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# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements. See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You 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.
"""
VMware vSphere driver. Uses pyvmomi - https://github.com/vmware/pyvmomi
Code inspired by https://github.com/vmware/pyvmomi-community-samples
Authors: Dimitris Moraitis, Alex Tsiliris, Markos Gogoulos
"""
import time
import logging
import json
import base64
import warnings
import asyncio
import ssl
import functools
import itertools
import hashlib
try:
from pyVim import connect
from pyVmomi import vim, vmodl, VmomiSupport
from pyVim.task import WaitForTask
pyvmomi = True
except ImportError:
pyvmomi = None
import atexit
from libcloud.common.types import InvalidCredsError, LibcloudError
from libcloud.compute.base import NodeDriver
from libcloud.compute.base import Node, NodeSize
from libcloud.compute.base import NodeImage, NodeLocation
from libcloud.compute.types import NodeState, Provider
from libcloud.utils.networking import is_public_subnet
from libcloud.utils.py3 import httplib
from libcloud.common.types import ProviderError
from libcloud.common.exceptions import BaseHTTPError
from libcloud.common.base import JsonResponse, ConnectionKey
logger = logging.getLogger('libcloud.compute.drivers.vsphere')
def recurse_snapshots(snapshot_list):
ret = []
for s in snapshot_list:
ret.append(s)
ret += recurse_snapshots(getattr(s, 'childSnapshotList', []))
return ret
def format_snapshots(snapshot_list):
ret = []
for s in snapshot_list:
ret.append({
'id': s.id,
'name': s.name,
'description': s.description,
'created': s.createTime.strftime('%Y-%m-%d %H:%M'),
'state': s.state})
return ret
# 6.5 and older, probably won't work on anything earlier than 4.x
class VSphereNodeDriver(NodeDriver):
name = 'VMware vSphere'
website = 'http://www.vmware.com/products/vsphere/'
type = Provider.VSPHERE
NODE_STATE_MAP = {
'poweredOn': NodeState.RUNNING,
'poweredOff': NodeState.STOPPED,
'suspended': NodeState.SUSPENDED,
}
def __init__(self, host, username, password, port=443, ca_cert=None):
"""Initialize a connection by providing a hostname,
username and password
"""
if pyvmomi is None:
raise ImportError('Missing "pyvmomi" dependency. '
'You can install it '
'using pip - pip install pyvmomi')
self.host = host
try:
if ca_cert is None:
self.connection = connect.SmartConnect(
host=host, port=port, user=username, pwd=password,
)
else:
context = ssl.create_default_context(cafile=ca_cert)
self.connection = connect.SmartConnect(
host=host, port=port, user=username, pwd=password,
sslContext=context
)
atexit.register(connect.Disconnect, self.connection)
except Exception as exc:
error_message = str(exc).lower()
if 'incorrect user name' in error_message:
raise InvalidCredsError('Check your username and '
'password are valid')
if 'connection refused' in error_message or 'is not a vim server' \
in error_message:
raise LibcloudError('Check that the host provided is a '
'vSphere installation',
driver=self)
if 'name or service not known' in error_message:
raise LibcloudError(
'Check that the vSphere host is accessible',
driver=self)
if 'certificate verify failed' in error_message:
# bypass self signed certificates
try:
context = ssl.SSLContext(ssl.PROTOCOL_SSLv23)
context.verify_mode = ssl.CERT_NONE
except ImportError:
raise ImportError('To use self signed certificates, '
'please upgrade to python 2.7.11 and '
'pyvmomi 6.0.0+')
self.connection = connect.SmartConnect(
host=host, port=port, user=username, pwd=password,
sslContext=context
)
atexit.register(connect.Disconnect, self.connection)
else:
raise LibcloudError('Cannot connect to vSphere',
driver=self)
def list_locations(self, ex_show_hosts_in_drs=True):
"""
Lists locations
"""
content = self.connection.RetrieveContent()
potential_locations = [dc for dc in
content.viewManager.CreateContainerView(
content.rootFolder, [
vim.ClusterComputeResource,
vim.HostSystem],
recursive=True).view]
# Add hosts and clusters with DRS enabled
locations = []
hosts_all = []
clusters = []
for location in potential_locations:
if isinstance(location, vim.HostSystem):
hosts_all.append(location)
elif isinstance(location, vim.ClusterComputeResource):
if location.configuration.drsConfig.enabled:
clusters.append(location)
if ex_show_hosts_in_drs:
hosts = hosts_all
else:
hosts_filter = [host for cluster in clusters
for host in cluster.host]
hosts = [host for host in hosts_all if host not in hosts_filter]
for cluster in clusters:
locations.append(self._to_location(cluster))
for host in hosts:
locations.append(self._to_location(host))
return locations
def _to_location(self, data):
try:
if isinstance(data, vim.HostSystem):
extra = {
"type": "host",
"state": data.runtime.connectionState,
"hypervisor": data.config.product.fullName,
"vendor": data.hardware.systemInfo.vendor,
"model": data.hardware.systemInfo.model,
"ram": data.hardware.memorySize,
"cpu": {
"packages": data.hardware.cpuInfo.numCpuPackages,
"cores": data.hardware.cpuInfo.numCpuCores,
"threads": data.hardware.cpuInfo.numCpuThreads,
},
"uptime": data.summary.quickStats.uptime,
"parent": str(data.parent)
}
elif isinstance(data, vim.ClusterComputeResource):
extra = {
"type": "cluster",
"overallStatus": data.overallStatus,
"drs": data.configuration.drsConfig.enabled,
'hosts': [host.name for host in data.host],
'parent': str(data.parent)
}
except AttributeError as exc:
logger.error('Cannot convert location %s: %r' % (data.name, exc))
extra = {}
return NodeLocation(id=data.name, name=data.name, country=None,
extra=extra, driver=self)
def ex_list_networks(self):
"""
List networks
"""
content = self.connection.RetrieveContent()
networks = content.viewManager.CreateContainerView(
content.rootFolder,
[vim.Network],
recursive=True
).view
return [self._to_network(network) for network in networks]
def _to_network(self, data):
summary = data.summary
extra = {
'hosts': [h.name for h in data.host],
'ip_pool_name': summary.ipPoolName,
'ip_pool_id': summary.ipPoolId,
'accessible': summary.accessible
}
return VSphereNetwork(id=data.name, name=data.name, extra=extra)
def list_sizes(self):
"""
Returns sizes
"""
return []
def list_images(self, location=None, folder_ids=None):
"""
Lists VM templates as images.
If folder is given then it will list images contained
in that folder only.
"""
images = []
if folder_ids:
vms = []
for folder_id in folder_ids:
folder_object = self._get_item_by_moid('Folder', folder_id)
vms.extend(folder_object.childEntity)
else:
content = self.connection.RetrieveContent()
vms = content.viewManager.CreateContainerView(
content.rootFolder,
[vim.VirtualMachine],
recursive=True
).view
for vm in vms:
if vm.config and vm.config.template:
images.append(self._to_image(vm))
return images
def _to_image(self, data):
summary = data.summary
name = summary.config.name
uuid = summary.config.instanceUuid
memory = summary.config.memorySizeMB
cpus = summary.config.numCpu
operating_system = summary.config.guestFullName
os_type = 'unix'
if 'Microsoft' in str(operating_system):
os_type = 'windows'
annotation = summary.config.annotation
extra = {
"path": summary.config.vmPathName,
"operating_system": operating_system,
"os_type": os_type,
"memory_MB": memory,
"cpus": cpus,
"overallStatus": str(summary.overallStatus),
"metadata": {},
"type": "template_6_5",
"disk_size": int(summary.storage.committed) // (1024**3),
'datastore': data.datastore[0].info.name
}
boot_time = summary.runtime.bootTime
if boot_time:
extra['boot_time'] = boot_time.isoformat()
if annotation:
extra['annotation'] = annotation
for custom_field in data.customValue:
key_id = custom_field.key
key = self.find_custom_field_key(key_id)
extra["metadata"][key] = custom_field.value
return NodeImage(id=uuid, name=name, driver=self,
extra=extra)
def _collect_properties(self, content, view_ref, obj_type, path_set=None,
include_mors=False):
"""
Collect properties for managed objects from a view ref
Check the vSphere API documentation for example on retrieving
object properties:
- http://goo.gl/erbFDz
Args:
content (ServiceInstance): ServiceInstance content
view_ref (pyVmomi.vim.view.*): Starting point of inventory
navigation
obj_type (pyVmomi.vim.*): Type of managed object
path_set (list): List of properties to retrieve
include_mors (bool): If True include the managed objects
refs in the result
Returns:
A list of properties for the managed objects
"""
collector = content.propertyCollector
# Create object specification to define the starting point of
# inventory navigation
obj_spec = vmodl.query.PropertyCollector.ObjectSpec()
obj_spec.obj = view_ref
obj_spec.skip = True
# Create a traversal specification to identify the path for collection
traversal_spec = vmodl.query.PropertyCollector.TraversalSpec()
traversal_spec.name = 'traverseEntities'
traversal_spec.path = 'view'
traversal_spec.skip = False
traversal_spec.type = view_ref.__class__
obj_spec.selectSet = [traversal_spec]
# Identify the properties to the retrieved
property_spec = vmodl.query.PropertyCollector.PropertySpec()
property_spec.type = obj_type
if not path_set:
property_spec.all = True
property_spec.pathSet = path_set
# Add the object and property specification to the
# property filter specification
filter_spec = vmodl.query.PropertyCollector.FilterSpec()
filter_spec.objectSet = [obj_spec]
filter_spec.propSet = [property_spec]
# Retrieve properties
props = collector.RetrieveContents([filter_spec])
data = []
for obj in props:
properties = {}
for prop in obj.propSet:
properties[prop.name] = prop.val
if include_mors:
properties['obj'] = obj.obj
data.append(properties)
return data
def list_nodes(self, enhance=True, max_properties=20):
"""
List nodes, excluding templates
"""
vm_properties = [
'config.template',
'summary.config.name', 'summary.config.vmPathName',
'summary.config.memorySizeMB', 'summary.config.numCpu',
'summary.storage.committed', 'summary.config.guestFullName',
'summary.runtime.host', 'summary.config.instanceUuid',
'summary.config.annotation', 'summary.runtime.powerState',
'summary.runtime.bootTime', 'summary.guest.ipAddress',
'summary.overallStatus', 'customValue', 'snapshot'
]
content = self.connection.RetrieveContent()
view = content.viewManager.CreateContainerView(
content.rootFolder, [vim.VirtualMachine], True)
i = 0
vm_dict = {}
while i < len(vm_properties):
vm_list = self._collect_properties(content, view,
vim.VirtualMachine,
path_set=vm_properties[
i:i + max_properties],
include_mors=True)
i += max_properties
for vm in vm_list:
if not vm_dict.get(vm['obj']):
vm_dict[vm['obj']] = vm
else:
vm_dict[vm['obj']].update(vm)
vm_list = [vm_dict[k] for k in vm_dict]
loop = asyncio.new_event_loop()
asyncio.set_event_loop(loop)
nodes = loop.run_until_complete(self._to_nodes(vm_list))
if enhance:
nodes = self._enhance_metadata(nodes, content)
return nodes
def list_nodes_recursive(self, enhance=True):
"""
Lists nodes, excluding templates
"""
nodes = []
content = self.connection.RetrieveContent()
children = content.rootFolder.childEntity
# this will be needed for custom VM metadata
if content.customFieldsManager:
self.custom_fields = content.customFieldsManager.field
else:
self.custom_fields = []
for child in children:
if hasattr(child, 'vmFolder'):
datacenter = child
vm_folder = datacenter.vmFolder
vm_list = vm_folder.childEntity
nodes.extend(self._to_nodes_recursive(vm_list))
if enhance:
nodes = self._enhance_metadata(nodes, content)
return nodes
def _enhance_metadata(self, nodes, content):
nodemap = {}
for node in nodes:
node.extra['vSphere version'] = content.about.version
nodemap[node.id] = node
# Get VM deployment events to extract creation dates & images
filter_spec = vim.event.EventFilterSpec(
eventTypeId=['VmBeingDeployedEvent']
)
deploy_events = content.eventManager.QueryEvent(filter_spec)
for event in deploy_events:
try:
uuid = event.vm.vm.config.instanceUuid
except Exception:
continue
if uuid in nodemap:
node = nodemap[uuid]
try: # Get source template as image
source_template_vm = event.srcTemplate.vm
image_id = source_template_vm.config.instanceUuid
node.extra['image_id'] = image_id
except Exception:
logger.error('Cannot get instanceUuid '
'from source template')
try: # Get creation date
node.created_at = event.createdTime
except AttributeError:
logger.error('Cannot get creation date from VM '
'deploy event')
return nodes
async def _to_nodes(self, vm_list):
vms = []
for vm in vm_list:
if vm.get('config.template'):
continue # Do not include templates in node list
vms.append(vm)
loop = asyncio.get_event_loop()
vms = [
loop.run_in_executor(None, self._to_node, vms[i])
for i in range(len(vms))
]
return await asyncio.gather(*vms)
def _to_nodes_recursive(self, vm_list):
nodes = []
for virtual_machine in vm_list:
if hasattr(virtual_machine, 'childEntity'):
# If this is a group it will have children.
# If it does, recurse into them and then return
nodes.extend(self._to_nodes_recursive(
virtual_machine.childEntity))
elif isinstance(virtual_machine, vim.VirtualApp):
# If this is a vApp, it likely contains child VMs
# (vApps can nest vApps, but it is hardly
# a common usecase, so ignore that)
nodes.extend(self._to_nodes_recursive(virtual_machine.vm))
else:
if not hasattr(virtual_machine, 'config') or \
(virtual_machine.config and
virtual_machine.config.template):
continue # Do not include templates in node list
nodes.append(self._to_node_recursive(virtual_machine))
return nodes
def _to_node(self, vm):
name = vm.get('summary.config.name')
path = vm.get('summary.config.vmPathName')
memory = vm.get('summary.config.memorySizeMB')
cpus = vm.get('summary.config.numCpu')
disk = vm.get('summary.storage.committed', 0) // (1024 ** 3)
id_to_hash = str(memory) + str(cpus) + str(disk)
size_id = hashlib.md5(id_to_hash.encode("utf-8")).hexdigest()
size_name = name + "-size"
size_extra = {'cpus': cpus}
driver = self
size = NodeSize(id=size_id, name=size_name, ram=memory, disk=disk,
bandwidth=0, price=0, driver=driver, extra=size_extra)
operating_system = vm.get('summary.config.guestFullName')
host = vm.get('summary.runtime.host')
os_type = 'unix'
if 'Microsoft' in str(operating_system):
os_type = 'windows'
uuid = vm.get('summary.config.instanceUuid') or \
(vm.get('obj').config and vm.get('obj').config.instanceUuid)
if not uuid:
logger.error('No uuid for vm: {}'.format(vm))
annotation = vm.get('summary.config.annotation')
state = vm.get('summary.runtime.powerState')
status = self.NODE_STATE_MAP.get(state, NodeState.UNKNOWN)
boot_time = vm.get('summary.runtime.bootTime')
ip_addresses = []
if vm.get('summary.guest.ipAddress'):
ip_addresses.append(vm.get('summary.guest.ipAddress'))
overall_status = str(vm.get('summary.overallStatus'))
public_ips = []
private_ips = []
extra = {
'path': path,
'operating_system': operating_system,
'os_type': os_type,
'memory_MB': memory,
'cpus': cpus,
'overall_status': overall_status,
'metadata': {},
'snapshots': []
}
if disk:
extra['disk'] = disk
if host:
extra['host'] = host.name
parent = host.parent
while parent:
if isinstance(parent, vim.ClusterComputeResource):
extra['cluster'] = parent.name
break
parent = parent.parent
if boot_time:
extra['boot_time'] = boot_time.isoformat()
if annotation:
extra['annotation'] = annotation
for ip_address in ip_addresses:
try:
if is_public_subnet(ip_address):
public_ips.append(ip_address)
else:
private_ips.append(ip_address)
except Exception:
# IPV6 not supported
pass
if vm.get('snapshot'):
extra['snapshots'] = format_snapshots(
recurse_snapshots(vm.get('snapshot').rootSnapshotList))
for custom_field in vm.get('customValue', []):
key_id = custom_field.key
key = self.find_custom_field_key(key_id)
extra['metadata'][key] = custom_field.value
node = Node(id=uuid, name=name, state=status, size=size,
public_ips=public_ips, private_ips=private_ips,
driver=self, extra=extra)
node._uuid = uuid
return node
def _to_node_recursive(self, virtual_machine):
summary = virtual_machine.summary
name = summary.config.name
path = summary.config.vmPathName
memory = summary.config.memorySizeMB
cpus = summary.config.numCpu
disk = ''
if summary.storage.committed:
disk = summary.storage.committed / (1024 ** 3)
id_to_hash = str(memory) + str(cpus) + str(disk)
size_id = hashlib.md5(id_to_hash.encode("utf-8")).hexdigest()
size_name = name + "-size"
size_extra = {'cpus': cpus}
driver = self
size = NodeSize(id=size_id, name=size_name, ram=memory, disk=disk,
bandwidth=0, price=0, driver=driver, extra=size_extra)
operating_system = summary.config.guestFullName
host = summary.runtime.host
# mist.io needs this metadata
os_type = 'unix'
if 'Microsoft' in str(operating_system):
os_type = 'windows'
uuid = summary.config.instanceUuid
annotation = summary.config.annotation
state = summary.runtime.powerState
status = self.NODE_STATE_MAP.get(state, NodeState.UNKNOWN)
boot_time = summary.runtime.bootTime
ip_addresses = []
if summary.guest is not None:
ip_addresses.append(summary.guest.ipAddress)
overall_status = str(summary.overallStatus)
public_ips = []
private_ips = []
extra = {
"path": path,
"operating_system": operating_system,
"os_type": os_type,
"memory_MB": memory,
"cpus": cpus,
"overallStatus": overall_status,
"metadata": {},
"snapshots": []
}
if disk:
extra['disk'] = disk
if host:
extra['host'] = host.name
parent = host.parent
while parent:
if isinstance(parent, vim.ClusterComputeResource):
extra['cluster'] = parent.name
break
parent = parent.parent
if boot_time:
extra['boot_time'] = boot_time.isoformat()
if annotation:
extra['annotation'] = annotation
for ip_address in ip_addresses:
try:
if is_public_subnet(ip_address):
public_ips.append(ip_address)
else:
private_ips.append(ip_address)
except Exception:
# IPV6 not supported
pass
if virtual_machine.snapshot:
snapshots = [{
'id': s.id,
'name': s.name,
'description': s.description,
'created': s.createTime.strftime('%Y-%m-%d %H:%M'),
'state': s.state}
for s in virtual_machine.snapshot.rootSnapshotList]
extra['snapshots'] = snapshots
for custom_field in virtual_machine.customValue:
key_id = custom_field.key
key = self.find_custom_field_key(key_id)
extra["metadata"][key] = custom_field.value
node = Node(id=uuid, name=name, state=status, size=size,
public_ips=public_ips, private_ips=private_ips,
driver=self, extra=extra)
node._uuid = uuid
return node
def reboot_node(self, node):
"""
"""
vm = self.find_by_uuid(node.id)
return self.wait_for_task(vm.RebootGuest())
def destroy_node(self, node):
"""
"""
vm = self.find_by_uuid(node.id)
if node.state != NodeState.STOPPED:
self.stop_node(node)
return self.wait_for_task(vm.Destroy())
def stop_node(self, node):
"""
"""
vm = self.find_by_uuid(node.id)
return self.wait_for_task(vm.PowerOff())
def start_node(self, node):
"""
"""
vm = self.find_by_uuid(node.id)
return self.wait_for_task(vm.PowerOn())
def ex_list_snapshots(self, node):
"""
List node snapshots
"""
vm = self.find_by_uuid(node.id)
if not vm.snapshot:
return []
return format_snapshots(
recurse_snapshots(vm.snapshot.rootSnapshotList))
def ex_create_snapshot(self, node, snapshot_name, description='',
dump_memory=False, quiesce=False):
"""
Create node snapshot
"""
vm = self.find_by_uuid(node.id)
return WaitForTask(
vm.CreateSnapshot(snapshot_name, description, dump_memory, quiesce)
)
def ex_remove_snapshot(self, node, snapshot_name=None,
remove_children=True):
"""
Remove a snapshot from node.
If snapshot_name is not defined remove the last one.
"""
vm = self.find_by_uuid(node.id)
if not vm.snapshot:
raise LibcloudError(
"Remove snapshot failed. No snapshots for node %s" % node.name,
driver=self)
snapshots = recurse_snapshots(vm.snapshot.rootSnapshotList)
if not snapshot_name:
snapshot = snapshots[-1].snapshot
else:
for s in snapshots:
if snapshot_name == s.name:
snapshot = s.snapshot
break
else:
raise LibcloudError("Snapshot `%s` not found" % snapshot_name,
driver=self)
return self.wait_for_task(snapshot.RemoveSnapshot_Task(
removeChildren=remove_children))
def ex_revert_to_snapshot(self, node, snapshot_name=None):
"""
Revert node to a specific snapshot.
If snapshot_name is not defined revert to the last one.
"""
vm = self.find_by_uuid(node.id)
if not vm.snapshot:
raise LibcloudError("Revert failed. No snapshots "
"for node %s" % node.name,
driver=self)
snapshots = recurse_snapshots(vm.snapshot.rootSnapshotList)
if not snapshot_name:
snapshot = snapshots[-1].snapshot
else:
for s in snapshots:
if snapshot_name == s.name:
snapshot = s.snapshot
break
else:
raise LibcloudError("Snapshot `%s` not found" % snapshot_name,
driver=self)
return self.wait_for_task(snapshot.RevertToSnapshot_Task())
def _find_template_by_uuid(self, template_uuid):
# on version 5.5 and earlier search index won't return a VM
try:
template = self.find_by_uuid(template_uuid)
except LibcloudError:
content = self.connection.RetrieveContent()
vms = content.viewManager.CreateContainerView(
content.rootFolder,
[vim.VirtualMachine],
recursive=True
).view
for vm in vms:
if vm.config.instanceUuid == template_uuid:
template = vm
except Exception as exc:
raise LibcloudError("Error while searching for template: %s" % exc,
driver=self)
if not template:
raise LibcloudError("Unable to locate VirtualMachine.",
driver=self)
return template
def find_by_uuid(self, node_uuid):
"""Searches VMs for a given uuid
returns pyVmomi.VmomiSupport.vim.VirtualMachine
"""
vm = self.connection.content.searchIndex.FindByUuid(None, node_uuid,
True, True)
if not vm:
# perhaps it is a moid
vm = self._get_item_by_moid('VirtualMachine', node_uuid)
if not vm:
raise LibcloudError("Unable to locate VirtualMachine.",
driver=self)
return vm
def find_custom_field_key(self, key_id):
"""Return custom field key name, provided it's id
"""
if not hasattr(self, "custom_fields"):
content = self.connection.RetrieveContent()
if content.customFieldsManager:
self.custom_fields = content.customFieldsManager.field
else:
self.custom_fields = []
for k in self.custom_fields:
if k.key == key_id:
return k.name
return None
def get_obj(self, vimtype, name):
"""
Return an object by name, if name is None the
first found object is returned
"""
obj = None
content = self.connection.RetrieveContent()
container = content.viewManager.CreateContainerView(
content.rootFolder, vimtype, True)
for c in container.view:
if name:
if c.name == name:
obj = c
break
else:
obj = c
break
return obj
def wait_for_task(self, task, timeout=1800, interval=10):
""" wait for a vCenter task to finish """
start_time = time.time()
task_done = False
while not task_done:
if (time.time() - start_time >= timeout):
raise LibcloudError('Timeout while waiting '
'for import task Id %s'
% task.info.id,
driver=self)
if task.info.state == 'success':
if task.info.result and str(task.info.result) != 'success':
return task.info.result
return True
if task.info.state == 'error':
raise LibcloudError(task.info.error.msg, driver=self)
time.sleep(interval)
def create_node(self, name, image, size, location=None, ex_cluster=None,
ex_network=None, ex_datacenter=None, ex_folder=None,
ex_resource_pool=None, ex_datastore_cluster=None,
ex_datastore=None):
"""
Creates and returns node.
:keyword ex_network: Name of a "Network" to connect the VM to ",
:type ex_network: ``str``
"""
template = self._find_template_by_uuid(image.id)
if ex_cluster:
cluster_name = ex_cluster
else:
cluster_name = location.name
cluster = self.get_obj([vim.ClusterComputeResource], cluster_name)
if not cluster: # It is a host go with it
cluster = self.get_obj([vim.HostSystem], cluster_name)
datacenter = None
if not ex_datacenter: # Get datacenter from cluster
parent = cluster.parent
while parent:
if isinstance(parent, vim.Datacenter):
datacenter = parent
break
parent = parent.parent
if ex_datacenter or datacenter is None:
datacenter = self.get_obj([vim.Datacenter],
ex_datacenter)
if ex_folder:
folder = self.get_obj([vim.Folder], ex_folder)
if folder is None:
folder = self._get_item_by_moid('Folder',
ex_folder)
else:
folder = datacenter.vmFolder
if ex_resource_pool:
resource_pool = self.get_obj([vim.ResourcePool],
ex_resource_pool)
else:
try:
resource_pool = cluster.resourcePool
except AttributeError:
resource_pool = cluster.parent.resourcePool
devices = []
vmconf = vim.vm.ConfigSpec(
numCPUs=int(size.extra.get('cpu', 1)),
memoryMB=int(size.ram),
deviceChange=devices
)
datastore = None
pod = None
podsel = vim.storageDrs.PodSelectionSpec()
if ex_datastore_cluster:
pod = self.get_obj([vim.StoragePod],
ex_datastore_cluster)
else:
content = self.connection.RetrieveContent()
pods = content.viewManager.CreateContainerView(
content.rootFolder, [vim.StoragePod], True).view
for pod in pods:
if cluster.name.lower() in pod.name:
break
podsel.storagePod = pod
storagespec = vim.storageDrs.StoragePlacementSpec()
storagespec.podSelectionSpec = podsel
storagespec.type = 'create'
storagespec.folder = folder
storagespec.resourcePool = resource_pool
storagespec.configSpec = vmconf
try:
content = self.connection.RetrieveContent()
rec = content.storageResourceManager.RecommendDatastores(
storageSpec=storagespec)
rec_action = rec.recommendations[0].action[0]
real_datastore_name = rec_action.destination.name
except Exception:
real_datastore_name = template.datastore[0].info.name
datastore = self.get_obj([vim.Datastore], real_datastore_name)
if ex_datastore:
datastore = self.get_obj([vim.Datastore],
ex_datastore)
if datastore is None:
datastore = self._get_item_by_moid('Datastore',
ex_datastore)
elif not datastore:
datastore = self.get_obj([vim.Datastore],
template.datastore[0].info.name)
add_network = True
if ex_network and len(template.network) > 0:
for nets in template.network:
if template in nets.vm:
add_network = False
if ex_network and add_network:
nicspec = vim.vm.device.VirtualDeviceSpec()
nicspec.operation = vim.vm.device.VirtualDeviceSpec.Operation.add
nicspec.device = vim.vm.device.VirtualVmxnet3()
nicspec.device.wakeOnLanEnabled = True
nicspec.device.deviceInfo = vim.Description()
portgroup = self.get_obj([vim.dvs.DistributedVirtualPortgroup],
ex_network)
if portgroup:
dvs_port_connection = vim.dvs.PortConnection()
dvs_port_connection.portgroupKey = portgroup.key
dvs_port_connection.switchUuid = portgroup.config.\
distributedVirtualSwitch.uuid
nicspec.device.backing = vim.vm.device.VirtualEthernetCard.\
DistributedVirtualPortBackingInfo()
nicspec.device.backing.port = dvs_port_connection
else:
nicspec.device.backing = vim.vm.device.VirtualEthernetCard.\
NetworkBackingInfo()
nicspec.device.backing.network = self.get_obj([
vim.Network], ex_network)
nicspec.device.backing.deviceName = ex_network
nicspec.device.connectable = vim.vm.device.VirtualDevice.\
ConnectInfo()
nicspec.device.connectable.startConnected = True
nicspec.device.connectable.connected = True
nicspec.device.connectable.allowGuestControl = True
devices.append(nicspec)
# new_disk_kb = int(size.disk) * 1024 * 1024
# disk_spec = vim.vm.device.VirtualDeviceSpec()
# disk_spec.fileOperation = "create"
# disk_spec.operation = vim.vm.device.VirtualDeviceSpec.Operation.add
# disk_spec.device = vim.vm.device.VirtualDisk()
# disk_spec.device.backing = \
# vim.vm.device.VirtualDisk.FlatVer2BackingInfo()
# if size.extra.get('disk_type') == 'thin':
# disk_spec.device.backing.thinProvisioned = True
# disk_spec.device.backing.diskMode = 'persistent'
# disk_spec.device.capacityInKB = new_disk_kb
# disk_spec.device.controllerKey = controller.key
# devices.append(disk_spec)
clonespec = vim.vm.CloneSpec(config=vmconf)
relospec = vim.vm.RelocateSpec()
relospec.datastore = datastore
relospec.pool = resource_pool
if location:
host = self.get_obj([vim.HostSystem], location.name)
if host:
relospec.host = host
clonespec.location = relospec
clonespec.powerOn = True
task = template.Clone(
folder=folder,
name=name,
spec=clonespec
)
return self._to_node_recursive(self.wait_for_task(task))
def ex_connect_network(self, vm, network_name):
spec = vim.vm.ConfigSpec()
# add Switch here
dev_changes = []
network_spec = vim.vm.device.VirtualDeviceSpec()
# network_spec.fileOperation = "create"
network_spec.operation = vim.vm.device.VirtualDeviceSpec.Operation.add
network_spec.device = vim.vm.device.VirtualVmxnet3()
network_spec.device.backing = vim.vm.device.VirtualEthernetCard.\
NetworkBackingInfo()
network_spec.device.backing.useAutoDetect = False
network_spec.device.backing.network = self.get_obj([
vim.Network], network_name)
network_spec.device.connectable = vim.vm.device.VirtualDevice.\
ConnectInfo()
network_spec.device.connectable.startConnected = True
network_spec.device.connectable.connected = True
network_spec.device.connectable.allowGuestControl = True
dev_changes.append(network_spec)
spec.deviceChange = dev_changes
output = vm.ReconfigVM_Task(spec=spec)
print(output.info)
def _get_item_by_moid(self, type_, moid):
vm_obj = VmomiSupport.templateOf(
type_)(moid, self.connection._stub)
return vm_obj
def ex_list_folders(self):
content = self.connection.RetrieveContent()
folders_raw = content.viewManager.CreateContainerView(
content.rootFolder, [vim.Folder], True).view
folders = []
for folder in folders_raw:
to_add = {'type': list(folder.childType)}
to_add['name'] = folder.name
to_add['id'] = folder._moId
folders.append(to_add)
return folders
def ex_list_datastores(self):
content = self.connection.RetrieveContent()
datastores_raw = content.viewManager.CreateContainerView(
content.rootFolder, [vim.Datastore], True).view
datastores = []
for dstore in datastores_raw:
to_add = {'type': dstore.summary.type}
to_add['name'] = dstore.name
to_add['id'] = dstore._moId
to_add['free_space'] = int(dstore.summary.freeSpace)
to_add['capacity'] = int(dstore.summary.capacity)
datastores.append(to_add)
return datastores
def ex_open_console(self, vm_uuid):
vm = self.find_by_uuid(vm_uuid)
ticket = vm.AcquireTicket(ticketType='webmks')
return 'wss://{}:{}/ticket/{}'.format(
ticket.host, ticket.port, ticket.ticket)
def _get_version(self):
content = self.connection.RetrieveContent()
return(content.about.version)
class VSphereNetwork(object):
"""
Represents information about a VPC (Virtual Private Cloud) network
Note: This class is VSphere specific.
"""
def __init__(self, id, name, extra=None):
self.id = id
self.name = name
self.extra = extra or {}
def __repr__(self):
return (('<VSphereNetwork: id=%s, name=%s')
% (self.id, self.name))
# 6.7
class VSphereResponse(JsonResponse):
def parse_error(self):
if self.body:
message = self.body
message += "-- code: {}".format(self.status)
return message
return self.body
class VSphereConnection(ConnectionKey):
responseCls = VSphereResponse
session_token = None
def add_default_headers(self, headers):
"""
VSphere needs an initial connection to a specific API endpoint to
generate a session-token, which will be used for the purpose of
authenticating for the rest of the session.
"""
headers['Content-Type'] = 'application/json'
headers['Accept'] = 'application/json'
if self.session_token is None:
to_encode = '{}:{}'.format(self.key, self.secret)
b64_user_pass = base64.b64encode(to_encode.encode())
headers['Authorization'] = 'Basic {}'.format(
b64_user_pass.decode())
else:
headers['vmware-api-session-id'] = self.session_token
return headers
class VSphereException(Exception):
def __init__(self, code, message):
self.code = code
self.message = message
self.args = (code, message)
def __str__(self):
return "{} {}".format(self.code, self.message)
def __repr__(self):
return "VSphereException {} {}".format(self.code, self.message)
class VSphere_REST_NodeDriver(NodeDriver):
name = 'VMware vSphere'
website = 'http://www.vmware.com/products/vsphere/'
type = Provider.VSPHERE
connectionCls = VSphereConnection
session_token = None
NODE_STATE_MAP = {
'powered_on': NodeState.RUNNING,
'powered_off': NodeState.STOPPED,
'suspended': NodeState.SUSPENDED
}
VALID_RESPONSE_CODES = [httplib.OK, httplib.ACCEPTED, httplib.CREATED,
httplib.NO_CONTENT]
def __init__(self, key, secret=None, secure=True, host=None, port=443,
ca_cert=None):
if not key or not secret:
raise InvalidCredsError("Please provide both username "
"(key) and password (secret).")
super(VSphere_REST_NodeDriver, self).__init__(key=key,
secure=secure,
host=host,
port=port)
prefixes = ['http://', 'https://']
for prefix in prefixes:
if host.startswith(prefix):
host = host.lstrip(prefix)
if ca_cert:
self.connection.connection.ca_cert = ca_cert
else:
self.connection.connection.ca_cert = False
self.connection.secret = secret
self.host = host
self.username = key
# getting session token
self._get_session_token()
self.driver_soap = None
def _get_soap_driver(self):
if pyvmomi is None:
raise ImportError('Missing "pyvmomi" dependency. '
'You can install it '
'using pip - pip install pyvmomi')
self.driver_soap = VSphereNodeDriver(self.host, self.username,
self.connection.secret,
ca_cert=self.
connection.connection.ca_cert)
def _get_session_token(self):
uri = "/rest/com/vmware/cis/session"
try:
result = self.connection.request(uri, method="POST")
except Exception:
raise
self.session_token = result.object['value']
self.connection.session_token = self.session_token
def list_sizes(self):
return []
def list_nodes(self, ex_filter_power_states=None, ex_filter_folders=None,
ex_filter_names=None, ex_filter_hosts=None,
ex_filter_clusters=None, ex_filter_vms=None,
ex_filter_datacenters=None, ex_filter_resource_pools=None,
max_properties=20):
"""
The ex parameters are search options and must be an array of strings,
even ex_filter_power_states which can have at most two items but makes
sense to keep only one ("POWERED_ON" or "POWERED_OFF")
Keep in mind that this method will return up to 1000 nodes so if your
network has more, do use the provided filters and call it multiple
times.
"""
req = "/rest/vcenter/vm"
kwargs = {'filter.power_states': ex_filter_power_states,
'filter.folders': ex_filter_folders,
'filter.names': ex_filter_names,
'filter.hosts': ex_filter_hosts,
'filter.clusters': ex_filter_clusters,
'filter.vms': ex_filter_vms,
'filter.datacenters': ex_filter_datacenters,
'filter.resource_pools': ex_filter_resource_pools}
params = {}
for param, value in kwargs.items():
if value:
params[param] = value
result = self._request(req, params=params).object['value']
vm_ids = [[item['vm']] for item in result]
vms = []
interfaces = self._list_interfaces()
for vm_id in vm_ids:
vms.append(self._to_node(vm_id, interfaces))
return vms
def async_list_nodes(self):
"""
In this case filtering is not possible.
Use this method when the cloud has
a lot of vms and you want to return them all.
"""
loop = asyncio.new_event_loop()
asyncio.set_event_loop(loop)
result = loop.run_until_complete(self._get_all_vms())
vm_ids = [(item['vm'], item['host']) for item in result]
interfaces = self._list_interfaces()
return loop.run_until_complete(self._list_nodes_async(vm_ids,
interfaces))
async def _list_nodes_async(self, vm_ids, interfaces):
loop = asyncio.get_event_loop()
vms = [
loop.run_in_executor(None, self._to_node, vm_ids[i], interfaces)
for i in range(len(vm_ids))
]
return await asyncio.gather(*vms)
async def _get_all_vms(self):
"""
6.7 doesn't offer any pagination, if we get 1000 vms we will try
this roundabout way: First get all the datacenters, for each
datacenter get the hosts and for each host the vms it has.
This assumes that datacenters, hosts per datacenter and vms per
host don't exceed 1000.
"""
datacenters = self.ex_list_datacenters()
loop = asyncio.get_event_loop()
hosts_futures = [
loop.run_in_executor(None, functools.partial(
self.ex_list_hosts, ex_filter_datacenters=datacenter['id']))
for datacenter in datacenters
]
hosts = await asyncio.gather(*hosts_futures)
vm_resp_futures = [
loop.run_in_executor(None, functools.partial(
self._get_vms_with_host, host))
for host in itertools.chain(*hosts)
]
vm_resp = await asyncio.gather(*vm_resp_futures)
# return a flat list
return [item for vm_list in vm_resp for item in vm_list]
def _get_vms_with_host(self, host):
req = "/rest/vcenter/vm"
host_id = host['host']
response = self._request(req, params={'filter.hosts': host_id})
vms = response.object['value']
for vm in vms:
vm['host'] = host
return vms
def list_locations(self, ex_show_hosts_in_drs=True):
"""
Location in the general sense means any resource that allows for node
creation. In vSphere's case that usually is a host but if a cluster
has rds enabled, a cluster can be assigned to create the VM, thus the
clusters with rds enabled will be added to locations.
:param ex_show_hosts_in_drs: A DRS cluster schedules automatically
on which host should be placed thus it
may not be desired to show the hosts
in a DRS enabled cluster. Set False to
not show these hosts.
:type ex_show_hosts_in_drs: `boolean`
"""
clusters = self.ex_list_clusters()
hosts_all = self.ex_list_hosts()
hosts = []
if ex_show_hosts_in_drs:
hosts = hosts_all
else:
cluster_filter = [cluster['cluster'] for cluster in clusters]
filter_hosts = self.ex_list_hosts(
ex_filter_clusters=cluster_filter)
hosts = [host for host in hosts_all if host not in filter_hosts]
driver = self.connection.driver
locations = []
for cluster in clusters:
if cluster['drs_enabled']:
extra = {'type': 'cluster', 'drs': True,
'ha': cluster['ha_enabled']}
locations.append(NodeLocation(id=cluster['cluster'],
name=cluster['name'],
country='', driver=driver,
extra=extra))
for host in hosts:
extra = {'type': 'host', 'status': host['connection_state'],
'state': host['power_state']}
locations.append(NodeLocation(id=host['host'], name=host['name'],
country="", driver=driver,
extra=extra))
return locations
def stop_node(self, node):
if node.state == NodeState.STOPPED:
return True
method = 'POST'
req = "/rest/vcenter/vm/{}/power/stop".format(node.id)
result = self._request(req, method=method)
return result.status in self.VALID_RESPONSE_CODES
def start_node(self, node):
if isinstance(node, str):
node_id = node
else:
if node.state is NodeState.RUNNING:
return True
node_id = node.id
method = 'POST'
req = "/rest/vcenter/vm/{}/power/start".format(node_id)
result = self._request(req, method=method)
return result.status in self.VALID_RESPONSE_CODES
def reboot_node(self, node):
if node.state is not NodeState.RUNNING:
return False
method = 'POST'
req = "/rest/vcenter/vm/{}/power/reset".format(node.id)
result = self._request(req, method=method)
return result.status in self.VALID_RESPONSE_CODES
def destroy_node(self, node):
# make sure the machine is stopped
if node.state is not NodeState.STOPPED:
self.stop_node(node)
# wait to make sure it stopped
# in the future this can be made asynchronously
# for i in range(6):
# if node.state is NodeState.STOPPED:
# break
# time.sleep(10)
req = "/rest/vcenter/vm/{}".format(node.id)
resp = self._request(req, method="DELETE")
return resp.status in self.VALID_RESPONSE_CODES
def ex_suspend_node(self, node):
if node.state is not NodeState.RUNNING:
return False
method = 'POST'
req = "/rest/vcenter/vm/{}/power/suspend".format(node.id)
result = self._request(req, method=method)
return result.status in self.VALID_RESPONSE_CODES
def _list_interfaces(self):
request = "/rest/appliance/networking/interfaces"
response = self._request(request).object['value']
interfaces = [{'name': interface['name'],
'mac': interface['mac'],
'status': interface['status'],
'ip': interface['ipv4']['address']
} for interface in response]
return interfaces
def _to_node(self, vm_id_host, interfaces):
'''
id, name, state, public_ips, private_ips,
driver, size=None, image=None, extra=None, created_at=None)
'''
vm_id = vm_id_host[0]
req = '/rest/vcenter/vm/' + vm_id
vm = self._request(req).object['value']
name = vm['name']
state = self.NODE_STATE_MAP[vm['power_state'].lower()]
# IP's
private_ips = []
nic_macs = set()
for nic in vm['nics']:
nic_macs.add(nic['value']['mac_address'])
for interface in interfaces:
if interface['mac'] in nic_macs:
private_ips.append(interface['ip'])
nic_macs.remove(interface['mac'])
if len(nic_macs) == 0:
break
public_ips = [] # should default_getaway be the public?
driver = self.connection.driver
# size
total_size = 0
gb_converter = 1024 ** 3
for disk in vm['disks']:
total_size += int(int(disk['value']['capacity'] / gb_converter))
ram = int(vm['memory']['size_MiB'])
cpus = int(vm['cpu']['count'])
id_to_hash = str(ram) + str(cpus) + str(total_size)
size_id = hashlib.md5(id_to_hash.encode("utf-8")).hexdigest()
size_name = name + "-size"
size_extra = {'cpus': cpus}
size = NodeSize(id=size_id, name=size_name, ram=ram, disk=total_size,
bandwidth=0, price=0, driver=driver, extra=size_extra)
# image
image_name = vm['guest_OS']
image_id = image_name + "_id"
image_extra = {"type": "guest_OS"}
image = NodeImage(id=image_id, name=image_name, driver=driver,
extra=image_extra)
extra = {'snapshots': []}
if len(vm_id_host) > 1:
extra['host'] = vm_id_host[1].get('name', '')
return Node(id=vm_id, name=name, state=state, public_ips=public_ips,
private_ips=private_ips, driver=driver,
size=size, image=image, extra=extra)
def ex_list_hosts(self, ex_filter_folders=None, ex_filter_standalone=None,
ex_filter_hosts=None, ex_filter_clusters=None,
ex_filter_names=None, ex_filter_datacenters=None,
ex_filter_connection_states=None):
kwargs = {'filter.folders': ex_filter_folders,
'filter.names': ex_filter_names,
'filter.hosts': ex_filter_hosts,
'filter.clusters': ex_filter_clusters,
'filter.standalone': ex_filter_standalone,
'filter.datacenters': ex_filter_datacenters,
'filter.connection_states': ex_filter_connection_states}
params = {}
for param, value in kwargs.items():
if value:
params[param] = value
req = "/rest/vcenter/host"
result = self._request(req, params=params).object['value']
return result
def ex_list_clusters(self, ex_filter_folders=None, ex_filter_names=None,
ex_filter_datacenters=None, ex_filter_clusters=None):
kwargs = {'filter.folders': ex_filter_folders,
'filter.names': ex_filter_names,
'filter.datacenters': ex_filter_datacenters,
'filter.clusters': ex_filter_clusters}
params = {}
for param, value in kwargs.items():
if value:
params[param] = value
req = "/rest/vcenter/cluster"
result = self._request(req, params=params).object['value']
return result
def ex_list_datacenters(self, ex_filter_folders=None, ex_filter_names=None,
ex_filter_datacenters=None):
req = "/rest/vcenter/datacenter"
kwargs = {'filter.folders': ex_filter_folders,
'filter.names': ex_filter_names,
'filter.datacenters': ex_filter_datacenters}
params = {}
for param, value in kwargs.items():
if value:
params[param] = value
result = self._request(req, params=params)
to_return = [{'name': item['name'],
'id': item['datacenter']} for item in
result.object['value']]
return to_return
def ex_list_content_libraries(self):
req = '/rest/com/vmware/content/library'
try:
result = self._request(req).object
return result['value']
except BaseHTTPError:
return []
def ex_list_content_library_items(self, library_id):
req = "/rest/com/vmware/content/library/item"
params = {'library_id': library_id}
try:
result = self._request(req, params=params).object
return result['value']
except BaseHTTPError:
logger.error('Library was cannot be accesed, '
' most probably the VCenter service '
'is stopped')
return []
def ex_list_folders(self):
req = "/rest/vcenter/folder"
response = self._request(req).object
folders = response['value']
for folder in folders:
folder['id'] = folder['folder']
return folders
def ex_list_datastores(self, ex_filter_folders=None, ex_filter_names=None,
ex_filter_datacenters=None, ex_filter_types=None,
ex_filter_datastores=None):
req = "/rest/vcenter/datastore"
kwargs = {'filter.folders': ex_filter_folders,
'filter.names': ex_filter_names,
'filter.datacenters': ex_filter_datacenters,
'filter.types': ex_filter_types,
'filter.datastores': ex_filter_datastores}
params = {}
for param, value in kwargs.items():
if value:
params[param] = value
result = self._request(req, params=params).object['value']
for datastore in result:
datastore['id'] = datastore['datastore']
return result
def ex_update_memory(self, node, ram):
"""
:param ram: The ammount of ram in MB.
:type ram: `str` or `int`
"""
if isinstance(node, str):
node_id = node
else:
node_id = node.id
request = "/rest/vcenter/vm/{}/hardware/memory".format(node_id)
ram = int(ram)
body = {'spec': {
"size_MiB": ram
}}
response = self._request(request, method="PATCH",
data=json.dumps(body))
return response.status in self.VALID_RESPONSE_CODES
def ex_update_cpu(self, node, cores):
"""
Assuming 1 Core per socket
:param cores: Integer or string indicating number of cores
:type cores: `int` or `str`
"""
if isinstance(node, str):
node_id = node
else:
node_id = node.id
request = "/rest/vcenter/vm/{}/hardware/cpu".format(node_id)
cores = int(cores)
body = {"spec": {
"count": cores
}}
response = self._request(request, method="PATCH",
data=json.dumps(body))
return response.status in self.VALID_RESPONSE_CODES
def ex_update_capacity(self, node, capacity):
# Should be added when REST API supports it
pass
def ex_add_nic(self, node, network):
"""
Creates a network adapater that will connect to the specified network
for the given node. Returns a boolean indicating success or not.
"""
if isinstance(node, str):
node_id = node
else:
node_id = node.id
spec = {}
spec['mac_type'] = "GENERATED"
spec['backing'] = {}
spec['backing']['type'] = "STANDARD_PORTGROUP"
spec['backing']['network'] = network
spec['start_connected'] = True
data = json.dumps({'spec': spec})
req = "/rest/vcenter/vm/{}/hardware/ethernet".format(node_id)
method = "POST"
resp = self._request(req, method=method, data=data)
return resp.status
def _get_library_item(self, item_id):
req = "/rest/com/vmware/content/library/item/id:{}".format(item_id)
result = self._request(req).object
return result['value']
def _get_resource_pool(self, host_id=None, cluster_id=None, name=None):
if host_id:
pms = {"filter.hosts": host_id}
if cluster_id:
pms = {"filter.clusters": cluster_id}
if name:
pms = {"filter.names": name}
rp_request = "/rest/vcenter/resource-pool"
resource_pool = self._request(rp_request,
params=pms).object
return resource_pool['value'][0]['resource_pool']
def _request(self, req, method="GET", params=None, data=None):
try:
result = self.connection.request(req, method=method,
params=params, data=data)
except BaseHTTPError as exc:
if exc.code == 401:
self.connection.session_token = None
self._get_session_token()
result = self.connection.request(req, method=method,
params=params, data=data)
else:
raise
except Exception:
raise
return result
def list_images(self, **kwargs):
libraries = self.ex_list_content_libraries()
item_ids = []
if libraries:
for library in libraries:
item_ids.extend(self.ex_list_content_library_items(library))
items = []
if item_ids:
for item_id in item_ids:
items.append(self._get_library_item(item_id))
images = []
names = set()
if items:
driver = self.connection.driver
for item in items:
names.add(item['name'])
extra = {"type": item['type']}
if item['type'] == 'vm-template':
capacity = item['size'] // (1024**3)
extra['disk_size'] = capacity
images.append(NodeImage(id=item['id'],
name=item['name'],
driver=driver, extra=extra))
if self.driver_soap is None:
self._get_soap_driver()
templates_in_hosts = self.driver_soap.list_images()
for template in templates_in_hosts:
if template.name not in names:
images += [template]
return images
def ex_list_networks(self):
request = "/rest/vcenter/network"
response = self._request(request).object['value']
networks = []
for network in response:
networks.append(VSphereNetwork(id=network['network'],
name=network['name'],
extra={'type': network['type']}))
return networks
def create_node(self, name, image, size=None, location=None,
ex_datastore=None, ex_disks=None,
ex_folder=None, ex_network=None, ex_turned_on=True):
"""
Image can be either a vm template , a ovf template or just
the guest OS.
ex_folder is necessary if the image is a vm-template, this method
will attempt to put the VM in a random folder and a warning about it
will be issued in case the value remains `None`.
"""
# image is in the host then need the 6.5 driver
if image.extra['type'] == "template_6_5":
kwargs = {}
kwargs['name'] = name
kwargs['image'] = image
kwargs['size'] = size
kwargs['ex_network'] = ex_network
kwargs['location'] = location
for dstore in self.ex_list_datastores():
if dstore['id'] == ex_datastore:
kwargs['ex_datastore'] = dstore['name']
break
kwargs['folder'] = ex_folder
if self.driver_soap is None:
self._get_soap_driver()
result = self.driver_soap.create_node(**kwargs)
return result
# post creation checks
create_nic = False
update_memory = False
update_cpu = False
create_disk = False
update_capacity = False
if image.extra['type'] == "guest_OS":
spec = {}
spec['guest_OS'] = image.name
spec['name'] = name
spec['placement'] = {}
if ex_folder is None:
warn = ("The API(6.7) requires the folder to be given, I will"
" place it into a random folder, after creation you "
"might find it convenient to move it into a better "
"folder.")
warnings.warn(warn)
folders = self.ex_list_folders()
for folder in folders:
if folder['type'] == "VIRTUAL_MACHINE":
ex_folder = folder['folder']
if ex_folder is None:
msg = "No suitable folder vor VMs found, please create one"
raise ProviderError(msg, 404)
spec['placement']['folder'] = ex_folder
if location.extra['type'] == "host":
spec['placement']['host'] = location.id
elif location.extra['type'] == 'cluster':
spec['placement']['cluster'] = location.id
elif location.extra['type'] == 'resource_pool':
spec['placement']['resource_pool'] = location.id
spec['placement']['datastore'] = ex_datastore
cpu = size.extra.get('cpu', 1)
spec['cpu'] = {'count': cpu}
spec['memory'] = {'size_MiB': size.ram}
if size.disk:
disk = {}
disk['new_vmdk'] = {}
disk['new_vmdk']['capacity'] = size.disk * (1024 ** 3)
spec['disks'] = [disk]
if ex_network:
nic = {}
nic['mac_type'] = 'GENERATED'
nic['backing'] = {}
nic['backing']['type'] = "STANDARD_PORTGROUP"
nic['backing']['network'] = ex_network
nic['start_connected'] = True
spec['nics'] = [nic]
create_request = "/rest/vcenter/vm"
data = json.dumps({'spec': spec})
elif image.extra['type'] == 'ovf':
ovf_request = ('/rest/com/vmware/vcenter/ovf/library-item'
'/id:{}?~action=filter'.format(image.id))
spec = {}
spec['target'] = {}
if location.extra.get('type') == "resource-pool":
spec['target']['resource_pool_id'] = location.id
elif location.extra.get('type') == "host":
resource_pool = self._get_resource_pool(host_id=location.id)
if not resource_pool:
msg = ("Could not find resource-pool for given location "
"(host). Please make sure the location is valid.")
raise VSphereException(code="504", message=msg)
spec['target']['resource_pool_id'] = resource_pool
spec['target']['host_id'] = location.id
elif location.extra.get('type') == 'cluster':
resource_pool = self._get_resource_pool(cluster_id=location.id)
if not resource_pool:
msg = ("Could not find resource-pool for given location "
"(cluster). Please make sure the location "
"is valid.")
raise VSphereException(code="504", message=msg)
spec['target']['resource_pool_id'] = resource_pool
ovf = self._request(ovf_request, method="POST",
data=json.dumps(spec)).object['value']
spec['deployment_spec'] = {}
spec['deployment_spec']['name'] = name
# assuming that since you want to make a vm you don't need reminder
spec['deployment_spec']['accept_all_EULA'] = True
# network
if ex_network and ovf['networks']:
spec['deployment_spec'][
'network_mappings'] = [{'key': ovf['networks'][0],
'value': ex_network}]
elif not ovf['networks'] and ex_network:
create_nic = True
# storage
if ex_datastore:
spec['deployment_spec']['storage_mappings'] = []
store_map = {"type": "DATASTORE", "datastore_id": ex_datastore}
spec['deployment_spec']['storage_mappings'].append(store_map)
if size and size.ram:
update_memory = True
if size and size.extra and size.extra.get('cpu'):
update_cpu = True
if size and size.disk:
# TODO Should update capacity but it is not possible with 6.7
pass
if ex_disks:
create_disk = True
create_request = ('/rest/com/vmware/vcenter/ovf/library-item'
'/id:{}?~action=deploy'.format(image.id))
data = json.dumps({"target": spec['target'],
'deployment_spec': spec['deployment_spec']})
elif image.extra['type'] == 'vm-template':
tp_request = "/rest/vcenter/vm-template/library-items/" + image.id
template = self._request(tp_request).object['value']
spec = {}
spec['name'] = name
# storage
if ex_datastore:
spec['disk_storage'] = {}
spec['disk_storage']['datastore'] = ex_datastore
# location :: folder,resource group, datacenter, host
spec['placement'] = {}
if not ex_folder:
warn = ("The API(6.7) requires the folder to be given, I will"
" place it into a random folder, after creation you "
"might find it convenient to move it into a better "
"folder.")
warnings.warn(warn)
folders = self.ex_list_folders()
for folder in folders:
if folder['type'] == "VIRTUAL_MACHINE":
ex_folder = folder['folder']
if ex_folder is None:
msg = "No suitable folder vor VMs found, please create one"
raise ProviderError(msg, 404)
spec['placement']['folder'] = ex_folder
if location.extra['type'] == 'host':
spec['placement']['host'] = location.id
elif location.extra['type'] == 'cluster':
spec['placement']['cluster'] = location.id
# network changes the network to existing nics if
# there are no adapters
# in the template then we will make on in the vm
# after the creation finishes
# only one network atm??
spec['hardware_customization'] = {}
if ex_network:
nics = template['nics']
if len(nics) > 0:
nic = nics[0]
spec['hardware_customization']['nics'] = [{
'key': nic['key'],
'value': {'network': ex_network}
}]
else:
create_nic = True
spec['powered_on'] = False
# hardware
if size:
if size.ram:
spec['hardware_customization']['memory_update'] = {
'memory': int(size.ram)
}
if size.extra.get('cpu'):
spec['hardware_customization']['cpu_update'] = {
'num_cpus': size.extra['cpu']
}
if size.disk:
if not len(template['disks']) > 0:
create_disk = True
else:
capacity = size.disk * 1024 * 1024 * 1024
dsk = template['disks'][0]['key']
if template['disks'][0][
'value']['capacity'] < capacity:
update = {'capacity': capacity}
spec['hardware_customization'][
'disks_to_update'] = [
{'key': dsk, 'value': update}]
create_request = ("/rest/vcenter/vm-template/library-items/"
"{}/?action=deploy".format(image.id))
data = json.dumps({'spec': spec})
# deploy the node
result = self._request(create_request,
method="POST", data=data)
# wait until the node is up and then add extra config
node_id = result.object['value']
if image.extra['type'] == "ovf":
node_id = node_id['resource_id']['id']
node = self.list_nodes(ex_filter_vms=node_id)[0]
if create_nic:
self.ex_add_nic(node, ex_network)
if update_memory:
self.ex_update_memory(node, size.ram)
if update_cpu:
self.ex_update_cpu(node, size.extra['cpu'])
if create_disk:
pass # until volumes are added
if update_capacity:
pass # until API method is added
if ex_turned_on:
self.start_node(node)
return node
# TODO As soon as snapshot support gets added to the REST api
# these methods should be rewritten with REST api calls
def ex_list_snapshots(self, node):
"""
List node snapshots
"""
if self.driver_soap is None:
self._get_soap_driver()
return self.driver_soap.ex_list_snapshots(node)
def ex_create_snapshot(self, node, snapshot_name, description='',
dump_memory=False, quiesce=False):
"""
Create node snapshot
"""
if self.driver_soap is None:
self._get_soap_driver()
return self.driver_soap.ex_create_snapshot(node, snapshot_name,
description=description,
dump_memory=dump_memory,
quiesce=False)
def ex_remove_snapshot(self, node, snapshot_name=None,
remove_children=True):
"""
Remove a snapshot from node.
If snapshot_name is not defined remove the last one.
"""
if self.driver_soap is None:
self._get_soap_driver()
return self.driver_soap.ex_remove_snapshot(
node, snapshot_name=snapshot_name, remove_children=remove_children)
def ex_revert_to_snapshot(self, node, snapshot_name=None):
"""
Revert node to a specific snapshot.
If snapshot_name is not defined revert to the last one.
"""
if self.driver_soap is None:
self._get_soap_driver()
return self.driver_soap.ex_revert_to_snapshot(
node, snapshot_name=snapshot_name)
def ex_open_console(self, vm_id):
if self.driver_soap is None:
self._get_soap_driver()
return self.driver_soap.ex_open_console(vm_id)