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pvc/router-daemon/pvcrd/RouterInstance.py

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#!/usr/bin/env python3
# RouterInstance.py - Class implementing a PVC router and run by pvcrd
# Part of the Parallel Virtual Cluster (PVC) system
#
# Copyright (C) 2018 Joshua M. Boniface <joshua@boniface.me>
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# 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 <https://www.gnu.org/licenses/>.
#
###############################################################################
import os
import sys
import psutil
import socket
import time
import threading
import subprocess
import daemon_lib.ansiiprint as ansiiprint
import daemon_lib.zkhandler as zkhandler
import daemon_lib.common as common
class RouterInstance():
# Initialization function
def __init__(self, this_router, name, t_router, s_network, zk_conn, config):
# Passed-in variables on creation
self.zk_conn = zk_conn
self.config = config
self.this_router = this_router
self.name = name
self.daemon_state = 'stop'
self.network_state = 'secondary'
self.t_router = t_router
self.primary_router_list = []
self.secondary_router_list = []
self.inactive_router_list = []
self.s_network = s_network
self.network_list = []
self.ipmi_hostname = self.config['ipmi_hostname']
self.active = False
# Zookeeper handlers for changed states
@zk_conn.DataWatch('/routers/{}/daemonstate'.format(self.name))
def watch_hypervisor_daemonstate(data, stat, event=""):
try:
self.daemon_state = data.decode('ascii')
except AttributeError:
self.daemon_state = 'stop'
@zk_conn.DataWatch('/routers/{}/networkstate'.format(self.name))
def watch_hypervisor_networkstate(data, stat, event=""):
try:
self.network_state = data.decode('ascii')
except AttributeError:
self.network_state = 'secondary'
# Get value functions
def getname(self):
return self.name
def getdaemonstate(self):
return self.daemon_state
def getnetworkstate(self):
return self.network_state
def getnetworklist(self):
return self.network_list
# Update value functions
def updaterouterlist(self, t_router):
self.t_router = t_router
def updatenetworklist(self, s_network):
self.s_network = s_network
for network in s_network:
self.network_list.append(s_network[network].getvni())
def become_secondary(self):
self.active = True
ansiiprint.echo('Setting router {} to secondary state'.format(self.name), '', 'i')
ansiiprint.echo('Network list: {}'.format(', '.join(self.network_list)), '', 'c')
for router in self.t_router:
if self.t_router[router].getname() != self.this_router:
if self.t_router[router].getnetworkstate() != 'primary':
zkhandler.writedata(self.zk_conn, { '/routers/{}/networkstate'.format(self.t_router[router].getname()): 'primary' })
time.sleep(2)
for network in self.s_network:
self.s_network[network].removeGatewayAddress()
self.s_network[network].stopDHCPServer()
def set_secondary(self):
result = zkhandler.writedata(self.zk_conn, {
'/routers/{}/networkstate'.format(self.name): 'secondary'
})
if not result:
time.sleep(1)
def become_primary(self):
self.active = True
ansiiprint.echo('Setting router {} to primary state.'.format(self.name), '', 'i')
ansiiprint.echo('Network list: {}'.format(', '.join(self.network_list)), '', 'c')
for network in self.s_network:
self.s_network[network].createGatewayAddress()
self.s_network[network].startDHCPServer()
for router in self.t_router:
if self.t_router[router].getname() != self.this_router:
if self.t_router[router].getnetworkstate() != 'secondary':
zkhandler.writedata(self.zk_conn, { '/routers/{}/networkstate'.format(self.t_router[router].getname()): 'secondary' })
def set_primary(self):
result = zkhandler.writedata(self.zk_conn, {
'/routers': self.name,
'/routers/{}/networkstate'.format(self.name): 'primary',
})
if not result:
time.sleep(1)
def update_zookeeper(self):
# Get past state and update if needed
past_state = zkhandler.readdata(self.zk_conn, '/routers/{}/daemonstate'.format(self.name))
if past_state != 'run':
self.daemon_state = 'run'
zkhandler.writedata(self.zk_conn, { '/routers/{}/daemonstate'.format(self.name): 'run' })
else:
self.daemon_state = 'run'
# Set our information in zookeeper
cpuload = os.getloadavg()[0]
keepalive_time = int(time.time())
try:
zkhandler.writedata(self.zk_conn, {
'/routers/{}/keepalive'.format(self.name): str(keepalive_time),
'/routers/{}/cpuload'.format(self.name): str(cpuload),
})
except:
ansiiprint.echo('Failed to set keepalive data', '', 'e')
return
# Display router information to the terminal
ansiiprint.echo('{}{} keepalive{}'.format(ansiiprint.purple(), self.name, ansiiprint.end()), '', 't')
ansiiprint.echo('{0}Networks count:{1} {2} {0}Load average:{1} {3}'.format(ansiiprint.bold(), ansiiprint.end(), len(self.network_list), cpuload), '', 'c')
# Update our local router lists
for router_name in self.t_router:
try:
router_daemon_state = zkhandler.readdata(self.zk_conn, '/routers/{}/daemonstate'.format(router_name))
router_network_state = zkhandler.readdata(self.zk_conn, '/routers/{}/networkstate'.format(router_name))
router_keepalive = int(zkhandler.readdata(self.zk_conn, '/routers/{}/keepalive'.format(router_name)))
except:
router_daemon_state = 'unknown'
router_network_state = 'unknown'
router_keepalive = 0
# Handle deadtime and fencng if needed
# (A router is considered dead when its keepalive timer is >6*keepalive_interval seconds
# out-of-date while in 'start' state)
router_deadtime = int(time.time()) - ( int(self.config['keepalive_interval']) * int(self.config['fence_intervals']) )
if router_keepalive < router_deadtime and router_daemon_state == 'run':
ansiiprint.echo('Router {} seems dead - starting monitor for fencing'.format(router_name), '', 'w')
zkhandler.writedata(self.zk_conn, { '/routers/{}/daemonstate'.format(router_name): 'dead' })
fence_thread = threading.Thread(target=fenceRouter, args=(router_name, self.zk_conn, self.config), kwargs={})
fence_thread.start()
# Update the arrays
if router_daemon_state == 'run' and router_network_state != 'secondary' and router_name not in self.primary_router_list:
self.primary_router_list.append(router_name)
try:
self.secondary_router_list.remove(router_name)
except ValueError:
pass
try:
self.inactive_router_list.remove(router_name)
except ValueError:
pass
if router_daemon_state != 'run' and router_network_state != 'secondary' and router_name not in self.inactive_router_list:
self.inactive_router_list.append(router_name)
try:
self.primary_router_list.remove(router_name)
except ValueError:
pass
try:
self.secondary_router_list.remove(router_name)
except ValueError:
pass
if router_network_state == 'secondary' and router_name not in self.secondary_router_list:
self.secondary_router_list.append(router_name)
try:
self.primary_router_list.remove(router_name)
except ValueError:
pass
try:
self.inactive_router_list.remove(router_name)
except ValueError:
pass
# toggle state management of this router
if s_network != {} and not self.active: # If there's no network list, we're too early in startup
if self.name == self.this_router:
if self.network_state == 'secondary':
self.become_secondary()
if self.network_state == 'primary':
self.become_primary()
# Try to set ourself primary if there is no primary in the cluster
cluster_has_primary = False
for router in self.t_router:
if self.t_router[router].getnetworkstate() == 'primary':
cluster_has_primary = True
break
if not cluster_has_primary:
self.set_primary()
# Display cluster information to the terminal
ansiiprint.echo('{}Cluster status{}'.format(ansiiprint.purple(), ansiiprint.end()), '', 't')
ansiiprint.echo('{}Primary router:{} {}'.format(ansiiprint.bold(), ansiiprint.end(), ' '.join(self.primary_router_list)), '', 'c')
ansiiprint.echo('{}Secondary router:{} {}'.format(ansiiprint.bold(), ansiiprint.end(), ' '.join(self.secondary_router_list)), '', 'c')
ansiiprint.echo('{}Inactive routers:{} {}'.format(ansiiprint.bold(), ansiiprint.end(), ' '.join(self.inactive_router_list)), '', 'c')
#
# Fence thread entry function
#
def fenceRouter(router_name, zk_conn, config):
failcount = 0
# We allow exactly 3 saving throws for the host to come back online
while failcount < 3:
# Wait 5 seconds
time.sleep(5)
# Get the state
router_daemon_state = zkhandler.readdata(zk_conn, '/routers/{}/daemonstate'.format(router_name))
# Is it still 'dead'
if router_daemon_state == 'dead':
failcount += 1
ansiiprint.echo('Router "{}" failed {} saving throws'.format(router_name, failcount), '', 'w')
# It changed back to something else so it must be alive
else:
ansiiprint.echo('Router "{}" passed a saving throw; canceling fence'.format(router_name), '', 'o')
return
ansiiprint.echo('Fencing router "{}" via IPMI reboot signal'.format(router_name), '', 'e')
# Get IPMI information
ipmi_hostname = zkhandler.readdata(zk_conn, '/routers/{}/ipmihostname'.format(router_name))
ipmi_username = zkhandler.readdata(zk_conn, '/routers/{}/ipmiusername'.format(router_name))
ipmi_password = zkhandler.readdata(zk_conn, '/routers/{}/ipmipassword'.format(router_name))
# Shoot it in the head
fence_status = rebootViaIPMI(ipmi_hostname, ipmi_username, ipmi_password)
# Hold to ensure the fence takes effect
time.sleep(3)
# Set router in secondary state
zkhandler.writedata(zk_conn, { '/routers/{}/networkstate'.format(router_name): 'secondary' })
#
# Perform an IPMI fence
#
def rebootViaIPMI(ipmi_hostname, ipmi_user, ipmi_password):
retcode = common.run_os_command('ipmitool -I lanplus -H {} -U {} -P {} chassis power reset'.format(
ipmi_hostname, ipmi_user, ipmi_password
))
if retcode == 0:
ansiiprint.echo('Successfully rebooted dead router', '', 'o')
return True
else:
ansiiprint.echo('Failed to reboot dead router', '', 'e')
return False
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