrrp import VRRP
from vyos.util import cmd
# configure logging
logger = logging.getLogger(__name__)
logs_format = logging.Formatter('%(filename)s: %(message)s')
logs_handler_syslog = SysLogHandler('/dev/log')
logs_handler_syslog.setFormatter(logs_format)
logger.addHandler(logs_handler_syslog)
logger.setLevel(logging.DEBUG)
# class for all operations
class KeepalivedFifo:
# init - read command arguments
def __init__(self):
logger.info("Starting FIFO pipe for Keepalived")
# define program arguments
cmd_args_parser = argparse.ArgumentParser(description='Create FIFO pipe for keepalived and process notify events', add_help=False)
cmd_args_parser.add_argument('PIPE', help='path to the FIFO pipe')
# parse arguments
cmd_args = cmd_args_parser.parse_args()
self._config_load()
self.pipe_path = cmd_args.PIPE
# create queue for messages and events for syncronization
self.message_queue = Queue(maxsize=100)
self.stopme = threading.Event()
self.message_event = threading.Event()
# load configuration
def _config_load(self):
try:
# read the dictionary file with configuration
with open(VRRP.location['vyos'], 'r') as dict_file:
vrrp_config_dict = json.load(dict_file)
self.vrrp_config = {'vrrp_groups': {}, 'sync_groups': {}}
# save VRRP instances to the new dictionary
for vrrp_group in vrrp_config_dict['vrrp_groups']:
self.vrrp_config['vrrp_groups'][vrrp_group['name']] = {
'STOP': vrrp_group.get('stop_script'),
'FAULT': vrrp_group.get('fault_script'),
'BACKUP': vrrp_group.get('backup_script'),
'MASTER': vrrp_group.get('master_script')
}
# save VRRP sync groups to the new dictionary
for sync_group in vrrp_config_dict['sync_groups']:
self.vrrp_config['sync_groups'][sync_group['name']] = {
'STOP': sync_group.get('stop_script'),
'FAULT': sync_group.get('fault_script'),
'BACKUP': sync_group.get('backup_script'),
'MASTER': sync_group.get('master_script')
}
logger.debug("Loaded configuration: {}".format(self.vrrp_config))
except Exception as err:
logger.error("Unable to load configuration: {}".format(err))
# run command
def _run_command(self, command):
logger.debug("Running the command: {}".format(command))
try:
cmd(command)
except OSError as err:
logger.error(f'Unable to execute command "{command}": {err}')
# create FIFO pipe
def pipe_create(self):
if os.path.exists(self.pipe_path):
logger.info(f"PIPE already exist: {self.pipe_path}")
else:
os.mkfifo(self.pipe_path)
# process message from pipe
def pipe_process(self):
logger.debug("Message processing start")
regex_notify = re.compile(r'^(?P\w+) "(?P[\w-]+)" (?P\w+) (?P\d+)$', re.MULTILINE)
while self.stopme.is_set() is False:
# wait for a new message event from pipe_wait
self.message_event.wait()
try:
# clear mesage event flag
self.message_event.clear()
# get all messages from queue and try to process them
while self.message_queue.empty() is not True:
message = self.message_queue.get()
logger.debug("Received message: {}".format(message))
notify_message = regex_notify.search(message)
# try to process a message if it looks valid
if notify_message:
n_type = notify_message.group('type')
n_name = notify_message.group('name')
n_state = notify_message.group('state')
logger.info("{} {} changed state to {}".format(n_type, n_name, n_state))
# check and run commands for VRRP instances
if n_type == 'INSTANCE':
if n_name in self.vrrp_config['vrrp_groups'] and n_state in self.vrrp_config['vrrp_groups'][n_name]:
n_script = self.vrrp_config['vrrp_groups'][n_name].get(n_state)
if n_script:
self._run_command(n_script)
# check and run commands for VRRP sync groups
# currently, this is not available in VyOS CLI
if n_type == 'GROUP':
if n_name in self.vrrp_config['sync_groups'] and n_state in self.vrrp_config['sync_groups'][n_name]:
n_script = self.vrrp_config['sync_groups'][n_name].get(n_state)
if n_script:
self._run_command(n_script)
# mark task in queue as done
self.message_queue.task_done()
except Exception as err:
logger.error("Error processing message: {}".format(err))
logger.debug("Terminating messages processing thread")
# wait for messages
def pipe_wait(self):
logger.debug("Message reading start")
self.pipe_read = os.open(self.pipe_path, os.O_RDONLY | os.O_NONBLOCK)
while self.stopme.is_set() is False:
# sleep a bit to not produce 100% CPU load
time.sleep(0.1)
try:
# try to read a message from PIPE
message = os.read(self.pipe_read, 500)
if message:
# split PIPE content by lines and put them into queue
for line in message.decode().strip().splitlines():
self.message_queue.put(line)
# set new message flag to start processing
self.message_event.set()
except Exception as err:
# ignore the "Resource temporarily unavailable" error
if err.errno != 11:
logger.error("Error receiving message: {}".format(err))
logger.debug("Closing FIFO pipe")
os.close(self.pipe_read)
# handle SIGTERM signal to allow finish all messages processing
def sigterm_handle(signum, frame):
logger.info("Ending processing: Received SIGTERM signal")
fifo.stopme.set()
thread_wait_message.join()
fifo.message_event.set()
thread_process_message.join()
signal.signal(signal.SIGTERM, sigterm_handle)
# init our class
fifo = KeepalivedFifo()
# try to create PIPE if it is not exist yet
# It looks like keepalived do it before the script will be running, but if we
# will decide to run this not from keepalived config, then we may get in
# trouble. So it is betteer to leave this here.
fifo.pipe_create()
# create and run dedicated threads for reading and processing messages
thread_wait_message = threading.Thread(target=fifo.pipe_wait)
thread_process_message = threading.Thread(target=fifo.pipe_process)
thread_wait_message.start()
thread_process_message.start()