pvc/NodeInstance.py

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#!/usr/bin/env python3
import os, sys, socket, time, threading, libvirt, kazoo.client, pvcf
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class NodeInstance(threading.Thread):
def __init__(self, name, node_list, s_domain, zk):
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super(NodeInstance, self).__init__()
# Passed-in variables on creation
self.zkey = '/nodes/%s' % name
self.zk = zk
self.name = name
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self.state = 'stop'
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self.stop_thread = threading.Event()
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self.node_list = node_list
self.s_domain = s_domain
self.domain_list = []
# Zookeeper handlers for changed states
@zk.DataWatch(self.zkey + '/state')
def watch_hypervisor_state(data, stat, event=""):
self.state = data.decode('ascii')
@zk.DataWatch(self.zkey + '/memfree')
def watch_hypervisor_memfree(data, stat, event=""):
self.memfree = data.decode('ascii')
@zk.DataWatch(self.zkey + '/runningdomains')
def watch_hypervisor_runningdomains(data, stat, event=""):
self.domain_list = data.decode('ascii').split()
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# Get value functions
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def getfreemem(self):
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return self.memfree
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def getcpuload(self):
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return self.cpuload
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def getname(self):
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return self.name
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def getstate(self):
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return self.state
def getdomainlist(self):
return self.domain_list
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# Update value functions
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def updatenodelist(self, node_list):
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self.node_list = node_list
def updatedomainlist(self, s_domain):
self.s_domain = s_domain
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# Shutdown the thread
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def stop(self):
self.stop_thread.set()
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# Flush all VMs on the host
def flush(self):
for domain in self.domain_list:
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# Determine the best target hypervisor
least_mem = (2^64)/8
least_load = 999.0
least_host = ""
for node in node_list:
node_freemem = node.getfreemem()
if node_freemem < least_mem:
least_mem = node_freemem
least_host = node.getname()
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transaction = self.zk.transaction()
transaction.set_data('/domains/' + domain + '/state', 'migrate'.encode('ascii'))
transaction.set_data('/domains/' + domain + '/hypervisor', least_host.encode('ascii'))
transaction.commit()
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def run(self):
if self.name == socket.gethostname():
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self.setup_local_node()
else:
self.setup_remote_node()
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def setup_local_node(self):
# Connect to libvirt
libvirt_name = "qemu:///system"
conn = libvirt.open(libvirt_name)
if conn == None:
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print('>>> Failed to open connection to %s' % libvirt_name)
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exit(1)
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# Gather data about hypervisor
self.name = conn.getHostname()
self.cpucount = conn.getCPUMap()[0]
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self.state = 'start'
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self.zk.set(self.zkey + '/state', 'start'.encode('ascii'))
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self.zk.set(self.zkey + '/cpucount', str(self.cpucount).encode('ascii'))
print("Node hostname: %s" % self.name)
print("CPUs: %s" % self.cpucount)
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while True:
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# Toggle state management of all VMs
for domain, instance in self.s_domain.items():
if instance.inshutdown == False and domain in self.domain_list:
instance.manage_vm_state()
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# Remove any non-running VMs from our list
for domain in self.domain_list:
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dom = pvcf.lookupByUUID(domain)
if dom == None:
self.domain_list.remove(domain)
else:
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state = dom.state()[0]
if state != libvirt.VIR_DOMAIN_RUNNING:
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self.domain_list.remove(domain)
# Set our information in zookeeper
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self.memfree = conn.getFreeMemory()
self.cpuload = os.getloadavg()[0]
try:
self.zk.set(self.zkey + '/memfree', str(self.memfree).encode('ascii'))
self.zk.set(self.zkey + '/cpuload', str(self.cpuload).encode('ascii'))
self.zk.set(self.zkey + '/runningdomains', ' '.join(self.domain_list).encode('ascii'))
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except:
if self.stop_thread.is_set():
return
print(">>> %s - Free memory: %s | Load: %s" % ( time.strftime("%d/%m/%Y %H:%M:%S"), self.memfree, self.cpuload ))
print("Active domains: %s" % self.domain_list)
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active_node_list = []
flushed_node_list = []
inactive_node_list = []
for node in self.node_list:
#node_state = t_node[node].getstate()
state, stat = self.zk.get('/nodes/%s/state' % node)
node_state = state.decode('ascii')
if node_state == 'start':
active_node_list.append(node)
elif node_state == 'flush':
flushed_node_list.append(node)
else:
inactive_node_list.append(node)
print('Active nodes: %s' % active_node_list)
print('Flushed nodes: %s' % flushed_node_list)
print('Inactive nodes: %s' % inactive_node_list)
# Sleep for 10s but with quick interruptability
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for x in range(0,100):
time.sleep(0.1)
if self.stop_thread.is_set():
return
def setup_remote_node(self):
while True:
for x in range(0,100):
time.sleep(0.1)
if self.stop_thread.is_set():
return