# Copyright (c) 2014 VMware, Inc.
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
"""Implementation of Inspector abstraction for VMware vSphere"""
from oslo_config import cfg
from oslo_utils import units
import six
from ceilometer.compute.virt import inspector as virt_inspector
from ceilometer.compute.virt.vmware import vsphere_operations
from ceilometer.i18n import _
vmware_api = None
opt_group = cfg.OptGroup(name='vmware',
title='Options for VMware')
OPTS = [
cfg.HostAddressOpt('host_ip',
default='127.0.0.1',
help='IP address of the VMware vSphere host.'),
cfg.PortOpt('host_port',
default=443,
help='Port of the VMware vSphere host.'),
cfg.StrOpt('host_username',
default='',
help='Username of VMware vSphere.'),
cfg.StrOpt('host_password',
default='',
help='Password of VMware vSphere.',
secret=True),
cfg.StrOpt('ca_file',
help='CA bundle file to use in verifying the vCenter server '
'certificate.'),
cfg.BoolOpt('insecure',
default=False,
help='If true, the vCenter server certificate is not '
'verified. If false, then the default CA truststore is '
'used for verification. This option is ignored if '
'"ca_file" is set.'),
cfg.IntOpt('api_retry_count',
default=10,
help='Number of times a VMware vSphere API may be retried.'),
cfg.FloatOpt('task_poll_interval',
default=0.5,
help='Sleep time in seconds for polling an ongoing async '
'task.'),
cfg.StrOpt('wsdl_location',
help='Optional vim service WSDL location '
'e.g http://<server>/vimService.wsdl. '
'Optional over-ride to default location for bug '
'work-arounds.'),
]
VC_AVERAGE_MEMORY_CONSUMED_CNTR = 'mem:consumed:average'
VC_AVERAGE_CPU_CONSUMED_CNTR = 'cpu:usage:average'
VC_NETWORK_RX_COUNTER = 'net:received:average'
VC_NETWORK_TX_COUNTER = 'net:transmitted:average'
VC_DISK_READ_RATE_CNTR = "disk:read:average"
VC_DISK_READ_REQUESTS_RATE_CNTR = "disk:numberReadAveraged:average"
VC_DISK_WRITE_RATE_CNTR = "disk:write:average"
VC_DISK_WRITE_REQUESTS_RATE_CNTR = "disk:numberWriteAveraged:average"
[docs]def get_api_session(conf):
global vmware_api
if vmware_api is None:
vmware_api = __import__('oslo_vmware.api')
api_session = vmware_api.api.VMwareAPISession(
conf.vmware.host_ip,
conf.vmware.host_username,
conf.vmware.host_password,
conf.vmware.api_retry_count,
conf.vmware.task_poll_interval,
wsdl_loc=conf.vmware.wsdl_location,
port=conf.vmware.host_port,
cacert=conf.vmware.ca_file,
insecure=conf.vmware.insecure)
return api_session
[docs]class VsphereInspector(virt_inspector.Inspector):
def __init__(self, conf):
super(VsphereInspector, self).__init__(conf)
self._ops = vsphere_operations.VsphereOperations(
get_api_session(self.conf), 1000)
def _get_vm_mobj_not_power_off_or_raise(self, instance):
vm_mobj = self._ops.get_vm_mobj(instance.id)
if vm_mobj is None:
raise virt_inspector.InstanceNotFoundException(
_('VM %s not found in VMware vSphere') % instance.id)
vm_powerState = self._ops.query_vm_property(vm_mobj,
'runtime.powerState')
if vm_powerState == "poweredOff":
raise virt_inspector.InstanceShutOffException(
_('VM %s is poweredOff in VMware vSphere') % instance.id)
return vm_mobj
[docs] def inspect_vnic_rates(self, instance, duration):
vm_mobj = self._get_vm_mobj_not_power_off_or_raise(instance)
vnic_stats = {}
vnic_ids = set()
for net_counter in (VC_NETWORK_RX_COUNTER, VC_NETWORK_TX_COUNTER):
net_counter_id = self._ops.get_perf_counter_id(net_counter)
vnic_id_to_stats_map = self._ops.query_vm_device_stats(
vm_mobj, net_counter_id, duration)
# The sample for this map is: {4000: 0.0, vmnic5: 0.0, vmnic4: 0.0,
# vmnic3: 0.0, vmnic2: 0.0, vmnic1: 0.0, vmnic0: 0.0}
# "4000" is the virtual nic which we need.
# And these "vmnic*" are phynical nics in the host, so we remove it
vnic_id_to_stats_map = {k: v for (k, v)
in vnic_id_to_stats_map.items()
if not k.startswith('vmnic')}
vnic_stats[net_counter] = vnic_id_to_stats_map
vnic_ids.update(six.iterkeys(vnic_id_to_stats_map))
# Stats provided from vSphere are in KB/s, converting it to B/s.
for vnic_id in sorted(vnic_ids):
rx_bytes_rate = (vnic_stats[VC_NETWORK_RX_COUNTER]
.get(vnic_id, 0) * units.Ki)
tx_bytes_rate = (vnic_stats[VC_NETWORK_TX_COUNTER]
.get(vnic_id, 0) * units.Ki)
yield virt_inspector.InterfaceRateStats(
name=vnic_id,
mac=None,
fref=None,
parameters=None,
rx_bytes_rate=rx_bytes_rate,
tx_bytes_rate=tx_bytes_rate)
[docs] def inspect_disk_rates(self, instance, duration):
vm_mobj = self._get_vm_mobj_not_power_off_or_raise(instance)
disk_stats = {}
disk_ids = set()
disk_counters = [
VC_DISK_READ_RATE_CNTR,
VC_DISK_READ_REQUESTS_RATE_CNTR,
VC_DISK_WRITE_RATE_CNTR,
VC_DISK_WRITE_REQUESTS_RATE_CNTR
]
for disk_counter in disk_counters:
disk_counter_id = self._ops.get_perf_counter_id(disk_counter)
disk_id_to_stat_map = self._ops.query_vm_device_stats(
vm_mobj, disk_counter_id, duration)
disk_stats[disk_counter] = disk_id_to_stat_map
disk_ids.update(six.iterkeys(disk_id_to_stat_map))
for disk_id in disk_ids:
def stat_val(counter_name):
return disk_stats[counter_name].get(disk_id, 0)
# Stats provided from vSphere are in KB/s, converting it to B/s.
yield virt_inspector.DiskRateStats(
device=disk_id,
read_bytes_rate=stat_val(VC_DISK_READ_RATE_CNTR) * units.Ki,
read_requests_rate=stat_val(VC_DISK_READ_REQUESTS_RATE_CNTR),
write_bytes_rate=stat_val(VC_DISK_WRITE_RATE_CNTR) * units.Ki,
write_requests_rate=stat_val(VC_DISK_WRITE_REQUESTS_RATE_CNTR)
)
[docs] def inspect_instance(self, instance, duration):
vm_mobj = self._get_vm_mobj_not_power_off_or_raise(instance)
cpu_util_counter_id = self._ops.get_perf_counter_id(
VC_AVERAGE_CPU_CONSUMED_CNTR)
cpu_util = self._ops.query_vm_aggregate_stats(
vm_mobj, cpu_util_counter_id, duration)
# For this counter vSphere returns values scaled-up by 100, since the
# corresponding API can't return decimals, but only longs.
# For e.g. if the utilization is 12.34%, the value returned is 1234.
# Hence, dividing by 100.0.
cpu_util = cpu_util / 100.0
mem_counter_id = self._ops.get_perf_counter_id(
VC_AVERAGE_MEMORY_CONSUMED_CNTR)
memory = self._ops.query_vm_aggregate_stats(
vm_mobj, mem_counter_id, duration)
# Stat provided from vSphere is in KB, converting it to MB.
memory = memory / units.Ki
return virt_inspector.InstanceStats(
cpu_util=cpu_util,
memory_usage=memory)
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