ansible/library/virt

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#!/usr/bin/python
"""
Virt management features
Copyright 2007, 2012 Red Hat, Inc
Michael DeHaan <mdehaan@redhat.com>
Seth Vidal <skvidal@fedoraproject.org>
This software may be freely redistributed under the terms of the GNU
general public license.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
"""
VIRT_FAILED = 1
VIRT_SUCCESS = 0
VIRT_UNAVAILABLE=2
try:
import json
except ImportError:
import simplejson as json
# other modules
import os
import sys
import subprocess
try:
import libvirt
except ImportError:
print json.dumps({
"failed" : True,
"msg" : "libvirt python module unavailable",
"rc": VIRT_UNAVAILABLE,
})
sys.exit(1)
import shlex
VIRT_STATE_NAME_MAP = {
0 : "running",
1 : "running",
2 : "running",
3 : "paused",
4 : "shutdown",
5 : "shutdown",
6 : "crashed"
}
class LibvirtConnection(object):
def __init__(self):
cmd = subprocess.Popen("uname -r", shell=True, stdout=subprocess.PIPE,
close_fds=True)
output = cmd.communicate()[0]
if output.find("xen") != -1:
conn = libvirt.open(None)
else:
conn = libvirt.open("qemu:///system")
if not conn:
raise Exception("hypervisor connection failure")
self.conn = conn
def find_vm(self, vmid):
"""
Extra bonus feature: vmid = -1 returns a list of everything
"""
conn = self.conn
vms = []
# this block of code borrowed from virt-manager:
# get working domain's name
ids = conn.listDomainsID()
for id in ids:
vm = conn.lookupByID(id)
vms.append(vm)
# get defined domain
names = conn.listDefinedDomains()
for name in names:
vm = conn.lookupByName(name)
vms.append(vm)
if vmid == -1:
return vms
for vm in vms:
if vm.name() == vmid:
return vm
raise Exception("virtual machine %s not found" % vmid)
def shutdown(self, vmid):
return self.find_vm(vmid).shutdown()
def pause(self, vmid):
return self.suspend(self.conn,vmid)
def unpause(self, vmid):
return self.resume(self.conn,vmid)
def suspend(self, vmid):
return self.find_vm(vmid).suspend()
def resume(self, vmid):
return self.find_vm(vmid).resume()
def create(self, vmid):
return self.find_vm(vmid).create()
def destroy(self, vmid):
return self.find_vm(vmid).destroy()
def undefine(self, vmid):
return self.find_vm(vmid).undefine()
def get_status2(self, vm):
state = vm.info()[0]
# print "DEBUG: state: %s" % state
return VIRT_STATE_NAME_MAP.get(state,"unknown")
def get_status(self, vmid):
state = self.find_vm(vmid).info()[0]
return VIRT_STATE_NAME_MAP.get(state,"unknown")
def nodeinfo(self):
return self.conn.getInfo()
def get_type(self):
return self.conn.getType()
def get_maxVcpus(self, vmid):
vm = self.conn.lookupByName(vmid)
return vm.maxVcpus()
def get_maxMemory(self, vmid):
vm = self.conn.lookupByName(vmid)
return vm.maxMemory()
def getFreeMemory(self):
return self.conn.getFreeMemory()
def get_autostart(self, vmid):
vm = self.conn.lookupByName(vmid)
return vm.autostart()
def set_autostart(self, vmid, val):
vm = self.conn.lookupByName(vmid)
return vm.setAutostart(val)
class Virt(object):
def __get_conn(self):
self.conn = LibvirtConnection()
return self.conn
def get_vm(self, vmid):
self.__get_conn()
return self.conn.find_vm(vmid)
def state(self):
vms = self.list_vms()
state = []
for vm in vms:
state_blurb = self.conn.get_status(vm)
state.append("%s %s" % (vm,state_blurb))
return state
def info(self):
vms = self.list_vms()
info = dict()
for vm in vms:
data = self.conn.find_vm(vm).info()
# libvirt returns maxMem, memory, and cpuTime as long()'s, which
# xmlrpclib tries to convert to regular int's during serialization.
# This throws exceptions, so convert them to strings here and
# assume the other end of the xmlrpc connection can figure things
# out or doesn't care.
info[vm] = {
"state" : VIRT_STATE_NAME_MAP.get(data[0],"unknown"),
"maxMem" : str(data[1]),
"memory" : str(data[2]),
"nrVirtCpu" : data[3],
"cpuTime" : str(data[4]),
}
thisvm = self.conn.find_vm(vm)
if hasattr(thisvm, 'autostart'):
info[vm]["autostart"] = thisvm.autostart()
return info
def nodeinfo(self):
self.__get_conn()
info = dict()
data = self.conn.nodeinfo()
info = {
"cpumodel" : str(data[0]),
"phymemory" : str(data[1]),
"cpus" : str(data[2]),
"cpumhz" : str(data[3]),
"numanodes" : str(data[4]),
"sockets" : str(data[5]),
"cpucores" : str(data[6]),
"cputhreads" : str(data[7])
}
return info
def list_vms(self):
self.conn = self.__get_conn()
vms = self.conn.find_vm(-1)
results = []
for x in vms:
try:
results.append(x.name())
except:
pass
return results
def virttype(self):
return self.__get_conn().get_type()
def autostart(self, vmid):
self.conn = self.__get_conn()
return self.conn.set_autostart(vmid, True)
def freemem(self):
self.conn = self.__get_conn()
return self.conn.getFreeMemory()
def shutdown(self, vmid):
"""
Make the machine with the given vmid stop running.
Whatever that takes.
"""
self.__get_conn()
self.conn.shutdown(vmid)
return 0
def pause(self, vmid):
"""
Pause the machine with the given vmid.
"""
self.__get_conn()
return self.conn.suspend(vmid)
def unpause(self, vmid):
"""
Unpause the machine with the given vmid.
"""
self.__get_conn()
return self.conn.resume(vmid)
def create(self, vmid):
"""
Start the machine via the given mac address.
"""
self.__get_conn()
return self.conn.create(vmid)
def start(self, vmid):
"""
Start the machine via the given id/name
"""
self.__get_conn()
return self.conn.create(vmid)
def destroy(self, vmid):
"""
Pull the virtual power from the virtual domain, giving it virtually no
time to virtually shut down.
"""
self.__get_conn()
return self.conn.destroy(vmid)
def undefine(self, vmid):
"""
Stop a domain, and then wipe it from the face of the earth.
by deleting the disk image and it's configuration file.
"""
self.__get_conn()
return self.conn.undefine(vmid)
def status(self, vmid):
"""
Return a state suitable for server consumption. Aka, codes.py values, not XM output.
"""
self.__get_conn()
return self.conn.get_status(vmid)
def get_xml(self, vmid):
"""
Recieve a Vm id as input
Return an xml describing vm config returned by a libvirt call
"""
conn = libvirt.openReadOnly(None)
if conn == None:
return (-1,'Failed to open connection to the hypervisor')
try:
domV = conn.lookupByName(vmid)
except:
return (-1,'Failed to find the main domain')
return domV.XMLDesc(0)
def get_maxVcpus(self, vmid):
"""
Gets the max number of VCPUs on a guest
"""
self.__get_conn()
return self.conn.get_maxVcpus(vmid)
def get_max_memory(self, vmid):
"""
Gets the max memory on a guest
"""
self.__get_conn()
return self.conn.get_MaxMemory(vmid)
def main():
rc = VIRT_SUCCESS
vm_commands = ['create','status', 'start', 'stop', 'pause', 'unpause',
'shutdown', 'undefine', 'destroy', 'get_xml', 'autostart']
host_commands = ['freemem', 'list_vms', 'info', 'nodeinfo', 'virttype']
msg = """
virtmodule arguments:
state=[running|shutdown] guest=guestname
command=some_virt_command [guest=guestname]
"""
if len(sys.argv) == 1:
return VIRT_FAILED, msg
argfile = sys.argv[1]
if not os.path.exists(argfile):
msg = "Argument file not found"
return VIRT_FAILED, msg
args = open(argfile, 'r').read()
items = shlex.split(args)
if not len(items):
return VIRT_FAILED, msg
2012-04-04 23:25:02 +02:00
# guest=name state=[running|shutdown|destroyed|undefined]
# command=[some command] [guest=name]
params = {}
for x in items:
(k, v) = x.split("=")
params[k] = v
state = params.get('state', None)
guest = params.get('guest', None)
command = params.get('command', None)
options = params.get('options', [])
v = Virt()
res = {}
if state:
if not guest:
msg = "state change requires a guest specified"
return VIRT_FAILED, msg
res['changed'] = False
if state == 'running':
if v.status(guest) is not 'running':
res['changed'] = True
res['msg'] = v.start(guest)
elif state == 'shutdown':
if v.status(guest) is not 'shutdown':
res['changed'] = True
res['msg'] = v.shutdown(guest)
return VIRT_SUCCESS, res
if command:
if command in vm_commands:
if not guest:
msg = "%s requires 1 argument: guest" % command
return VIRT_FAILED, msg
res = getattr(v, command)(guest)
if type(res) != dict:
res = { command: res }
return rc, res
elif hasattr(v, command):
res = getattr(v, command)()
if type(res) != dict:
res = { command: res }
return rc, res
else:
msg = "Command %s not recognized" % basecmd
rc = VIRT_FAILED
return rc, msg
if __name__ == "__main__":
try:
rc, result = main()
except Exception, e:
rc = 1
result = str(e)
if rc != 0: # something went wrong emit the msg
print json.dumps({
"failed" : rc,
"msg" : result,
"rc": rc,
})
sys.exit(rc)
else:
print json.dumps(result)